@phdthesis{Fusi2023, author = {Fusi, Lorenza}, title = {Crosstalk between the MEK5/ERK5 and PKB/FoxO pathways: underlying mechanism and its relevance for vasoprotection and tumorigenesis}, doi = {10.25972/OPUS-29676}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296769}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Forkhead box O transcription factors are a family of proteins involved in cellular processes downstream of the Insulin-PI3K-PKB pathway. In response to extra- or intracellular stresses, for example starvation or oxidative stress, FoxOs are required to direct cell cycle progression and apoptosis. In endothelial cells, they induce apoptosis, and their deregulation is linked to diseases involving the insulin pathway, such as diabetes. FoxOs also exhibit a complex role in tumour transformation: here their main function is to suppress tumorigenesis. In both physiological and cancer contexts, FoxO activation leads to the transcription of some general targets, such as p27kip1 or IGFBP1. The FoxOs can also induce tissue-specific genes, as ANGPT2 and BIM in the endothelium. In endothelial cells, another pathway with a pivotal function is the MEK5/ERK5 MAPK signalling way. Its activation promotes cell survival and proliferation in stressful conditions, e.g., when blood vessels are exposed to the shear forces exerted by the blood stream. Furthermore, recent data described ERK5 as a kinase directing tumour resistance upon therapy-induced stress. Comparing their reported roles in various tumours and in the endothelium, FoxO proteins and the MEK5/ERK5 MAPK cascade appear to exert opposite functions. First non-published data confirmed the hypothesis that FoxO factors are subject to a negative modulation by the MEK5/ERK5 pathway. Hence, one goal of this PhD project was to further characterise this crosstalk at molecular level. The major mechanism of FoxO regulation is the balance among several post translational modifications, such as phosphorylation, acetylation, and ubiquitination. Most importantly, the PKB dependent phosphorylation of FoxOs negatively controls their activity, and it is critical for their subcellular localization. Therefore, the regulation of FoxO localization as mechanism of ERK5 dependent suppression was studied, but the results presented in this thesis argue against this hypothesis. However, additional experiments are required to explore the impact of ERK5 activity on FoxO post-translational modifications. FoxO activity can also be modulated by the interaction with other proteins, which in turn could explain general- and tissue-specific gene expression. Thus, another objective of this work was to investigate FoxO3-interactome in endothelial cells and the impact of MEK5/ERK5 activation on it. As published in (Fusi et al. 2022) and presented here, this analysis unveiled TRRAP as new FoxO bound protein in several cell types. Moreover, the interaction did not rely on the capacity of the FoxOs to bind their consensus DNA sequences at the promoter of target genes. Functional data demonstrated that TRRAP is required for FoxO-dependent gene transcription in endothelial and osteosarcoma cells. In addition, TRRAP expression in the endothelium is important for FoxO induced apoptosis. In summary, the interaction between FoxO factors and TRRAP revealed a new regulatory mechanism of FoxO-dependent gene transcription. It remains to be analysed whether the MEK5/ERK5 cascade may exert its suppressive effect on FoxO activity by interfering with their binding to TRRAP and whether such a mechanism may be relevant for tumorigenesis.}, subject = {Endothel}, language = {en} } @phdthesis{Meiser2023, author = {Meiser, Elisabeth}, title = {Single-molecule dynamics at a bottleneck: a systematic study of the narrow escape problem in a disc}, doi = {10.25972/OPUS-31965}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-319650}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Diffusion facilitates numerous reactions within the biological context of a cell. It is remarkable how the cost-efficient random process of Brownian motion promotes fast reactions. From the narrow escape theory, it is possible to determine the mean first passage time of such processes based on their reaction space and diffusion coefficient. The narrow escape theory of Brownian particles is characterized by a confining domain with reflective boundaries and a small reaction site. In this thesis, the mean first passage time was systematically tested in a disc as a function of the escape opening size in vitro and in silico. For the in vitro experiments, a model system of patterned supported-lipid bilayers (SLB) was established. Such a model is prepared by a combined colloid metalization approach, where a gold scaffold on glass facilitates assembly of SLB patches of distinct sizes through vesicle fusion. The model setup was evaluated and found to match all necessary requirements to test the nar- row escape problem in vitro. In particular, the reflectivity of the boundaries, the unhindered, free diffusion of the tracer lipids, and the distinct area were assessed. Observed results of the mean first passage time agreed with the theory of the narrow escape problem. There was excellent agreement in both absolute values and across a range of small escape opening sizes. Additionally, I developed a straightforward method, a correction factor, to calculate the mean first passage time from incomplete experimental traces. By re-scaling the mean first passage time to the fraction of particles that escaped, I was able to overcome the lifetime limitations of fluorescent probes. Previously inaccessible measurements of the mean first passage time relying on fluorescent probes will be made possible through this approach. The in vitro experiments were complemented with various in silico experiments. The latter were based on random walk simulations in discs, mimicking the in vitro situation with its uncertainties. The lifetime of single particles was either set sufficiently long to allow all particles to escape, or was adjusted to meet the lifetime limitations observed in the in vitro experiments. A comparison of the mean first passage time from lifetime-unlimited particles to the corrected, lifetime-limited particles did support the use of the correction factor. In agreement with the narrow escape theory, it was experimentally found that the mean first passage time is independent of the start point of the particle within the domain. This is when the particle adheres to a minimum distance to the escape site. In general, the presented random walk simulations do accurately represent the in vitro experiments in this study. The required hardware for the establishment of an astigmatism-based 3D system was installed in the existing microscope. The first attempts to analyze the obtained 3D imaging data gave insight into the potential of the method to investigate molecule dynamics in living trypanosome cells. The full functionality will be realized with the ongoing improvement of image analysis outside of this thesis.}, subject = {Freies Molek{\"u}l}, language = {en} } @phdthesis{Ganskih2023, author = {Ganskih, Sabina}, title = {Dissecting the functional interplay between SARS-CoV-2 viral RNAs and the host proteome}, doi = {10.25972/OPUS-34648}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-346486}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The recent pandemic has reminded the public that basic research in virology is pivotal for human health. Understanding the mechanisms of successful viral replication and the role of host factors can help to combat viral infections and prevent future pandemics. Our lab has published the first SARS-CoV-2 RNA-protein interaction atlas, laying the foundation to investigate the interplay between viral RNA and host RNA binding proteins (RBP). Based on this, my project created the largest collection of binding profiles of host and viral RBPs on SARS-CoV-2 RNA to date. This revealed the host protein SND1 as the first human RBP that specifically binds negative sense viral RNA at the 5´ end, a region associated with viral transcription initiation. The binding profile shares similarities with the viral RBP nsp9, which binds the 5´ ends of positive and negative sense SARS-CoV-2 RNA. Depletion of SND1 shows reduced levels of viral RNA revealing it as a proviral host factor. To decode the underlying molecular mechanism, I characterized the protein-protein interactions of SND1 in SARS-CoV-2 infected and uninfected cells. Infection remodels the protein interactors of SND1 from general RNA biology to membrane association and viral RNA synthesis. Upon infection, SND1 specifically interacts with nsp9, the RBP that shares the same binding region on the negative strand of SARS-CoV-2 RNA. Recent work demonstrates that nsp9 is NMPylated in vitro suggesting a functional role of nsp9 in priming of viral RNA synthesis. I was able to show that nsp9 is covalently linked to the 5´ ends of SARS-CoV-2 RNA during infection of human cells. Analysing the covalent bond of nsp9 with the viral RNA on nucleotide level shows close proximity to the initiation sites of viral RNA synthesis, suggesting that nsp9 acts as a protein-primer of SARS-CoV-2 RNA synthesis. SND1 modulates the distribution of nsp9 on the viral RNA, since depletion of SND1 results in imbalanced occupancy of nsp9 at the 5´ends of viral RNA. This study is the first to provide evidence for the priming mechanism of SARS-CoV-2 in authentic viral replication and further reveals how this mechanism is modulated by the host RBP SND1. Detailed knowledge about priming of viral RNA synthesis can help to find targeted antivirals that could be used to fight coronaviral infections.}, subject = {SARS-CoV-2}, language = {en} } @phdthesis{SchukraftgebScheffler2024, author = {Schukraft [geb. Scheffler], Nina}, title = {Integrated defensive states and their neuronal correlates in the Periaqueductal Gray}, doi = {10.25972/OPUS-34745}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-347458}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {In the face of threat, animals react with a defensive reaction to avoid or reduce harm. This defensive reaction encompasses apart from behavioral changes also physiological, analgetic, and endocrine adaptations. Nonetheless, most animal studies on fear and anxiety are based on behavioral observations only, disregarding other aspects of the defensive reaction, or integrating their inter-related dynamics only insufficiently. The first part of this thesis aimed in characterizing patterned associations of behavioral and physiological responses, termed integrated defensive states. Analyzing cardiac and behavioral responses in mice undergoing multiple fear and anxiety paradigms revealed a complex and dynamic interaction of those readouts on both, short and long timescales. Microstates, stereotypical combinations of i.e. freezing and decelerating heart rates, are short-lasting and were, in turn, shown to be influenced by slow acting macrostate changes. One of those higher order macrostates, called `rigidity`, was defined as a latent process that constrains the range of momentary displayed heart rate values. Furthermore, integrated defensive states were found to be highly dependent on the cue and the context the animals are confronted with. Importantly, same behavioral observations, i.e. freezing, were associated with distinct cardiac responses, highlighting the importance of multivariate analysis of integrated defensive states. Defensive states are orchestrated by the brain, which has evolved evolutionary conserved survival circuits. A central brain area of these circuits is the periaqueductal gray (PAG) in the midbrain. It plays a pivotal role in mediating defensive states, as it receives signals about external and internal information from multiple brain regions and sends information to both, higher order brain areas as well as to the brainstem ultimately causing the execution of threat responses. In the second part of this thesis, different neuronal circuit elements in the PAG were optically manipulated in order to gain mechanistic insight into the defense network in the brain underlying the previously delineated cardio-behavioral defensive states. Optical activation of glutamatergic PAG neurons evoked heterogeneous, light-intensity dependent responses. However, a further molecular restriction of the glutamatergic neuronal population targeting only Chx10+ neurons, led to a cardio-behavioral state that resembled spontaneous freezing-bradycardia bouts. In summary, this thesis presents a multivariate description of defensive states, which includes the complex interaction of cardiac and behavioral responses on different timescales and, furthermore, functionally dissects different excitatory and inhibitory PAG circuit elements mediating these defensive states.}, subject = {Perianova, Irina}, language = {en} } @phdthesis{Janz2024, author = {Janz, Anna}, title = {Human induced pluripotent stem cells (iPSCs) in inherited cardiomyopathies: Generation and characterization of an iPSC-derived cardiomyocyte model system of dilated cardiomyopathy with ataxia (DCMA)}, doi = {10.25972/OPUS-24096}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-240966}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The emergence of human induced pluripotent stem cells (iPSCs) and the rise of the clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9 (CRISPR/Cas9) gene editing technology innovated the research platform for scientists based on living human pluripotent cells. The revolutionary combination of both Nobel Prize-honored techniques enables direct disease modeling especially for research focused on genetic diseases. To allow the study on mutation-associated pathomechanisms, we established robust human in vitro systems of three inherited cardiomyopathies: arrhythmogenic cardiomyopathy (ACM), dilated cardiomyopathy with juvenile cataract (DCMJC) and dilated cardiomyopathy with ataxia (DCMA). Sendai virus vectors encoding OCT3/4, SOX2, KLF4, and c-MYC were used to reprogram human healthy control or mutation-bearing dermal fibroblasts from patients to an embryonic state thereby allowing the robust and efficient generation of in total five transgene-free iPSC lines. The nucleofection-mediated CRISPR/Cas9 plasmid delivery in healthy control iPSCs enabled precise and efficient genome editing by mutating the respective disease genes to create isogenic mutant control iPSCs. Here, a PKP2 knock-out and a DSG2 knock-out iPSC line were established to serve as a model of ACM. Moreover, a DNAJC19 C-terminal truncated variant (DNAJC19tv) was established to mimic a splice acceptor site mutation in DNAJC19 of two patients with the potential of recapitulating DCMA-associated phenotypes. In total eight self-generated iPSC lines were assessed matching internationally defined quality control criteria. The cells retained their ability to differentiate into cells of all three germ layers in vitro and maintained a stable karyotype. All iPSC lines exhibited a typical stem cell-like morphology as well as expression of characteristic pluripotency markers with high population purities, thus validating the further usage of all iPSC lines in in vitro systems of ACM, DCMA and DCMJC. Furthermore, cardiac-specific disease mechanisms underlying DCMA were investigated using in vitro generated iPSC-derived cardiomyocytes (iPSC-CMs). DCMA is an autosomal recessive disorder characterized by life threatening early onset cardiomyopathy associated with a metabolic syndrome. Causal mutations were identified in the DNAJC19 gene encoding an inner mitochondrial membrane (IMM) protein with a presumed function in mitochondrial biogenesis and cardiolipin (CL) remodeling. In total, two DCMA patient-derived iPSC lines (DCMAP1, DCMAP2) of siblings with discordant cardiac phenotypes, a third isogenic mutant control iPSC line (DNAJC19tv) as well as two control lines (NC6M and NC47F) were directed towards the cardiovascular lineage upon response to extracellular specification cues. The monolayer cardiac differentiation approach was successfully adapted for all five iPSC lines and optimized towards ventricular subtype identity, higher population purities and enhanced maturity states to fulfill all DCMA-specific requirements prior to phenotypic investigations. To provide a solid basis for the study of DCMA, the combination of lactate-based metabolic enrichment, magnetic-activated cell sorting, mattress-based cultivation and prolonged cultivation time was performed in an approach-dependent manner. The application of the designated strategies was sufficient to ensure adult-like characteristics, which included at least 60-day-old iPSC-CMs. Therefore, the novel human DCMA platform was established to enable the study of the pathogenesis underlying DCMA with respect to structural, morphological and functional changes. The disease-associated protein, DNAJC19, is constituent of the TIM23 import machinery and can directly interact with PHB2, a component of the membrane bound hetero-oligomeric prohibitin ring complexes that are crucial for phospholipid and protein clustering in the IMM. DNAJC19 mutations were predicted to cause a loss of the DnaJ interaction domain, which was confirmed by loss of full-length DNAJC19 protein in all mutant cell lines. The subcellular investigation of DNAJC19 demonstrated a nuclear restriction in mutant iPSC-CMs. The loss of DNAJC19 co-localization with mitochondrial structures was accompanied by enhanced fragmentation, an overall reduction of mitochondrial mass and smaller cardiomyocytes. Ultrastructural analysis yielded decreased mitochondria sizes and abnormal cristae providing a link to defects in mitochondrial biogenesis and CL remodeling. Preliminary data on CL profiles revealed longer acyl chains and a more unsaturated acyl chain composition highlighting abnormities in the phospholipid maturation in DCMA. However, the assessment of mitochondrial function in iPSCs and dermal fibroblasts revealed an overall higher oxygen consumption that was even more enhanced in iPSC-CMs when comparing all three mutants to healthy controls. Excess oxygen consumption rates indicated a higher electron transport chain (ETC) activity to meet cellular ATP demands that probably result from proton leakage or the decoupling of the ETC complexes provoked by abnormal CL embedding in the IMM. Moreover, in particular iPSC-CMs presented increased extracellular acidification rates that indicated a shift towards the utilization of other substrates than fatty acids, such as glucose, pyruvate or glutamine. The examination of metabolic features via double radioactive tracer uptakes (18F-FDG, 125I-BMIPP) displayed significantly decreased fatty acid uptake in all mutants that was accompanied by increased glucose uptake in one patient cell line only, underlining a highly dynamic preference of substrates between mutant iPSC-CMs. To connect molecular changes directly to physiological processes, insights on calcium kinetics, contractility and arrhythmic potential were assessed and unraveled significantly increased beating frequencies, elevated diastolic calcium concentrations and a shared trend towards reduced cell shortenings in all mutant cell lines basally and upon isoproterenol stimulation. Extended speed of recovery was seen in all mutant iPSC-CMs but most striking in one patient-derived iPSC-CM model, that additionally showed significantly prolonged relaxation times. The investigations of calcium transient shapes pointed towards enhanced arrhythmic features in mutant cells comprised by both the occurrence of DADs/EADs and fibrillation-like events with discordant preferences. Taken together, new insights into a novel in vitro model system of DCMA were gained to study a genetically determined cardiomyopathy in a patient-specific manner upon incorporation of an isogenic mutant control. Based on our results, we suggest that loss of full-length DNAJC19 impedes PHB2-complex stabilization within the IMM, thus hindering PHB-rings from building IMM-specific phospholipid clusters. These clusters are essential to enable normal CL remodeling during cristae morphogenesis. Disturbed cristae and mitochondrial fragmentation were observed and refer to an essential role of DNAJC19 in mitochondrial morphogenesis and biogenesis. Alterations in mitochondrial morphology are generally linked to reduced ATP yields and aberrant reactive oxygen species production thereby having fundamental downstream effects on the cardiomyocytes` functionality. DCMA-associated cellular dysfunctions were in particular manifested in excess oxygen consumption, altered substrate utilization and abnormal calcium kinetics. The summarized data highlight the usage of human iPSC-derived CMs as a powerful tool to recapitulate DCMA-associated phenotypes that offers an unique potential to identify therapeutic strategies in order to reverse the pathological process and to pave the way towards clinical applications for a personalized therapy of DCMA in the future.}, subject = {Induzierte pluripotente Stammzelle}, language = {en} } @phdthesis{Widmaier2023, author = {Widmaier, Louis}, title = {Die Regulation des Chemokinrezeptors CXCR4 durch Chemotherapeutika in Myelomzelllinien}, doi = {10.25972/OPUS-34568}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-345682}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Untersucht wurde der Einfluss mehrerer Chemotherapeutika auf den Chemokinrezeptor CXCR4 in Myelomzelllinien auf Ebene des Promotors, der mRNA und der Rezeptorverteilung, wobei drei Substanzen (Etoposid, Bortezomib und Dexamethason) als potenzielle Suppressoren des Promotors ausgemacht werden konnten. Abh{\"a}ngig vom Myelom-Zelltyp und der Dosierung k{\"o}nnen so evtl. R{\"u}ckschl{\"u}sse auf die beobachtete Suppression von CXCR4 bei erkrankten Patienten mit hoher CXCR4-Aktivit{\"a}t (hier: Malignes Myelom) durch die begleitende Chemotherapie gezogen werden, welche eine Diagnostik und Therapie bei diesen Patienten erschwert. Hintergrund: Hintergrund f{\"u}r diese Arbeit waren Beobachtungen in klinischen Fallstudien von Lapa et al. am Universit{\"a}tsklinikum W{\"u}rzburg, die sich auf CXCR4 bezogen, welches u.a. bei Patienten mit Multiplem Myelom {\"u}berexprimiert wird und dadurch bereits als Target f{\"u}r Diagnostik und Therapie in der Klinik Anwendung findet. Dabei konnte bei PET-CT Untersuchungen in der Nuklearmedizin beobachtet werden, dass es durch die begleitende Chemotherapie der Patienten zu einer Suppression des markierten CXCR4-Signals kam, so dass es nicht mehr zur Verlaufsbeobachtung und vor allem nicht mehr zur Radiotherapie und Therapiekontrolle verwendet werden konnte. Um den Einfluss und m{\"o}gliche Interaktionen der Chemotherapeutika auf CXCR4 zu untersuchen, war es Ziel dieser Arbeit, ein vergleichbares Szenario in-vitro nachzustellen und Einfl{\"u}sse messbar zu machen, um so m{\"o}gliche Ans{\"a}tze und Verbesserungsvorschl{\"a}ge f{\"u}r die klinische Anwendung zu liefern. Methoden/Ergebnisse: Hierf{\"u}r wurden im ersten Teil INA-6 (Myelomzellen) und Mesenchymale Stammzellen (MSC) kultiviert, in Ko-Kultur gebracht und nach einer bestimmten Zeit wieder getrennt, um anschließend den gegenseitigen Einfluss in Bezug auf CXCR4 zu messen. Zudem wurde der Einfluss von Dexamethason untersucht. Es zeigte sich eine enge Bindung zwischen INA-6 und MSC sowie eine hohe CXCR4-Aktivit{\"a}t bei INA-6, jedoch konnte keine Induktion der CXCR4-Aktivit{\"a}t in MSC durch INA-6-Kontakt oder Dexamethason quantifiziert werden. Die Immunzytologie erwies sich aufgrund einer schweren Anf{\"a}rbbarkeit von CXCR4 - auch mit verschiedensten Antik{\"o}rpern und sogar Liganden-gekoppeltem Farbstoff- als kaum auswertbar, wobei eine Darstellung von CXCR4 generell aber gelang. Der CXCR4-Promotor wurde mittels Software genauer analysiert, wobei einige relevante Bindestellen, u.a. f{\"u}r Glukokortikoide und NFkB gefunden wurden. Die Herstellung eines CXCR4- pGl4.14-Promotor-Konstrukts war erfolgreich, ebenso dessen Einschleusung in Myelomzellen. Auch gelang die Herstellung stabiler transfizierter INA-6, sodass mit diesen anschließend konstantere Ergebnisse erzielt werden konnten. Im gr{\"o}ßten Teil der Arbeit wurden geeignete Chemotherapeutika-Konzentrationen ermittelt und in Viabilit{\"a}ts- und Apoptose-Versuchen {\"u}berpr{\"u}ft. Die Stimulationsversuche mit diesen zeigten variable Effekte abh{\"a}ngig vom Zelltyp (INA-6, MM1S), jedoch konnten Bortezomib, Etoposid und Dexamethason konzentrationsabh{\"a}ngig als starke Suppressoren der CXCR4-Aktivit{\"a}t ausgemacht werden, was sich v.a. auf Ebene der Promotoraktivit{\"a}t - gemessen mittels Luciferase - zeigte. Interpretation: In-vitro konnten somit drei potenzielle Suppressoren der CXCR4-Aktivit{\"a}t ausgemacht werden: Etoposid, Bortezomib und Dexamethason. Zumindest beim INA-6-Zelltyp fiel dieser Effekt deutlich aus, wobei in der Klinik der entsprechende Zelltyp sowie die Dosierung der Medikamente ber{\"u}cksichtigt werden m{\"u}ssen. Hinzu kommen weitere Einflussfaktoren des menschlichen K{\"o}rpers, die nicht ber{\"u}cksichtig werden konnten. Die genauen Mechanismen der Suppression k{\"o}nnten sich aus den Bindestellen des Promotors erkl{\"a}ren, die von uns analysiert wurden, aber auf die in weiteren Arbeiten noch n{\"a}her eingegangen werden muss.}, subject = {Bortezomib}, language = {de} } @phdthesis{Cellini2024, author = {Cellini, Antonella}, title = {Die Rolle der Na\(^+\)/K\(^+\)-ATPase in der Herzinsuffizienz}, doi = {10.25972/OPUS-29789}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-297894}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Die Na+ /K+ -ATPase (NKA) ist maßgeblich an der Regulation der kardialen Na+ -Hom{\"o}ostase beteilligt. Im Myokard werden haupts{\"a}chlich zwei Isoformen exprimiert: die α1 (NKA-α1) und die α2-Isoform (NKA-α2). Diese beiden Isoformen unterscheiden sich sowohl in ihrer Lokalisation als auch in ihrer zellul{\"a}ren Funktion. So ist die NKA-α1 recht homogen entlang des Sarkolemms zu finden und ist verantwortlich f{\"u}r die Regulation der globalen intrazellul{\"a}ren Na+ -Konzentration ([Na+ ]i). Die NKA-α2 hingegen konzentriert sich haupts{\"a}chlich in den T-Tubuli und beeinflusst {\"u}ber Ver{\"a}nderung der lokalen [Na+ ]i die Ca2+ -Transienten und die Kontraktilit{\"a}t. Im Rahmen einer Herzinsuffizienz wurde eine verminderte Expression und Aktivit{\"a}t der NKA beobachtet. Gleichzeitig werden Inhibitoren der NKA, sogenannte Digitalisglykoside, in fortgeschrittenen Herzinsuffizienz-Stadien eingesetzt. Die Studienlage {\"u}ber den Einsatz dieser Therapeutika ist recht uneinheitlich und reicht von einer verringerten Hospitalisierung bis hin zu einer erh{\"o}hten Mortalit{\"a}t. Ziel dieser Arbeit war es die Folgen einer NKA-α2 Aktivierung w{\"a}hrend einer Herzinsuffizienz mit Hilfe eines murinen {\"U}berexpressionsmodells zu analysieren. 11-Wochen alte M{\"a}use mit einer kardialen NKA-α2 {\"U}berexpression (NKA-α2) und Wildtyp (WT) Versuchstiere wurden einem 8-w{\"o}chigen Myokardinfarkt (MI) unterzogen. NKA-α2 Versuchstiere waren vor einem pathologischem Remodeling und einer kardialen Dysfunktion gesch{\"u}tzt. NKA-α2 Kardiomyozyten zeigten eine erh{\"o}hte Na+ /Ca2+ -Austauscher (NCX) Aktivit{\"a}t, die zu niedrigeren diastolischen und systolischen Ca2+ -Spiegeln f{\"u}hrte und einer Ca2+ -Desensitisierung der Myofibrillen entgegenwirkte. WT Versuchstiere zeigten nach chronischem MI eine sarkoplasmatische Ca2+ -Akkumulation, die in NKA-α2 Kardiomyozyten ausblieb. Gleichzeitig konnte in der NKA-α2 MI Kohorte im Vergleich zu den WT MI Versuchstieren eine erh{\"o}hte Expression von β1-adrenergen Rezeptoren (β1AR) beobachtet werden, die eine verbesserte Ansprechbarkeit gegen{\"u}ber β-adrenergen Stimuli bewirkte. Zudem konnte in unbehandelten Versuchstieren eine Interaktion zwischen NKA-α2 und dem β1AR nachgewiesen werden, welche in der WT Kohorte gr{\"o}ßer ausfiel als in der NKA-α2 Versuchsgruppe. Gleichzeitig zeigten unbehandelte NKA-α2 Kardiomyozyten eine erh{\"o}hte Sensitivit{\"a}t gegen{\"u}ber β-adrenerger Stimulation auf, welche nicht mit einer erh{\"o}hten Arrhythmie-Neigung oder vermehrten Bildung reaktiver Sauerstoffspezies einherging. Diese Untersuchungen zeigen, dass eine NKA-α2 {\"U}berexpression vor pathologischem Remodeling und einer kardialen Funktionbeeintr{\"a}chtigung sch{\"u}tzt, indem eine systolische, diastolische und sarkoplasmatische Ca2+ -Akkumulation verhindert wird. Gleichzeitig wird die β1AR Expression stabilisert, wodurch es zu einer verminderten neurohumoralen Aktivierung und einer Durchbrechung des Circulus vitiosus kommen k{\"o}nnte. Insgesamt scheint eine Aktivierung der NKA-α2 durchaus ein vielversprechendes Target in der Herzinsuffizienz Therapie darzustellen. Therapie darzustellen.}, subject = {Herzinsuffizienz}, language = {de} } @phdthesis{Massih2024, author = {Massih, Bita}, title = {Human stem cell-based models to analyze the pathophysiology of motor neuron diseases}, publisher = {Frontiers in Cell and Developmental Biology}, doi = {10.25972/OPUS-34637}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-346374}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Motor neuron diseases (MNDs) encompass a variety of clinically and genetically heterogeneous disorders, which lead to the degeneration of motor neurons (MNs) and impaired motor functions. MNs coordinate and control movement by transmitting their signal to a target muscle cell. The synaptic endings of the MN axon and the contact site of the muscle cell thereby form the presynaptic and postsynaptic structures of the neuromuscular junction (NMJ). In MNDs, synaptic dysfunction and synapse elimination precede MN loss suggesting that the NMJ is an early target in the pathophysiological cascade leading to MN death. In this study, we established new experimental strategies to analyze human MNDs by patient derived induced pluripotent stem cells (iPSCs) and investigated pathophysiological mechanisms in two different MNDs. To study human MNDs, specialized cell culture systems that enable the connection of MNs to their target muscle cells are required to allow the formation of NMJs. In the first part of this study, we established and validated a human neuromuscular co-culture system consisting of iPSC derived MNs and 3D skeletal muscle tissue derived from myoblasts. We generated 3D muscle tissue by culturing primary myoblasts in a defined extracellular matrix in self-microfabricated silicone dishes that support the 3D tissue formation. Subsequently, iPSCs from healthy donors and iPSCs from patients with the progressive MND Amyotrophic Lateral Sclerosis (ALS) were differentiated into MNs and used for 3D neuromuscular co-cultures. Using a combination of immunohistochemistry, calcium imaging, and pharmacological stimulations, we characterized and confirmed the functionality of the 3D muscle tissue and the 3D neuromuscular co-cultures. Finally, we applied this system as an in vitro model to study the pathophysiology of ALS and found a decrease in neuromuscular coupling, muscle contraction, and axonal outgrowth in co-cultures with MNs harboring ALS-linked superoxide dismutase 1 (SOD1) mutation. In summary, this co-culture system presents a human model for MNDs that can recapitulate aspects of ALS pathophysiology. In the second part of this study, we identified an impaired unconventional protein secretion (UPS) of Sod1 as pathological mechanisms in Pleckstrin homology domain-containing family G member 5 (Plekhg5)-associated MND. Sod1 is a leaderless cytosolic protein which is secreted in an autophagy-dependent manner. We found that Plekhg5 depletion in primary MNs and NSC34 cells leads to an impaired secretion of wildtype Sod1, indicating that Plekhg5 drives the UPS of Sod1 in vitro. By interfering with different steps during the biogenesis of autophagosomes, we could show that Plekhg5-regulated Sod1 secretion is determined by autophagy. To analyze our findings in a clinically more relevant model we utilized human iPSC MNs from healthy donors and ALS patients with SOD1 mutations. We observed reduced SOD1 secretion in ALS MNs which coincides with reduced protein expression of PLEKHG5 compared to healthy and isogenic control MNs. To confirm this correlation, we depleted PLEKHG5 in control MNs and found reduced extracellular SOD1 levels, implying that SOD1 secretion depends on PLEKHG5. In summary, we found that Plekh5 regulates the UPS of Sod1 in mouse and human MNs and that Sod1 secretion occurs in an autophagy dependent manner. Our data shows an unreported mechanistic link between two MND-associated proteins.}, subject = {Tissue Engineering}, language = {en} } @phdthesis{Zimniak2024, author = {Zimniak, Melissa Maria}, title = {Der Serotonin-Wiederaufnahmehemmer Fluoxetin inhibiert die SARS-CoV-2-Replikation}, doi = {10.25972/OPUS-34719}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-347190}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Die COVID-19 Pandemie ist die bisher verheerendste Pandemie des 21. Jahrhunderts. Durch die Einf{\"u}hrung neuer mRNA-basierter Impfstoffe sowie der hohen Rate nat{\"u}rlicher Infektionen konnte die weltweite SARS-CoV-2-Immunit{\"a}t gesteigert werden. Trotz aller Erfolge zur Eind{\"a}mmung der Pandemie kann eine Infektion auch heute noch zu schweren Verl{\"a}ufen und Tod f{\"u}hren. Eine ad{\"a}quate COVID-19-Therapie ist folglich auf potente Virostatika angewiesen. Eine durch Umgehung zeitaufw{\"a}ndiger klinischer Studien schnell verf{\"u}gbare Alternative zu neu entwickelten Arzneimitteln ist die Anwendung etablierter Medikamente. Wir isolierten und charakterisierten ein von einem Patienten stammendes SARS-CoV-2-Virus. Dieses Virusisolat wurde bisher in elf Publikationen verwendet. Mittels quantitativer Echtzeit-Polymerasekettenreaktion untersuchten wir eine Substanzbibliothek mit mehr als 300 neuen und bereits zugelassenen Wirkstoffen auf ihre Wirksamkeit gegen SARS-CoV-2. Dabei konnten wir zeigen, dass der selektive Serotonin-Wiederaufnahmehemmer Fluoxetin die SARS-CoV-2-Replikation ab einer Dosis von 0,8 μg/ml signifikant inhibiert, einer bei der Behandlung von Depressionen h{\"a}ufig angewandten Dosierung. Der EC50-Wert lag bei 387 ng/ml. Die Behandlung mit Fluoxetin resultierte in einer reduzierten Zahl an Virusprotein-produzierenden Zellen, was darauf hindeutet, dass es die virale Reinfektion und/oder Proteinexpression inhibiert. Fluoxetin ist ein racemisches Gemisch, wobei das (S)-Enantiomer der potentere Serotonin-Wiederaufnahmehemmer ist. Wir konnten zeigen, dass beide Enantiomere einen vergleichbaren antiviralen Effekt gegen SARS-CoV-2 aufweisen, wodurch das (R)-Enantiomer bei virologischer Indikation gegebenenfalls pr{\"a}feriert werden sollte. Fluoxetin hat keinen Einfluss auf die Replikation des Tollwut-Virus und des Humanen Respiratorischen Synzytial-Virus, was auf eine Virusspezifit{\"a}t hindeutet. Weitere aus der Bibliothek stammende signifikante Inhibitoren der SARS-CoV-2-Replikation sind die am Institut f{\"u}r Organische Chemie W{\"u}rzburg entwickelten Substanzen AKS 232 und AKS 128. Neben der medikament{\"o}sen Therapie ist die akkurate Bestimmung neutralisierender Antik{\"o}rper gegen SARS-CoV-2 zur Quantifizierung des bestehenden (Re-) Infektionsschutzes sowie zur Planung zuk{\"u}nftiger Impfstrategien von großer Bedeutung. Im Rahmen dieser Arbeit entwickelten wir unter Verwendung der quantitativen Echtzeit-Polymerasekettenreaktion erfolgreich ein zuverl{\"a}ssiges Testverfahren zur Detektion neutralisierender anti-SARS-CoV-2 Antik{\"o}rper.}, subject = {Fluoxetin}, language = {de} } @phdthesis{Koch2024, author = {Koch, Thorsten Manfred}, title = {Wirt - Pathogen Interaktion bei Hornhautinfektionen durch \(Fusarium\) spp.}, doi = {10.25972/OPUS-34777}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-347774}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Fusarium (F.)-Infektionen des Auges zeigen oft einen schwerwiegenden Verlauf und sind am h{\"a}ufigsten mit Spezies des Fusarium solani species complex assoziiert. Dabei sind das Tragen von weichen Kontaktlinsen sowie Traumata die wichtigsten pr{\"a}disponierenden Faktoren. Vorangegangene Untersuchungen des Nationalen Referenzzentrums f{\"u}r invasive Pilzinfektionen hatten ergeben, dass Infektionen durch F. petroliphilum mit der Nutzung von Kontaktlinsen, Infektionen durch F. falciforme jedoch {\"u}berwiegend traumaassoziiert uns vor allem aus tropischen und subtropischen L{\"a}ndern bekannt sind. Das Ziel dieser Arbeit war es daher zu untersuchen, ob F. falcifomre und F. petroliphilum physiologische Merkmale aufweisen, die f{\"u}r die Unterschiede in den Risikofaktoren f{\"u}r Keratitiden durch die beiden Arten verantwortlich sein k{\"o}nnten.}, subject = {Fusarium}, language = {de} } @phdthesis{Hassler2023, author = {Haßler, Markus Sebastian}, title = {NFATc3 in der akuten GvHD}, doi = {10.25972/OPUS-32368}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-323681}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Bei Leuk{\"a}mien, Lymphomen und dem Multiplen Myelom stellt die allogene h{\"a}matopoetische Stammzelltransplantation (allo-HCT) oft die letzte kurative Therapieoption dar. Spender-T-Zellen (v.a. CD8+-T-Zellen), die im Transplantat enthalten sind, erkennen nach Chemo-/Strahlentherapie verbliebene Reste des entarteten Empf{\"a}ngergewebes, eradizieren dieses und verhindern somit ein Tumorrezidiv (Graft-versus-Leuk{\"a}mie Reaktion/GvL). H{\"a}ufig attackieren Spender-T-Zellen (v.a. CD4+-Th1-Zellen) aber auch nicht-malignes Gewebe (z.B. Haut, Leber und Darm), was bis zum Tod des Patienten f{\"u}hren kann (Graft-versus-Host Disease/GvHD). Calcineurin-Inhibitoren wie Cyclosporin A (CsA) und Tacrolimus, die oft schon prophylaktisch verabreicht werden, verhindern {\"u}ber eine unselektive Inhibition aller Mitglieder der NFAT-Transkriptionsfaktorfamilie (Nuclear factor of activated T-cells) die Aktivierung der Spender-T-Zellen. Es folgt eine klinische Besserung der GvHD-Symptomatik, w{\"a}hrend jedoch der GvL-Effekt ebenfalls supprimiert wird. Bisherige Untersuchungen unserer Arbeitsgruppe am Mausmodell hatten gezeigt, dass die selektive Inhibition eines NFAT-Familienmitgliedes (NFATc1 oder NFATc2) in den Donor-T-Zellen zu einer signifikanten Besserung der aGvHD bei jedoch erhaltener GvL f{\"u}hrt. Es wurde nun der Einfluss des dritten, in Lymphozyten exprimierten NFAT-Mitglieds NFATc3 im Kontext der aGvHD untersucht. Zur Basisanalyse der neu kreierten Nfatc3fl/fl.Cd4cre- und Nfatc1fl/fl.Nfatc3fl/fl.Cd4cre-Mauslinien erfolgten durchflusszytometrische und Western-Blot-Analysen. Anschließend wurden In-vivo-Untersuchungen unter Verwendung eines etablierten major-mismatch-aGvHD-Modells (H-2b→H-2d) durchgef{\"u}hrt. Es konnte gezeigt werden, dass durch eine NFATc3- (+/- NFATc1-) Defizienz direkt ex vivo die CD4+/CD8+-Ratio durch Abnahme der CD4+- hin zu den CD8+-T-Zellen verschoben wird. Auch zeigte sich in den entsprechenden Genotypen eine Abnahme der naiven- und daf{\"u}r vice versa eine Zunahme der Effektor-T-Zellen. In den wiederholt durchgef{\"u}hrten aGvHD-Versuchen zeigte sich in vivo als Korrelat der (ebenfalls erneut nachgewiesenen) Abnahme des CD4+/CD8+-Quotienten in den Zielorganen eine geringere Expansion der NFAT-defizienten als der wildtypischen T-Zellen. Leider spiegelte sich dies nicht in dem clinical score zur Quantifizierung der aGvHD-Symptomatik wider. Auch das K{\"o}rpergewicht der Versuchsgruppe nahm rapide ab. Urs{\"a}chlich hierf{\"u}r ist - als Korrelat zur direkt ex vivo nachgewiesenen Aktivierungsneigung - ein vermehrter Th1-Shift der NFATc3 (+/-NFATc1-) defizienten T-Zellen. Eine Inhibierung von NFATc3 - im Gegensatz zu NFATc1 und NFATc2 - ist demzufolge kein sinnvoller Ansatzpunkt f{\"u}r eine m{\"o}gliche, zielgerichtetere aGvHD-Therapie. Der positive Effekt der reduzierten Proliferationsneigung der NFATc3-defizienten Lymphozyten wird durch deren vermehrte Aktivierungsneigung mit erh{\"o}hter Sekretion von pro-inflammatorischen Zytokinen zunichte gemacht.}, subject = {Transplantat-Wirt-Reaktion}, language = {de} } @phdthesis{Reil2023, author = {Reil, Lucy Honor}, title = {The role of WASH complex subunit Strumpellin in platelet function}, doi = {10.25972/OPUS-24207}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-242077}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Strumpellin is a member of the highly conserved pentameric WASH complex, which stimulates the Arp2/3 complex on endosomes and induces the formation of a branched actin network. The WASH complex is involved in the formation and stabilisation of endosomal retrieval subdomains and transport carriers, into which selected proteins are packaged and subsequently transported to their respective cellular destination, e.g. the plasma membrane. Up until now, the role of Strumpellin in platelet function and endosomal trafficking has not been researched. In order to examine its role, a conditional knockout mouse line was generated, which specifically lacked Strumpellin in megakaryocytes and platelets. Conditional knockout of Strumpellin resulted in only a mild platelet phenotype. Loss of Strumpellin led to a decreased abundance of the αIIbβ3 integrin in platelets, including a reduced αIIbβ3 surface expression by approximately 20\% and an impaired αIIbβ3 activation after platelet activation. The reduced surface expression of αIIbβ3 was also detected in megakaryocytes. The expression of other platelet surface glycoproteins was not affected. Platelet count, size and morphology remained unaltered. The reduction of αIIbβ3 expression in platelets resulted in a reduced fibrinogen binding capacity after platelet activation. However, fibrinogen uptake under resting conditions, although slightly delayed, as well as overall fibrinogen content in Strumpellin-deficient platelets were comparable to controls. Most notably, reduced αIIbβ3 expression did not lead to any platelet spreading and aggregation defects in vitro. Furthermore, reduced WASH1 protein levels were detected in the absence of Strumpellin. In conclusion, loss of Strumpellin does not impair platelet function, at least not in vitro. However, the data demonstrates that Strumpellin plays a role in selectively regulating αIIbβ3 surface expression. As a member of the WASH complex, Strumpellin may regulate αIIbβ3 recycling back to the platelet surface. Furthermore, residual WASH complex subunits may still assemble and partially function in the absence of Strumpellin, which could explain the only 20\% decrease in αIIbβ3 surface expression. Nonetheless, the exact mechanism still remains unclear.}, language = {en} } @phdthesis{Klingler2023, author = {Klingler, Philipp}, title = {Exploration of proteasome interactions with human platelet function}, doi = {10.25972/OPUS-32108}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-321089}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Platelets are anucleated cell fragments derived from megakaryocytes. They play a fundamental role in hemostasis, but there is rising evidence that they are also involved in immunological processes. Despite absence of a nucleus, human platelets are capable of de novo protein synthesis and contain a fully functional proteasome system, which is, in nucleated cells, involved in processes like cell cycle progression or apoptosis by its ability of protein degradation. The physiological significance of the proteasome system in human platelets is not yet fully understood and subject of ongoing research. Therefore, this study was conducted with the intention to outline the role of the proteasome system for functional characteristics of human platelets. For experimentation, citrated whole blood from healthy donors was obtained and preincubated with proteasome inhibitors. In addition to the commonly used bortezomib, the potent and selective proteasome inhibitor carfilzomib was selected as a second inhibitor to rule out agent-specific effects and to confirm that observed changes are related to proteasome inhibition. Irreversibly induced platelet activation and aggregation were not affected by proteasome blockade with bortezomib up to 24 hours. Conversely, proteasome inhibition led to enhanced threshold aggregation and agglutination up to 25 \%, accompanied by partial alleviation of induced VASP phosphorylation of approximately 10-15 \%. Expression of different receptors were almost unaffected. Instead, a significant increase of PP2A activity was observable in platelets after proteasome blockade, accompanied by facilitated platelet adhesion to coated surfaces in static experiments or flow chamber experiments. Carfilzomib, used for the first time in functional experimentation with human platelets in vitro, led to a dose-dependent decrease of proteasome activity with accumulation of poly ubiquitylated proteins. Like bortezomib, carfilzomib treatment resulted in enhanced threshold aggregation with attenuated VASP phosphorylation. As the main conclusion of this thesis, proteasome inhibition enhances the responsiveness of human platelets, provided by an alleviation of platelet inhibitory pathways and by an additional increase of PP2A activity, resulting in facilitated platelet adhesion under static and flow conditions. The proteasome system appears to be involved in the promotion of inhibitory counterregulation in platelets. The potential of proteasome inhibitors for triggering thromboembolic adverse events in patients must be clarified in further studies, in addition to their possible use for targeting platelet function to improve the hemostatic reactivity of platelets.}, subject = {Thrombozyt}, language = {en} } @phdthesis{Xiao2023, author = {Xiao, Yin}, title = {Lack of NFATc1 SUMOylation prevents autoimmunity and alloreactivity}, doi = {10.25972/OPUS-32105}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-321054}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {SUMOylation, as a post-translational modification, plays a crucial role in several biological processes. Small ubiquitin-like modifier (SUMO) proteins can be reversibly linked to the lysine residues located within specific motifs on numerous target proteins, leading to the change of stability, localization, activity of target proteins, mostly by promoting or interfering with the interaction with other molecules. Consequently, it can regulate gene transcription, migration, cell cycle progression, cellular responses to stress, and tumorigenesis. NFATc1 belongs to the Nuclear Factor of Activated T-cells (NFAT) transcription factor family, which is dephosphorylated and translocates to the nucleus upon cell stimulation, which provokes Ca2+ signalling. NFAT plays a crucial role in the development and function of the immune system. NFATc1 has three SUMOylation sites at the position of aa 349, 702, and 914. In our previous study, we demonstrated that point mutations performed on the SUMOylation sites on all three or only at the lysine residues K702 and K914 lead to enhanced expression of IL-2 in vitro. To evaluate the function of SUMOylation of NFATc1 on T cell-mediated immunity in vivo, we not only generated a transgenic mouse strain (NFATc1/ΔS+ mouse) by point mutations from Lysine to Arginine on the two SUMOylation sites within exon 10 of Nfatc1 to prevent their SUMOylation, but in combination created another mouse strain (NFATc1/ΔBC+ mouse) that is completely Nfatc1 exon 10-ablated by using the LoxP/Cre system. In NFATc1/ΔS+ T cells, we observed enhanced IL-2 production and less IL-17A and IFN-γ expression. In line with exon 10 bearing the relevant SUMO sites, NFATc1/ΔBC+ CD4+ T cells behaved similarly as NFATc1/ΔS+ ones. The mechanism is that elevated IL-2 secretion can counteract the expression of IL-17A and IFN-γ via STAT5 and Blimp-1 induction. Afterwards, Blimp-1 suppressed IL-2 itself as well as Bcl2A1. Next, we performed two disease models with our NFATc1/ΔS+ mice. In a major mismatch model for acute graft-versus-host disease, we found that the mice transplanted with NFATc1/ΔS+ CD3+ T cells developed less severe disease, and T cells proliferated less due to increased Tregs. Moreover, when transferring 2D2.NFATc1/ΔS+ Th1 plus Th17 cells to Rag1-/- mice to induce experimental autoimmune encephalitis, we also observed ameliorated disease compared to animals with transferred WT T cells as well as increased Tregs. Taking all data together, the deficiency in SUMOylation of NFATc1 leads to an elevated IL-2 secretion in T cells and subsequent activation of STAT5, which competes with STAT3 to inhibit IL-17A production and promotes Treg expansion, as well as to an enforcement of Blimp-1 expression, which suppresses IFN-γ and IL-2 expression. Consequently and despite a short phase of enhanced IL-2 secretion, the deficiency of SUMOylation on NFATc1 can protect from autoreactive and alloreactive diseases. Moreover, to further understand the function of SUMOylation of NFATc1 in humans, we started by establishing an in vitro 3D culture system for tonsil organoids, which was successful in the presence of feeder cells, along with IL-4 and IL-7 cytokines. To confirm that our 3D tonsil organoids can respond to real antigens, we used CMV peptides and peptides of spike proteins from Covid-19 as real antigens, and co-cultured with tonsil organoids, which indeed can generate memory cells and plasmablasts. In the end, we also compared 3D to 2D cultures. Although the total numbers of all B cell subsets were much less in 3D culture than that in 2D culture, still, it indicates that this in-vitro culture system has its limitation, while being usable to produce the similar results as 2D did. Therefore, this 3D culture system can be used as a platform to investigate NFATc1/ΔS+ or NFATc1/ΔBC+ TFH and TFR cells in the dynamic of human GC responses.}, language = {en} } @phdthesis{Khayenko2023, author = {Khayenko, Vladimir}, title = {Functional peptide-based probes for the visualization of inhibitory synapses}, doi = {10.25972/OPUS-32043}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320438}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Short functional peptidic probes can maximize the potential of high-end microscopy techniques and multiplex imaging assays and provide new insights into normal and aberrant molecular, cellular and tissue function. Particularly, the visualization of inhibitory synapses requires protocol tailoring for different sample types and imaging techniques and relies either on genetic manipulation or on antibodies that underperform in tissue immunofluorescence. Starting from an endogenous activity-related ligand of gephyrin, a universal marker of the inhibitory post-synapse, I developed a short peptidic multivalent binder with exceptional affinity and selectivity to gephyrin. By tailoring fluorophores to the binder, I have obtained Sylite, a probe for the visualization of inhibitory synapses, with an outstanding signal-to-background ratio, that bests the "gold standard" gephyrin antibodies both in selectivity and in tissue immunofluorescence. In tissue Sylite benefits from simplified handling, provides robust synaptic labeling in record-short time and, unlike antibodies, is not affected by staining artefacts. In super-resolution microscopy Sylite precisely localizes the post-synapse and enables accurate pre- to post-synapse measurements. Combined with complimentary tracing techniques Sylite reveals inhibitory connectivity and profiles inhibitory inputs and synapse sizes of excitatory and inhibitory neurons in the periaqueductal gray brain region. Lastly, upon probe optimization for live cell application and with the help of novel thiol-reactive cell penetrating peptide I have visualized inhibitory synapses in living neurons. Taken together, my work provided a versatile probe for conventional and super-resolution microscopy and a workflow for the development and application of similar compact functional synthetic probes.}, subject = {Fluoreszenzsonde}, language = {en} } @phdthesis{Huber2023, author = {Huber, Hannes}, title = {Biochemical and functional characterization of DHX30, an RNA helicase linked to neurodevelopmental disorder}, doi = {10.25972/OPUS-28050}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-280505}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {RNA helicases are key players in the regulation of gene expression. They act by remodeling local RNA secondary structures as well as RNA-protein interactions to enable the dynamic association of RNA binding proteins to their targets. The putative RNA helicase DHX30 is a member of the family of DEAH-box helicases with a putative role in the ATP-dependent unwinding of RNA secondary structures. Mutations in the DHX30 gene causes the autosomal dominant neuronal disease "Neurodevelopmental Disorder with severe Motor Impairment and Absent Language" (NEDMIAL;OMIM\#617804). In this thesis, a strategy was established that enabled the large-scale purification of enzymatically active DHX30. Through enzymatic studies performed in vitro, DHX30 was shown to act as an ATP-dependent 3' → 5' RNA helicase that catalyzes the unwinding of RNA:RNA and RNA:DNA substrates. Using recombinant DHX30, it could be shown that disease-causing missense mutations in the conserved helicase core caused the disruption of its ATPase and helicase activity. The protein interactome of DHX30 however, was unchanged indicating that the pathogenic missense-mutations do not cause misfolding of DHX30, but rather specifically affect its catalytic activity. DHX30 localizes predominantly in the cytoplasm where it forms a complex with ribosomes and polysomes. Using a cross-linking mass spectrometry approach, a direct interaction of the N-terminal double strand RNA binding domain of DHX30 with sites next to the ribosome's mRNA entry channel and the subunit interface was uncovered. RNA sequencing of DHX30 knockout cells revealed a strong de-regulation of mRNAs involved in neurogenesis and nervous system development, which is in line with the NEDMIAL disease phenotype. The knockdown of DHX30 results in a decreased 80S peak in polysome gradients, indicating that DHX30 has an effect on the translation machinery. Sequencing of the pool of active translating mRNAs revealed that upon DHX30 knockout mainly 5'TOP mRNAs are downregulated. These mRNAs are coding for proteins of the translational machinery and translation initiation factors. This study identified DHX30 as a factor of the translation machinery that selectively impacts the expression of a subset of proteins and provides insight on the etiology of NEDMIAL.}, language = {en} } @phdthesis{Gensler2023, author = {Gensler, Marius E.}, title = {Simultaneous printing of tissue and customized bioreactor}, doi = {10.25972/OPUS-28019}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-280190}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Additive manufacturing processes such as 3D printing are booming in the industry due to their high degree of freedom in terms of geometric shapes and available materials. Focusing on patient-specific medicine, 3D printing has also proven useful in the Life Sciences, where it exploits the shape fidelity for individualized tissues in the field of bioprinting. In parallel, the current systems of bioreactor technology have adapted to the new manufacturing technology as well and 3D-printed bioreactors are increasingly being developed. For the first time, this work combines the manufacturing of the tissue and a tailored bioreactor, significantly streamlining the overall process and optimally merging the two processes. This way the production of the tissues can be individualized by customizing the reactor to the tissue and the patient-specific wound geometry. For this reason, a common basis and guideline for the cross-device and cross-material use of 3D printers was created initially. Their applicability was demonstrated by the iterative development of a perfusable bioreactor system, made from polydimethylsiloxane (PDMS) and a lignin-based filament, into which a biological tissue of flexible shape can be bioprinted. Cost-effective bioink-replacements and in silico computational fluid dynamics simulations were used for material sustainability and shape development. Also, nutrient distribution and shear stress could be predicted in this way pre-experimentally. As a proof of functionality and adaptability of the reactor, tissues made from a nanocellulose-based Cellink® Bioink, as well as an alginate-based ink mixed with Me-PMeOx100-b-PnPrOzi100-EIP (POx) (Alginate-POx bioink) were successfully cultured dynamically in the bioreactor together with C2C12 cell line. Tissue maturation was further demonstrated using hMSC which were successfully induced to adipocyte differentiation. For further standardization, a mobile electrical device for automated media exchange was developed, improving handling in the laboratory and thus reduces the probability of contamination.}, subject = {3 D bioprinting}, language = {en} } @phdthesis{WalterverhRaab2023, author = {Walter [verh. Raab], Bettina Nicoletta}, title = {Systolische und diastolische myokardiale Deformation: Referenzwerte und Einfluss kardiovaskul{\"a}rer Risikofaktoren - Ergebnisse der populationsbasierten STAAB Kohortenstudie}, doi = {10.25972/OPUS-32157}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-321575}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Kontraktion und Relaxation sind die beiden entscheidenden energieverbrauchenden Prozesse der Herzarbeit, die sich unter anderem mit modernen echokardiographischen Techniken, wie dem Strain Imaging, quantifizieren lassen. An 1818 Probanden (52\% weibliche Probanden, mittleres Alter 54 ±12 Jahre) der populationsbasierten W{\"u}rzburger STAAB Kohortenstudie leiteten wir unter Ber{\"u}cksichtigung von Alter und Geschlecht der Probanden Referenzwerte f{\"u}r globale und segmentale systolische und diastolische Deformationsparameter mittels 2D Speckle Echo-Tracking ab. Wir fanden, dass sich die myokardiale Suszeptibilit{\"a}t f{\"u}r klassische kardiovaskul{\"a}re Risikofaktoren bei M{\"a}nnern und Frauen unterscheidet. Insgesamt war die Auswertbarkeit gut (67\% des globalen Strain, 82\% der systolischen und fr{\"u}hdiastolischen Strain Rate und 83\% der diastolischen Strain Rate). Arterieller Hypertonus und Dyslipid{\"a}mie wirkten sich insbesondere auf das weibliche Myokard ung{\"u}nstig aus, wohingegen der Risikofaktor Adipositas bei beiden Geschlechtern negativ mit systolischer und fr{\"u}hdiastolischer Deformation assoziiert war. Weder Diabetes mellitus noch Rauchen schienen die myokardiale Deformation zu beeinflussen. Die fr{\"u}hdiastolische Relaxation wurde durch Hypertonus negativ bei Frauen beeinflusst, obwohl die Pr{\"a}valenz in der m{\"a}nnlichen Gruppe h{\"o}her war. Die systolische Strain Rate war zudem signifikant von arteriellem Hypertonus, Dyslipid{\"a}mie und Adipositas bei Frauen beeinflusst. Diese Ergebnisse implizieren eine geschlechtsabh{\"a}ngige Sensitivit{\"a}t des Myokards auf individuelle Risikofaktoren. Die Vulnerabilit{\"a}t des weiblichen Myokards auf hypertone Blutdruckwerte mit konsekutiver Alteration der aktiven fr{\"u}hdiastolischen Relaxation stellt somit eine m{\"o}gliche Erkl{\"a}rung f{\"u}r den gr{\"o}ßeren Anteil an Frauen mit HFpEF (heart failure with preserved ejection fraction) in der Allgemeinbev{\"o}lkerung dar. Ein negativer Einfluss durch Nikotinkonsum war in unserem Ansatz hingegen nicht nachweisbar, in dem nicht das Ausmaß des Nikotinkonsums, sondern nur die Assoziation der bin{\"a}ren Variable „Raucherstatus" mit Strain-Parameternuntersucht wurde. Dahingehend ist eine dosisabh{\"a}ngige myokardiale Sch{\"a}digung nicht auszuschließen. In der vorliegenden Studie wurde erstmalig der individuelle Effekt jedes Hauptrisikofaktors auf systolische und diastolische Strain-Parameter in einer populationsbasierten und nach Geschlecht und Alter stratifizierten Kohorte untersucht. Auf Basis der Studienergebnisse ist jetzt eine objektive Absch{\"a}tzung von Effektgr{\"o}ßen und der Power f{\"u}r k{\"u}nftige Studienplanung m{\"o}glich und es lassen sich Studien zur Einordnung der myokardialen Deformation in bestimmten Patientengruppen objektivierbar vergleichen. Unsere Ergebnisse unterstreichen zudem die Notwendigkeit von Studien bez{\"u}glich Prim{\"a}rpr{\"a}vention asymptomatischer kardiovaskul{\"a}rer Risikopatienten mittels nichtinvasiver Methoden. Eine wichtige Rolle kommt dabei auch der Standardisierung von Softwaresystemen zu, die die Anwendung im klinischen Alltag und die globale Anwendung von Referenzwerten bzw. deren pathologischer Abweichung vereinfachen wird.}, subject = {Transthorakale Echokardiographie}, language = {de} } @phdthesis{GotthardtgebSchubert2023, author = {Gotthardt [geb. Schubert], Sonja}, title = {Einfluss von Oncostatin M auf die Pathogenese der Nicht-alkoholischen Fettlebererkrankung}, doi = {10.25972/OPUS-28131}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-281312}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die Nicht-alkoholische Fettlebererkrankung (NAFLD) ist eine der h{\"a}ufigsten chronischen Lebererkrankungen der westlichen Welt. Die Pathogenese der Erkrankung ist noch nicht vollst{\"a}ndig erforscht und wirksame medikament{\"o}se Therapien sind bisher nicht zugelassen. Wachsende Evidenz zeigt, dass das Interleukin-6-Typ-Zytokin Oncostatin M (OSM) eine wichtige Rolle in der Pathogenese der NAFLD spielt. Die japanische Arbeitsgruppe um Komori et al. zeigte an OSM-Rezeptor-β-defizienten (Osmr-KO-) M{\"a}usen sowie durch OSM-Behandlung von genetisch und ern{\"a}hrungsbedingt adip{\"o}sen M{\"a}usen, dass OSM vor einer hepatischen Steatose und metabolischer Komorbidit{\"a}t sch{\"u}tzen kann. Andere Publikationen suggerieren, dass OSM an NAFLD-Entwicklung und -Progression beteiligt ist, indem es die Expression von Genen der β-Oxidation und Very-Low-Density-Lipoprotein (VLDL-) Sekretion reprimiert und die Expression profibrogenetischer Gene f{\"o}rdert. Low-Density-Lipoprotein-Rezeptor-defiziente- (Ldlr-KO-) M{\"a}use sind seit Langem als Atherosklerose-Modell etabliert und wurden zuletzt auch als physiologisches Modell f{\"u}r NAFLD identifiziert. Um die Rolle von OSM in der NAFLD-Pathogenese zu beleuchten, wurden Osmr-KO-M{\"a}use auf Wildtyp- (WT-) und Ldlr-KO-Hintergrund untersucht, die {\"u}ber 12 Wochen eine fett- und cholesterinreiche Western Diet erhielten und anschließend f{\"u}r die Organentnahme geopfert wurden. Im Vorfeld dieser Arbeit wurden K{\"o}rpergewicht, Blutglukose, Serum-Cholesterin und Lebergewicht der Tiere gemessen. Hierbei zeigte sich ein erh{\"o}htes K{\"o}rpergewicht, unver{\"a}nderte Blutglukose, erh{\"o}htes Serum-Cholesterin sowie ein erh{\"o}htes Lebergewicht in Osmr-KO- gegen{\"u}ber WT-M{\"a}usen. Andersherum waren K{\"o}rpergewicht, Blutglukose, Serum-Cholesterin und Lebergewicht in Ldlr-Osmr-KO- gegen{\"u}ber Ldlr-KO-M{\"a}usen vermindert. Im Rahmen der vorliegenden Arbeit erfolgte die histologische Untersuchung des Lebergewebes, die Messung von Serum-Triglyzeriden und Fetts{\"a}uren sowie die Untersuchung der hepatischen Genexpression. An kultivierten Zellen der humanen Hepatom-Zelllinie HepG2 wurde eine m{\"o}gliche Regulation der CYP7A1-Genexpression durch OSM untersucht. CYP7A1 ist als Schrittmacherenzym der Gallens{\"a}uresynthese an der hepatischen Cholesterin-Clearance beteiligt. Osmr-KO-M{\"a}use zeigten gegen{\"u}ber WT-M{\"a}usen histologisch eine verst{\"a}rkte hepatische Steatose. Bei der Untersuchung der mRNA-Expression von Genen mit Beteiligung an der hepatischen Lipidhom{\"o}ostase zeigte sich eine Minderexpression von Ldlr in Osmr-KO-M{\"a}usen. Weiterhin zeigte sich eine etwas geringere Expression von Cyp7a1 in Osmr-KO-M{\"a}usen. Die Expression aller anderen untersuchten Gene, die an Fetts{\"a}uresynthese, Cholesterintransport und -metabolismus beteiligt sind, lieferten keine Erkl{\"a}rung f{\"u}r eine erh{\"o}hte hepatische Lipidakkumulation in Osmr-KO-M{\"a}usen. Ldlr-Osmr-KO-M{\"a}use hatten gegen{\"u}ber Ldlr-KO-M{\"a}usen eine geringer ausgepr{\"a}gte hepatische Steatose. Die mRNA-Expression von Genen der Fetts{\"a}uresynthese, der Cholesterinbiosynthese und des Cholesterintransports waren in Ldlr-Osmr-KO- gegen{\"u}ber Ldlr-KO-M{\"a}usen nicht wesentlich ver{\"a}ndert. Allerdings fiel eine deutliche Hochregulation von Cyp7a1 in Ldlr-Osmr-KO-M{\"a}usen auf. Dar{\"u}ber hinaus war Osm in Ldlr-KO-M{\"a}usen gegen{\"u}ber WT-M{\"a}usen st{\"a}rker exprimiert. Um eine Regulation von CYP7A1 durch OSM nachzuweisen, wurde die Genexpression in HepG2-Zellen nach Stimulation mit OSM untersucht. Hierbei zeigte sich, dass OSM die mRNA-Expression von CYP7A1 supprimierte. Dieser Effekt war durch die Zugabe von Inhibitoren der Januskinasen (JAK), Mitogen Activated Protein Kinase/ERK-Kinase (MEK) und Extracellular-signal Regulated Kinase ½ (ERK1/2) reversibel. Die CYP7A1-Suppression durch OSM ging mit einer verminderten Expression des Transkriptionsfaktor-Gens HNF4A einher. Osmr-KO-M{\"a}use zeigten gegen{\"u}ber WT-M{\"a}usen nach 12 Wochen Western Diet verst{\"a}rkte Adipositas, Dyslipid{\"a}mie sowie eine hepatische Steatose. Die Analyse der hepatischen mRNA-Expression legt nahe, dass die Minderexpression von Ldlr in Osmr-KO-M{\"a}usen im Vergleich zu WT-M{\"a}usen zur Verst{\"a}rkung der Dyslipid{\"a}mie und hepatischen Steatose beigetragen hat. Weiterhin kann die geringere Expression von Cyp7a1 in Osmr-KO-M{\"a}usen durch daraus resultierende Akkumulation von Cholesterin zur erh{\"o}hten hepatischen Lipidakkumulation in diesen M{\"a}usen beigetragen haben. Ldlr-KO-M{\"a}use zeigten nach 12 Wochen Western Diet ebenfalls eine hepatische Steatose. Diese war in Ldlr-Osmr-KO-M{\"a}usen gegen{\"u}ber Ldlr-KO-M{\"a}usen geringer ausgepr{\"a}gt. Die erh{\"o}hte Expression von Cyp7a1 in Ldlr-Osmr-KO-M{\"a}usen kann die Verbesserung von hepatischer Lipidakkumulation und Dyslipid{\"a}mie durch erh{\"o}hte Cholesterinmetabolisierung zu Gallens{\"a}uren erkl{\"a}ren. {\"U}bereinstimmend mit der Cyp7a1-Regulation in LDLR-defizienten M{\"a}usen zeigte sich in vitro, dass OSM die Expression von CYP7A1 in HepG2-Zellen vermindert und sich so negativ auf die hepatische Lipidhom{\"o}ostase auswirken kann. Insgesamt implizieren diese Ergebnisse eine divergierende Rolle von OSM bei der Entwicklung einer hepatischen Steatose abh{\"a}ngig vom genetischen Hintergrund. OSM scheint bei WT-M{\"a}usen f{\"u}r die Erhaltung der metabolischen Gesundheit wichtig zu sein. Bei Ldlr-KO-M{\"a}usen hingegen scheint OSM die Entwicklung von Adipositas, Dyslipid{\"a}mie und hepatischer Steatose zu f{\"o}rdern. Die differenzielle Rolle in WT- und Ldlr-KO-M{\"a}usen k{\"o}nnte durch unterschiedliche Osm-Expressionsspiegel zustande kommen: W{\"a}hrend basale OSMRβ-Signaltransduktion durch geringe OSM-Spiegel in WT-M{\"a}usen f{\"u}r die Lipidhom{\"o}ostase essenziell zu sein scheint, k{\"o}nnte erh{\"o}hte oder prolongierte OSMRβ-Signaltransduktion durch h{\"o}here OSM-Spiegel in Ldlr-KO-M{\"a}usen das Fortschreiten der hepatischen Steatose f{\"o}rdern. Dies stellt OSM als m{\"o}gliches NAFLD-Therapeutikum in Frage. Um die Hypothese zu {\"u}berpr{\"u}fen, dass OSM abh{\"a}ngig von der H{\"o}he und Kinetik der Spiegel g{\"u}nstige oder ung{\"u}nstige Effekte auf die NAFLD-Entwicklung hat, sollte in zuk{\"u}nftigen Experimenten der Einfluss kurz- und langfristiger Behandlung von WT-M{\"a}usen mit OSM unterschiedlicher Konzentrationen auf die Entwicklung einer hepatischen Steatose untersucht werden.}, subject = {Fettleber}, language = {de} } @phdthesis{Mittermeier2023, author = {Mittermeier, Anna Barbara}, title = {Furchtgeneralisierung bei Kindern und Jugendlichen mit internalisierenden St{\"o}rungen}, doi = {10.25972/OPUS-28265}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-282658}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {In vorgegangenen Studien wurde bei erwachsenen Patienten mit Angstst{\"o}rungen eine verst{\"a}rkte Furchtgeneralisierung, eine eingeschr{\"a}nkte F{\"a}higkeit zur Reizdiskrimination sowie eine ver{\"a}nderte Aufmerksamkeitsverteilung nachgewiesen. In einer gesunden Studienpopulation konnte bei Kindern eine st{\"a}rkere Furchtgeneralisierung nachgewiesen werden als bei Erwachsenen. Ihre Generalisierungsgradienten gleichen denen von Erwachsenen mit Angstst{\"o}rung. M{\"o}glicherweise haben gest{\"o}rte Lernprozesse in der Kindheit somit langfristige Effekte auf die Entwicklung von Angstst{\"o}rungen. Obwohl die Vorg{\"a}nge des Furchtlernens im Kindesalter entscheidend f{\"u}r das Verst{\"a}ndnis von Angstst{\"o}rungen sind, gibt es kaum Studien in dieser Altersgruppe. Die vorliegende Studie untersucht die Zusammenh{\"a}nge von Furchtgeneralisierung und Aufmerksamkeitsprozessen in einer klinischen Population mit internalisierender St{\"o}rung im Kindes- und Jugendalter. Hierzu durchliefen Kinder und Jugendliche mit internalisierender St{\"o}rung (n= 49) sowie gesunde Kontrollen (n=48) im Alter von 9 bis 17 Jahre ein Furcht-generalisierungsparadigma mit Diskriminationstraining sowie einen modifizierten Dotprobe mit integriertem Eyetracking. Die {\"A}ngstlichkeit wurde mittels verschiedener Angstfrageb{\"o}gen gemessen. Im Generalisierungsparadigma wurden zwei weibliche Gesichter mit neutralem Gesichtsausdruck als Stimuli verwendet, die entweder mit (CS+) oder ohne (CS-) einem 95dB lauten Schrei sowie einem angsterf{\"u}llten Gesichtsausdruck gezeigt wurden. Zur Messung der Furchtreaktion wurden subjektive Ratings f{\"u}r Arousal, Valenz und Kontingenz erfasst, zudem wurde die Hautleitf{\"a}higkeit gemessen. Zur Auswertung des Dotprobes wurden die Reaktionszeiten und die Initialsakkade erfasst. Die statistische Analyse des Furchtgeneralisierungsparadigmas sowie des Dotprobe-Paradigmas wurde mittels Multivarianzanalysen mit Messwiederholung durchgef{\"u}hrt, gefolgt von t-Tests zur weiterf{\"u}hrenden Analyse. Desweiteren wurden die Aufmerksamkeitsreaktionen von nicht-{\"a}ngstlichen und {\"a}ngstlichen Teilnehmern in Kategorien eingeteilt und mittels Chi-Quadrat Analysen verglichen. Zur Analyse des Zusammenhangs zwischen Furchtgeneralisierung und Aufmerksamkeitsprozessen erfolgte eine Regressionsanalyse mit einem GS Mittelwert als abh{\"a}ngiger Variable und der {\"A}ngstlichkeit und den Aufmerk-samkeitsprozessen als Pr{\"a}diktoren. Die Ergebnisse best{\"a}tigten eine solide Furchtkonditionierung anhand des „Screaming Lady"-Paradigmas in einer klinischen Population, dies war erkennbar an h{\"o}heren Ratings f{\"u}r den aversiven Stimulus im Vergleich zum sicheren Stimulus in beiden Gruppen. Grunds{\"a}tzlich h{\"o}here Furchtratings sowie h{\"o}here Ratings der Generalisierungsstimuli im Vergleich zum sicheren Stimulus wiesen auf eine st{\"a}rkere Generalisierung in der Untergruppe mit h{\"o}herem Angst-Trait innerhalb der internalisierenden Probandengruppe hin. Die Analyse der Dotprobe Daten ergab schnellere Reaktionszeiten sowie h{\"a}ufigere Initialsakkaden gegen{\"u}ber furchteinfl{\"o}ßenden Stimuli bei Patienten mit internalisierender St{\"o}rung. Des Weiteren zeigten sehr {\"a}ngstliche Probanden h{\"a}ufiger einen Attentional bias im Chi Quadrat Test als nicht-{\"a}ngstliche Probanden. Dies wies daraufhin, dass sowohl bei Patienten mit internalisierender St{\"o}rung als auch bei sehr {\"a}ngstlichen Probanden ein Attentional bias gegen{\"u}ber furchtrelevanten Stimuli vorliegt. Vor allem bei Kindern mit internalisierender St{\"o}rung sagten die {\"A}ngstlichkeit und ver{\"a}nderte Aufmerksamkeitsprozesse die Auspr{\"a}gung der Furchtgeneralisierung voraus. Somit kann ein Zusammenhang von ver{\"a}nderten Aufmerksamkeitsprozessen und Furchtgeneralisierung vermutet werden.}, subject = {Kinderpsychiatrie}, language = {de} } @phdthesis{DeğirmencineePoelloth2023, author = {Değirmenci [n{\´e}e P{\"o}lloth], Laura}, title = {Sugar perception and sugar receptor function in the honeybee (\(Apis\) \(mellifera\))}, doi = {10.25972/OPUS-32187}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-321873}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {In the eusocial insect honeybee (Apis mellifera), many sterile worker bees live together with a reproductive queen in a colony. All tasks of the colony are performed by the workers, undergoing age-dependent division of labor. Beginning as hive bees, they take on tasks inside the hive such as cleaning or the producing of larval food, later developing into foragers. With that, the perception of sweetness plays a crucial role for all honeybees whether they are sitting on the honey stores in the hive or foraging for food. Their ability to sense sweetness is undoubtedly necessary to develop and evaluate food sources. Many of the behavioral decisions in honeybees are based on sugar perception, either on an individual level for ingestion, or for social behavior such as the impulse to collect or process nectar. In this context, honeybees show a complex spectrum of abilities to perceive sweetness on many levels. They are able to perceive at least seven types of sugars and decide to collect them for the colony. Further, they seem to distinguish between these sugars or at least show clear preferences when collecting them. Additionally, the perception of sugar is not rigid in honeybees. For instance, their responsiveness towards sugar changes during the transition from in-hive bees (e.g. nurses) to foraging and is linked to the division of labor. Other direct or immediate factors changing responsiveness to sugars are stress, starvation or underlying factors, such as genotype. Interestingly, the complexity in their sugar perception is in stark contrast to the fact that honeybees seem to have only three predicted sugar receptors. In this work, we were able to characterize the three known sugar receptors (AmGr1, AmGr2 and AmGr3) of the honeybee fully and comprehensively in oocytes (Manuscript II, Chapter 3 and Manuscript III, Chapter 4). We could show that AmGr1 is a broad sugar receptor reacting to sucrose, glucose, maltose, melezitose and trehalose (which is the honeybees' main blood sugar), but not fructose. AmGr2 acts as its co-receptor altering AmGr1's specificity, AmGr3 is a specific fructose receptor and we proved the heterodimerization of all receptors. With my studies, I was able to reproduce and compare the ligand specificity of the sugar receptors in vivo by generating receptor mutants with CRISPR/Cas9. With this thesis, I was able to define AmGr1 and AmGr3 as the honeybees' basis receptors already capable to detect all sugars of its known taste spectrum. In the expression analysis of my doctoral thesis (Manuscript I, Chapter 2) I demonstrated that both basis receptors are expressed in the antennae and the brain of nurse bees and foragers. This thesis assumes that AmGr3 (like the Drosophila homologue) functions as a sensor for fructose, which might be the satiety signal, while AmGr1 can sense trehalose as the main blood sugar in the brain. Both receptors show a reduced expression in the brain of foragers when compared with nurse bees. These results may reflect the higher concentrated diet of nurse bees in the hive. The higher number of receptors in the brain may allow nurse bees to perceive hunger earlier and to consume the food their sitting on. Forager bees have to be more persistent to hunger, when they are foraging, and food is not so accessible. The findings of reduced expression of the fructose receptor AmGr3 in the antennae of nurse bees are congruent with my other result that nurse bees are also less responsive to fructose at the antennae when compared to foragers (Manuscript I, Chapter 2). This is possible, since nurse bees sit more likely on ripe honey which contains not only higher levels of sugars but also monosaccharides (such as fructose), while foragers have to evaluate less-concentrated nectar. My investigations of the expression of AmGr1 in the antennae of honeybees found no differences between nurse bees and foragers, although foragers are more responsive to the respective sugar sucrose (Manuscript I, Chapter 2). Considering my finding that AmGr2 is the co-receptor of AmGr1, it can be assumed that AmGr1 and the mediated sucrose taste might not be directly controlled by its expression, but indirectly by its co-receptor. My thesis therefore clearly shows that sugar perception is associated with division of labor in honeybees and appears to be directly or indirectly regulated via expression. The comparison with a characterization study using other bee breeds and thus an alternative protein sequence of AmGr1 shows that co-expression of different AmGr1 versions with AmGr2 alters the sugar response differently. Therefore, this thesis provides first important indications that alternative splicing could also represent an important regulatory mechanism for sugar perception in honeybees. Further, I found out that the bitter compound quinine lowers the reward quality in learning experiments for honeybees (Manuscript IV, Chapter 5). So far, no bitter receptor has been found in the genome of honeybees and this thesis strongly assumes that bitter substances such as quinine inhibit sugar receptors in honeybees. With this finding, my work includes other molecules as possible regulatory mechanism in the honeybee sugar perception as well. We showed that the inhibitory effect is lower for fructose compared to sucrose. Considering that sugar signals might be processed as differently attractive in honeybees, this thesis concludes that the sugar receptor inhibition via quinine in honeybees might depend on the receptor (or its co-receptor), is concentration-dependent and based on the salience or attractiveness and concentration of the sugar present. With my thesis, I was able to expand the knowledge on honeybee's sugar perception and formulate a complex, comprehensive overview. Thereby, I demonstrated the multidimensional mechanism that regulates the sugar receptors and thus the sugar perception of honeybees. With this work, I defined AmGr1 and AmGr3 as the basis of sugar perception and enlarged these components to the co-receptor AmGr2 and the possible splice variants of AmGr1. I further demonstrated how those sugar receptor components function, interact and that they are clearly involved in the division of labor in honeybees. In summary, my thesis describes the mechanisms that enable honeybees to perceive sugar in a complex way, even though they inhere a limited number of sugar receptors. My data strongly suggest that honeybees overall might not only differentiate sugars and their diet by their general sweetness (as expected with only one main sugar receptor). The found sugar receptor mechanisms and their interplay further suggest that honeybees might be able to discriminate directly between monosaccharides and disaccharides or sugar molecules and with that their diet (honey and nectar).}, subject = {Biene}, language = {en} } @phdthesis{Kaes2023, author = {K{\"a}s, Johannes}, title = {Pr{\"a}valenz von chronischer Niereninsuffizienz und Awareness von chronischer Niereninsuffizienz bei Patienten mit koronarer Herzerkrankung - zeitliche Trends in W{\"u}rzburg}, doi = {10.25972/OPUS-32340}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-323407}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die chronische Niereninsuffizienz (CKD) gilt als wichtiger prognostischer Faktor bei Patienten mit koronarer Herzerkrankung (KHK). Das Bewusstsein (Awareness) f{\"u}r das Vorliegen einer CKD bei {\"A}rzten wie bei Patienten kann bei der Therapie von KHK-Patienten eine entscheidende Rolle spielen. Ziel dieser Arbeit war die Beschreibung der zeitlichen Trends der CKD-Pr{\"a}valenz sowie der Awareness bei KHK-Patienten und {\"A}rzten im Rahmen der EUROASPIRE (EA) V Studie im Studienzentrum W{\"u}rzburg. EA V ist eine multizentrische Querschnittsstudie der European Society of Cardiology (ESC) zur Untersuchung der Qualit{\"a}t der Sekund{\"a}rpr{\"a}vention bei KHK-Patienten, die 6-24 Monate vor dem Studienbesuch station{\"a}r behandelt wurden. Nierenfunktion und Nierenerkrankung wurden mit der glomerul{\"a}ren Filtrationsrate (eGFR) und der Urin Albumin-Kreatinin-Ratio abgesch{\"a}tzt und klassifiziert. Die CKD Awareness der Patienten wurde anhand standardisierter Fragen erhoben. Die CKD Awareness der {\"A}rzte wurde {\"u}ber die ICD-10 Codierung in der Patientenakte sowie die Dokumentation im Entlassungsbrief erfasst. Die Ergebnisse wurden mit der W{\"u}rzburger EUROASPIRE IV (2012/13) Substudie verglichen. In EA V wurden 219 KHK-Patienten (Median 70 Jahre, 81\% M{\"a}nner) in W{\"u}rzburg eingeschlossen. Bei Studienbesuch betrug die Pr{\"a}valenz der CKD 32\%, davon waren sich 30\% der Patienten der CKD bewusst. Bei 26\% der 73 Patienten mit w{\"a}hrend des Index-Krankenhausaufenthaltes apparenter Nierenfunktionseinschr{\"a}nkung wurde diese auch im Entlassungsbrief dokumentiert und bei 80\% korrekt in der Patientenakte codiert. Im Vergleich zu EA IV zeigte sich die eingeschr{\"a}nkte Nierenfunktion w{\"a}hrend des Krankenhausaufenthaltes (p=0,013) und w{\"a}hrend des Studienbesuchs (p=0,056) h{\"a}ufiger. Bez{\"u}glich der CKD Awareness bei {\"A}rzten und Patienten gab es keine signifikanten Unterschiede bezogen auf die gesamten Kohorten. Im Fr{\"u}hstadium G3a zeigte sich eine statistisch signifikant geringere CKD Awareness der Patienten in EA V verglichen mit EA IV. Die CKD ist eine h{\"a}ufige Komorbidit{\"a}t bei KHK-Patienten. Die CKD Awareness ist bei Patienten, aber auch {\"A}rzten niedrig. Aus dieser Konstellation ergeben sich Handlungsauftr{\"a}ge f{\"u}r eine gezielte Aufkl{\"a}rung von Patienten und nachhaltig wirksame Fortbildung der behandelnden {\"A}rzte.}, subject = {Chronische Niereninsuffizienz}, language = {de} } @article{VargasWagnerShaikhetal.2022, author = {Vargas, Juan Gamboa and Wagner, Jennifer and Shaikh, Haroon and Lang, Isabell and Medler, Juliane and Anany, Mohamed and Steinfatt, Tim and Mosca, Josefina Pe{\~n}a and Haack, Stephanie and Dahlhoff, Julia and B{\"u}ttner-Herold, Maike and Graf, Carolin and Viera, Estibaliz Arellano and Einsele, Hermann and Wajant, Harald and Beilhack, Andreas}, title = {A TNFR2-Specific TNF fusion protein with improved in vivo activity}, series = {Frontiers in Immunology}, volume = {13}, journal = {Frontiers in Immunology}, issn = {1664-3224}, doi = {10.3389/fimmu.2022.888274}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-277436}, year = {2022}, abstract = {Tumor necrosis factor (TNF) receptor-2 (TNFR2) has attracted considerable interest as a target for immunotherapy. Indeed, using oligomeric fusion proteins of single chain-encoded TNFR2-specific TNF mutants (scTNF80), expansion of regulatory T cells and therapeutic activity could be demonstrated in various autoinflammatory diseases, including graft-versus-host disease (GvHD), experimental autoimmune encephalomyelitis (EAE) and collagen-induced arthritis (CIA). With the aim to improve the in vivo availability of TNFR2-specific TNF fusion proteins, we used here the neonatal Fc receptor (FcRn)-interacting IgG1 molecule as an oligomerizing building block and generated a new TNFR2 agonist with improved serum retention and superior in vivo activity. Methods Single-chain encoded murine TNF80 trimers (sc(mu)TNF80) were fused to the C-terminus of an in mice irrelevant IgG1 molecule carrying the N297A mutation which avoids/minimizes interaction with Fcγ-receptors (FcγRs). The fusion protein obtained (irrIgG1(N297A)-sc(mu)TNF80), termed NewSTAR2 (New selective TNF-based agonist of TNF receptor 2), was analyzed with respect to activity, productivity, serum retention and in vitro and in vivo activity. STAR2 (TNC-sc(mu)TNF80 or selective TNF-based agonist of TNF receptor 2), a well-established highly active nonameric TNFR2-specific variant, served as benchmark. NewSTAR2 was assessed in various in vitro and in vivo systems. Results STAR2 (TNC-sc(mu)TNF80) and NewSTAR2 (irrIgG1(N297A)-sc(mu)TNF80) revealed comparable in vitro activity. The novel domain architecture of NewSTAR2 significantly improved serum retention compared to STAR2, which correlated with efficient binding to FcRn. A single injection of NewSTAR2 enhanced regulatory T cell (Treg) suppressive activity and increased Treg numbers by > 300\% in vivo 5 days after treatment. Treg numbers remained as high as 200\% for about 10 days. Furthermore, a single in vivo treatment with NewSTAR2 upregulated the adenosine-regulating ectoenzyme CD39 and other activation markers on Tregs. TNFR2-stimulated Tregs proved to be more suppressive than unstimulated Tregs, reducing conventional T cell (Tcon) proliferation and expression of activation markers in vitro. Finally, singular preemptive NewSTAR2 administration five days before allogeneic hematopoietic cell transplantation (allo-HCT) protected mice from acute GvHD. Conclusions NewSTAR2 represents a next generation ligand-based TNFR2 agonist, which is efficiently produced, exhibits improved pharmacokinetic properties and high serum retention with superior in vivo activity exerting powerful protective effects against acute GvHD.}, language = {en} } @article{DeaneBrunkCurranetal.2020, author = {Deane, Katrina E. and Brunk, Michael G. K. and Curran, Andrew W. and Zempeltzi, Marina M. and Ma, Jing and Lin, Xiao and Abela, Francesca and Aksit, S{\"u}meyra and Deliano, Matthias and Ohl, Frank W. and Happel, Max F. K.}, title = {Ketamine anaesthesia induces gain enhancement via recurrent excitation in granular input layers of the auditory cortex}, series = {The Journal of Physiology}, volume = {598}, journal = {The Journal of Physiology}, number = {13}, doi = {10.1113/JP279705}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216123}, pages = {2741 -- 2755}, year = {2020}, abstract = {Ketamine is commonly used as an anaesthetic agent and has more recently gained attention as an antidepressant. It has been linked to increased stimulus-locked excitability, inhibition of interneurons and modulation of intrinsic neuronal oscillations. However, the functional network mechanisms are still elusive. A better understanding of these anaesthetic network effects may improve upon previous interpretations of seminal studies conducted under anaesthesia and have widespread relevance for neuroscience with awake and anaesthetized subjects as well as in medicine. Here, we investigated the effects of anaesthetic doses of ketamine (15 mg kg\(^{-1}\) h\(^{-1}\)i.p.) on the network activity after pure-tone stimulation within the auditory cortex of male Mongolian gerbils (Meriones unguiculatus). We used laminar current source density (CSD) analysis and subsequent layer-specific continuous wavelet analysis to investigate spatiotemporal response dynamics on cortical columnar processing in awake and ketamine-anaesthetized animals. We found thalamocortical input processing within granular layers III/IV to be significantly increased under ketamine. This layer-dependent gain enhancement under ketamine was not due to changes in cross-trial phase coherence but was rather attributed to a broadband increase in magnitude reflecting an increase in recurrent excitation. A time-frequency analysis was indicative of a prolonged period of stimulus-induced excitation possibly due to a reduced coupling of excitation and inhibition in granular input circuits - in line with the common hypothesis of cortical disinhibition via suppression of GABAergic interneurons.}, language = {en} } @phdthesis{Bender2009, author = {Bender, Markus}, title = {Studies on platelet cytoskeletal dynamics and receptor regulation in genetically modified mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-48390}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2009}, abstract = {Blutpl{\"a}ttchen werden von Megakaryozyten im Knochenmark in einem Prozess produziert, an dem Aktin beteiligt ist. Aktin-Depolymerisierungsfaktor (ADF) und Cofilin sind Aktin-bindende Proteine, die als entscheidende Regulatoren im Aktinumsatz agieren, indem sie das Schneiden und Depolymerisieren von Filamenten unterst{\"u}tzen. Die Bedeutung von ADF/Cofilin und des Aktinumsatzes in der Bildung von Blutpl{\"a}ttchen ist gegenw{\"a}rtig nicht bekannt. In der vorliegenden Arbeit wurden M{\"a}use untersucht, die eine konstitutive ADF-Defizienz und/oder die eine konditionale n-Cofilin Defizienz (Cre/loxP) aufweisen. Um Cofilin nur in Megakaryozyten und Blutpl{\"a}ttchen auszuschalten, wurden Cofilinfl/fl M{\"a}use mit PF4-Cre M{\"a}usen verpaart. ADF- oder n-Cofilin-defiziente M{\"a}use hatten keinen oder nur einen geringen Ph{\"a}notyp in Blutpl{\"a}ttchen. Eine Defizienz von ADF und n-Cofilin f{\"u}hrte hingegen zu einem beinahe kompletten Verlust der Blutpl{\"a}ttchen, was mit Defekten in der Bildung von Pl{\"a}ttchenzonen in Knochenmark-Megakaryozyten einherging. Weitere Untersuchungen an in vitro und ex vivo kultivierten Megakaryozyten zeigten eine Reduzierung der Bildung von Propl{\"a}ttchen und das Fehlen der typischen Verdickungen der Propl{\"a}ttchen. Diese Daten zeigen redundante aber essentielle Funktionen von ADF und n-Cofilin im terminalen Schritt der Pl{\"a}ttchenbildung in vitro und in vivo, und belegen erstmals eine wichtige Rolle des Aktinumsatzes in diesem Prozess. Im zweiten Teil dieser Dissertation wurden die Mechanismen untersucht, die f{\"u}r die zellul{\"a}re Regulierung des Hauptkollagenrezeptors auf Blutpl{\"a}ttchen, Glykoprotein VI (GPVI), verantwortlich sind. Nach einer Gef{\"a}ßwandverletzung wird subendotheliales Kollagen freigelegt, wodurch GPVI die Aktivierung von Blutpl{\"a}ttchen vermittelt, und damit zur Blutstillung (H{\"a}mostase), aber auch zum Verschluss eines verletzten Gef{\"a}ßes beitragen kann, was letztendlich zu einem Myokardinfarkt oder einem Schlaganfall f{\"u}hren kann. Deshalb ist GPVI ein attraktives Zielprotein f{\"u}r eine anti-thrombotische Therapie, insbesondere weil fr{\"u}here Studien gezeigt haben, dass anti-GPVI Antik{\"o}rper eine irreversible Herunterregulierung des Rezeptors auf zirkulierenden Blutpl{\"a}ttchen mittels Internalisierung und Abspaltung induzieren. Es wird vermutet, dass Metalloproteinasen der ADAM (a disintegrin and metalloproteinase domain) - Familie das Abspalten vermitteln, jedoch fehlt in vivo der Beweis daf{\"u}r. Um die Mechanismen des Abspaltungsprozesses des GPVI Rezeptors in vivo besser verstehen zu k{\"o}nnen, wurden zwei Mauslinien, GPVI- und konditionale ADAM10-defiziente M{\"a}use, generiert und zus{\"a}tzlich sogenannte „low TACE (TNFalpha converting enzyme)" M{\"a}use analysiert. Es konnte gezeigt werden, dass GPVI in vitro von ADAM10 oder TACE in Abh{\"a}ngigkeit der Signalwege, die zum Abspalten des Rezeptors f{\"u}hren, geschnitten werden kann. Dar{\"u}berhinaus wurde GPVI in vivo nach Antik{\"o}rperverabreichung in ADAM10-defizienten M{\"a}usen und „low TACE" M{\"a}usen herunterreguliert, was vermuten l{\"a}sst, dass entweder beide Metalloproteinasen an diesem Prozess beteiligt sind oder noch eine zus{\"a}tzliche Metalloproteinase f{\"u}r die GPVI Regulation in vivo verantwortlich ist.}, subject = {Zellskelett}, language = {en} } @phdthesis{JanakiRaman2023, author = {Janaki Raman, Sudha Rani}, title = {Analysis of the molecular mechanisms underlying the role of SREBP1 in Glioblastoma tumour development and progression}, doi = {10.25972/OPUS-28024}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-280245}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Glioblastoma (GB) is the most aggressive malignant adult brain tumour with a median survival rate of only 15 months. GB tumours are characterized by necrotic and hypoxic core, which leads to nutrient deficient areas contributing to invasive, diffuseinfiltrative and angiogenic nature of these tumours. Cells exposed to nutrient deficient conditions and are known to reprogram their metabolism to produce or procure macro molecules from their environment. This makes cancer cells uniquely dependent on transcriptional regulators and a window of opportunity to target them. Sterol regulatory element binding protein 1 (SREBP1) is a transcriptional regulator of de-novo fatty acid synthesis in cells. The aim of this thesis was to investigate if SREBP1 was involved in restructuring the transcriptional regulation of genes involved in fatty acid biosynthesis upon low serum condition, in mediating interaction with other cell types in the tumour bulk such as endothelial cells, in regulating cancer stem like cells and finally to study its upstream regulation in GB. Global transcriptional analysis on GB cells exposed to low serum conditions revealed that SREBP1 regulated several fatty acid biosynthesis and phospholipid metabolic processes. PLA2G3 was identified as a novel target of SREBP1 in GB that was uniquely regulated in low serum condition. Analysis of total fatty acid and lipid species revealed that loss of SREBP1 in low serum condition changes the proportion of saturated, MUFAs and PUFAs. These changes were not specific to loss of PLA2G3 but as a result of downregulation of many genes regulated by SREBP1 in the fatty acid biosynthetic pathway. Next, treatment of HUVEC's (endothelial cells) with condition medium from SREBP1-silenced U87 cells inhibited sprouting and tube formation capacity compared to the control condition, emphasizing the role of SREBP1 in angiogenesis and release of signalling mediators. Further, SREBP1 was shown to be important for proliferation of patient derived stem like cells and becomes indispensable for forming neurospheres in long term cultures, indicating its role in maintaining stemness. Also, inhibition of SREBP function by blocking the esterification of cholesterol using inhibitors targeting SOAT1 showed impairment in the viability of GB cells exposed to serum-depleted condition. Overall, SREBP1 plays an important role in maintaining tumour growth in nutrient deficient conditions and help in interaction with tumour microenvironment contributing to the aggressiveness of this tumour and poses itself as an attractive and unique target for GB treatment}, language = {en} } @phdthesis{Hofmann2023, author = {Hofmann, Julian}, title = {Synthesis of Sterubin, Flavonoid Hybrids, and Curcumin Bioisosteres and Characterization of their Neuroprotective Effects}, doi = {10.25972/OPUS-26664}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-266641}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Alzheimer´s disease (AD) is a neurodegenerative disease and the most common form of dementia with still no preventive or curative treatment. Besides several risk factors, age is one of the major risks for AD and with an aging society, there is an urgent need for disease modifying agents. The strategy to address only one target within the intertwined network of AD failed so far. Natural products especially the phytochemical flavonoids, which are poly-phenolic natural products, have shown great potential as disease modifying agents against neurodegenerative disorders like Alzheimer´s disease (AD) with activities even in vivo. Flavonoids are produced by many plants and the native Californian plant Eriodictyon californicum is particularly rich in flavonoids. One of the major flavonoids of E. californicum is sterubin, a very potent agent against oxidative stress and inflammation, two hallmarks and drivers of AD and neurodegeneration. Herein, racemic sterubin was synthesized and separated into its pure (R)- and (S)-enantiomer by chiral HPLC. The pure enantiomers showed comparable neuroprotection in vitro with no significant differences. The stereoisomers were configurationally stable in methanol, but fast racemization was observed in culture medium. Moreover, the activity of sterubin was investigated in vivo, in an AD mouse model. Sterubin showed a significant positive impact on short- and long-term memory at low dosages. A promising concept for the increase of activity of single flavonoids is hybridization with aromatic acids like cinnamic or ferulic acids. Hybridization of the natural products taxifolin and silibinin with cinnamic acid led to an overadditive effect of these compounds in phenotypic screening assays related to neurodegeneration and AD. Because there are more potent agents as taxifolin or silibinin, the hybrids were further developed, and different flavonoid cinnamic acid hybrids were synthesized. The connection between flavonoids and cinnamic acid was achieved by an amide instead of a labile ester to improve the stability towards hydrolysis to gain better "druggability" of the compounds. To investigate the oxidation state of the C-ring of the flavonoid part, the dehydro analogues of the respective hybrids were also synthesized. The compounds show neuroprotection against oxytosis, ferroptosis and ATP-depletion in the murine hippocampal cell line HT22. While no overall trend within the flavanones compared to the flavones could be assigned, the taxifolin and the quercetin derivative were the most active compounds in course of all assays. The quercetin derivate even shows greater activity than the taxifolin derivate in every assay. As desired no hydrolysis product was found in cellular uptake experiments after 4h, whereas different metabolites were found. The last part of this work focused on synthetic bioisoteres of the natural product curcumin. Due to the drawbacks of curcumin and flavonoids arising from poor pharmacokinetics, rapid metabolism and sometimes instability in aqueous medium, we have examined the biological activity of azobenzene compounds designed as bioisoteres of curcumin, carrying the pharmacophoric catechol group of flavonoids. These bioisosteres exceeded their parent compounds in counteracting intracellular oxidative stress, neuroinflammation and amyloid-beta aggregation. By incorporating an azobenzene moiety and the isosteric behaviour to the natural parent compounds, these compounds may act as molecular tools for further investigation towards the molecular mode of action of natural products.}, subject = {Organische Synthese}, language = {en} } @phdthesis{EttlingergebHaberstumpf2023, author = {Ettlinger [geb. Haberstumpf], Sophia}, title = {Pathological cognitive decline in the elderly participants of the Vogel Study}, doi = {10.25972/OPUS-26558}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-265582}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Due to the global aging society and the enormous global incidence and prevalence rates that will result in the coming years, Alzheimer's Dementia (AD) represents a growing challenge for the health care system. The pathogenesis, which is unclear in parts, the chronic progression of AD, which often lasts for years, as well as insufficient diagnostic and therapeutic options complicate an adequate psychotherapeutic and medical approach to the disease. To date, AD is also considered an incurable disease. Therefore, it is essential to gain deeper insights into the early detection or even prevention of AD. Consideration of prodromal syndromes such as Mild Cognitive Impairment (MCI) can provide significant evidence about high-risk groups for AD progression and differentiate cognitively "normal" aging individuals from those with pathological cognitive decline. Thus, for example, functional Near-Infrared Spectroscopy (fNIRS) imaging helps identify early neurodegenerative processes. In contrast, potential risk factors and predictors of later-onset clinical symptoms of MCI and AD can most often be revealed and quantified via the use of neuropsychiatric test batteries. The present thesis consists of four studies and aimed to assess and describe the pathological cognitive decline in a sample of elderly study participants (age: ≥ 70 years; N = 604 at baseline) of the longitudinal, observational, and prospective "Vogel Study" from W{\"u}rzburg, Germany, who were primarily healthy at baseline, over two measurement time points approximately 3 years apart, to differentiate between healthy and diseased study participants and to define predictors of MCI/AD and longitudinal study dropout. Studies 1 and 2 differentiated healthy study participants from MCI patients based on the baseline hemodynamic response of the parietal cortex recorded by fNIRS during the processing of a paradigm (here: Angle Discrimination Task [ADT]) for visual-spatial processing performance. Neuronal hypoactivity was found in the MCI patients, with both healthy study participants and MCI patients showing higher superior and right hemispheric activation. MCI patients had more difficulty resolving the paradigm. Thus, no evidence of possible compensatory mechanisms was uncovered in the MCI patients. Study 3 first defined the four latent factors declarative memory, working memory, attention, and visual-spatial processing based on structural equation model (SEM) calculations of the sample using adequate measurement (in-)variant confirmatory factor models from the baseline assessment to the first of a total of two follow-up assessments after approximately 3 years. This allowed a dimensional assessment of pathological cognitive decline versus classificatory-categorical assignment (healthy/diseased) of the sample. In addition, the superiority of the latent factor approach over a composite approach was demonstrated. Next, using a mixed-model approach, predictive analyses were calculated for the prediction of latent factors at first follow-up by baseline risk factors. The sex of study participants proved to be the best predictor of cognitive change in all the cognitive domains, with females performing better than men in the memory domains. Specifically, for declarative memory, older age predicted lower performance regardless of sex. Additional predictive evidence emerged for low serum levels of Brain-Derived Neurotrophic Factor (BDNF) on lower attention performance and higher depression symptoms on lower visual-spatial processing performance. Study 4 further reported baseline predictors of study dropout at first follow-up. Cognitive performance, as defined in Study 3 using the four latent cognitive factors, was a predictor of study dropout for cognitive decline in the domains of declarative memory, attention, and visual-spatial processing. Conspicuous dementia screening on the Mini-Mental Status Examination (MMSE) also predicted dropout. Overall, both the use of fNIRS imaging to detect visual-spatial processing performance in the parietal cortex during applying ADT and the dimensional perspective of the neuropsychiatric test battery in the context of prediction and dropout analyses were found to be suitable for early detection research of MCI and AD. Finally, the results will be interpreted in the overall context and implications, limitations, and perspectives will be discussed.}, language = {en} } @phdthesis{BakariSoale2024, author = {Bakari Soale, Majeed}, title = {Regulation of the Variant Surface Glycoprotein (VSG) Expression and Characterisation of the Nucleolar DExD/H box Protein Hel66 in \(Trypanosoma\) \(brucei\)}, doi = {10.25972/OPUS-25809}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-258090}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The variant surface glycoprotein (VSG) of African trypanosomes plays an essential role in protecting the parasites from host immune factors. These trypanosomes undergo antigenic variation resulting in the expression of a single VSG isoform out of a repertoire of around 2000 genes. The molecular mechanism central to the expression and regulation of the VSG is however not fully understood. Gene expression in trypanosomes is unusual due to the absence of typical RNA polymerase II promoters and the polycistronic transcription of genes. The regulation of gene expression is therefore mainly post-transcriptional. Regulatory sequences, mostly present in the 3´ UTRs, often serve as key elements in the modulation of the levels of individual mRNAs. In T. brucei VSG genes, a 100 \% conserved 16mer motif within the 3´ UTR has been shown to modulate the stability of VSG transcripts and hence their expression. As a stability-associated sequence element, the absence of nucleotide substitutions in the motif is however unusual. It was therefore hypothesised that the motif is involved in other essential roles/processes besides stability of the VSG transcripts. In this study, it was demonstrated that the 100 \% conservation of the 16mer motif is not essential for cell viability or for the maintenance of functional VSG protein levels. It was further shown that the intact motif in the active VSG 3´ UTR is neither required to promote VSG silencing during switching nor is it needed during differentiation from bloodstream forms to procyclic forms. Crosstalk between the VSG and procyclin genes during differentiation to the insect vector stage is also unaffected in cells with a mutated 16mer motif. Ectopic overexpression of a second VSG however requires the intact motif to trigger silencing and exchange of the active VSG, suggesting a role for the motif in transcriptional VSG switching. The 16mer motif therefore plays a dual role in VSG in situ switching and stability of VSG transcripts. The additional role of the 16mer in the essential process of antigenic variation appears to be the driving force for the 100 \% conservation of this RNA motif. A screen aimed at identifying candidate RNA-binding proteins interacting with the 16mer motif, led to the identification of a DExD/H box protein, Hel66. Although the protein did not appear to have a direct link to the 16mer regulation of VSG expression, the DExD/H family of proteins are important players in the process of ribosome biogenesis. This process is relatively understudied in trypanosomes and so this candidate was singled out for detailed characterisation, given that the 16mer story had reached a natural end point. Ribosome biogenesis is a major cellular process in eukaryotes involving ribosomal RNA, ribosomal proteins and several non-ribosomal trans-acting protein factors. The DExD/H box proteins are the most important trans-acting protein factors involved in the biosynthesis of ribosomes. Several DExD/H box proteins have been directly implicated in this process in yeast. In trypanosomes, very few of this family of proteins have been characterised and therefore little is known about the specific roles they play in RNA metabolism. Here, it was shown that Hel66 is involved in rRNA processing during ribosome biogenesis. Hel66 localises to the nucleolus and depleting the protein led to a severe growth defect. Loss of the protein also resulted in a reduced rate of global translation and accumulation of rRNA processing intermediates of both the small and large ribosomal subunits. Hel66 is therefore an essential nucleolar DExD/H protein involved in rRNA processing during ribosome biogenesis. As very few protein factors involved in the processing of rRNAs have been described in trypanosomes, this finding represents an important platform for future investigation of this topic.}, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Hock2024, author = {Hock, Michael}, title = {Methods for Homogenization of Spatio-Temporal B\(_0\) Magnetic Field Variations in Cardiac MRI at Ultra-High Field Strength}, doi = {10.25972/OPUS-34821}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348213}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Cardiovascular disease is one of the leading causes of death worldwide and, so far, echocardiography, nuclear cardiology, and catheterization are the gold standard techniques used for its detection. Cardiac magnetic resonance (CMR) can replace the invasive imaging modalities and provide a "one-stop shop" characterization of the cardiovascular system by measuring myocardial tissue structure, function and perfusion of the heart, as well as anatomy of and flow in the coronary arteries. In contrast to standard clinical magnetic resonance imaging (MRI) scanners, which are often operated at a field strength of 1.5 or 3 Tesla (T), a higher resolution and subsequent cardiac parameter quantification could potentially be achieved at ultra-high field, i.e., 7 T and above. Unique insights into the pathophysiology of the heart are expected from ultra-high field MRI, which offers enhanced image quality in combination with novel contrast mechanisms, but suffers from spatio-temporal B0 magnetic field variations. Due to the resulting spatial misregistration and intra-voxel dephasing, these B0-field inhomogeneities generate a variety of undesired image artifacts, e.g., artificial image deformation. The resulting macroscopic field gradients lead to signal loss, because the effective transverse relaxation time T2* is shortened. This affects the accuracy of T2* measurements, which are essential for myocardial tissue characterization. When steady state free precession-based pulse sequences are employed for image acquisition, certain off-resonance frequencies cause signal voids. These banding artifacts complicate the proper marking of the myocardium and, subsequently, systematic errors in cardiac function measurements are inevitable. Clinical MR scanners are equipped with basic shim systems to correct for occurring B0-field inhomogeneities and resulting image artifacts, however, these are not sufficient for the advanced measurement techniques employed for ultra-high field MRI of the heart. Therefore, this work focused on the development of advanced B0 shimming strategies for CMR imaging applications to correct the spatio-temporal B0 field variations present in the human heart at 7 T. A novel cardiac phase-specific shimming (CPSS) technique was set up, which featured a triggered B0 map acquisition, anatomy-matched selection of the shim-region-of-interest (SROI), and calibration-based B0 field modeling. The influence of technical limitations on the overall spherical harmonics (SH) shim was analyzed. Moreover, benefits as well as pitfalls of dynamic shimming were debated in this study. An advanced B0 shimming strategy was set up and applied in vivo, which was the first implementation of a heart-specific shimming approach in human UHF MRI at the time. The spatial B0-field patterns which were measured in the heart throughout this study contained localized spots of strong inhomogeneities. They fluctuated over the cardiac cycle in both size and strength, and were ideally addressed using anatomy-matched SROIs. Creating a correcting magnetic field with one shim coil, however, generated eddy currents in the surrounding conducting structures and a resulting additional, unintended magnetic field. Taking these shim-to-shim interactions into account via calibration, it was demonstrated for the first time that the non-standard 3rd-order SH terms enhanced B0-field homogeneity in the human heart. However, they were attended by challenges for the shim system hardware employed in the presented work, which was indicated by the currents required to generate the optimal 3rd-order SH terms exceeding the dynamic range of the corresponding shim coils. To facilitate dynamic shimming updated over the cardiac cycle for cine imaging, the benefit of adjusting the oscillating CPSS currents was found to be vital. The first in vivo application of the novel advanced B0 shimming strategy mostly matched the simulations. The presented technical developments are a basic requirement to quantitative and functional CMR imaging of the human heart at 7 T. They pave the way for numerous clinical studies about cardiac diseases, and continuative research on dedicated cardiac B0 shimming, e.g., adapted passive shimming and multi-coil technologies.}, subject = {Kernspintomografie}, language = {en} } @phdthesis{MaierverhHartmann2024, author = {Maier [verh. Hartmann], Carina Ramona}, title = {Regulation of the Mevalonate Pathway by the Deubiquitinase USP28 in Squamous Cancer}, doi = {10.25972/OPUS-34874}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348740}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The reprogramming of metabolic pathways is a hallmark of cancer: Tumour cells are dependent on the supply with metabolites and building blocks to fulfil their increased need as highly proliferating cells. Especially de novo synthesis pathways are upregulated when the cells of the growing tumours are not able to satisfy the required metabolic levels by uptake from the environment. De novo synthesis pathways are often under the control of master transcription factors which regulate the gene expression of enzymes involved in the synthesis process. The master regulators for de novo fatty acid synthesis and cholesterogenesis are sterol regulatory element-binding proteins (SREBPs). While SREBP1 preferably controls the expression of enzymes involved in fatty acid synthesis, SREBP2 regulates the transcription of the enzymes of the mevalonate pathway and downstream processes namely cholesterol, isoprenoids and building blocks for ubiquinone synthesis. SREBP activity is tightly regulated at different levels: The post-translational modification by ubiquitination decreases the stability of active SREBPs. The attachment of K48-linked ubiquitin chains marks the transcription factors for the proteasomal degradation. In tumour cells, high levels of active SREBPs are essential for the upregulation of the respective metabolic pathways. The increased stability and activity of SREBPs were investigated in this thesis. SREBPs are ubiquitinated by the E3 ligase Fbw7 which leads to the subsequential proteolysis of the transcription factors. The work conducted in this thesis identified the counteracting deubiquitination enzyme USP28 which removes the ubiquitin chains from SREBPs and prevents their proteasomal degradation. It further revealed that the stabilization of SREBP2 by USP28 plays an important role in the context of squamous cancers. Increased USP28 levels are associated with a poor survival in patients with squamous tumour subtypes. It was shown that reduced USP28 levels in cell lines and in vivo result in a decrease of SREBP2 activity and downregulation of the mevalonate pathway. This manipulation led to reduced proliferation and tumour growth. A direct comparison of adenocarcinomas and squamous cell carcinomas in lung cancer patients revealed an upregulation of USP28 as well as SREBP2 and its target genes. Targeting the USP28-SREBP2 regulatory axis in squamous cell lines by inhibitors also reduced cell viability and proliferation. In conclusion, this study reports evidence for the importance of the mevalonate pathway regulated by the USP28-SREBP2 axis in tumour initiation and progression of squamous cancer. The combinatorial inhibitor treatment of USP28 and HMGCR, the rate limiting enzyme of the mevalonate pathway, by statins opens the possibility for a targeted therapeutic treatment of squamous cancer patients.}, subject = {Ubiquitin}, language = {en} } @phdthesis{Englert2024, author = {Englert, Nils}, title = {Die Rolle der NO-sensitiven Guanylyl-Cyclase in der Lungenfibrose der Maus}, doi = {10.25972/OPUS-34805}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348054}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Die idiopathische Lungenfibrose (IPF) stellt eine chronische Krankheit mit einer schlechten Prognose dar. Die Erkrankung zeichnet sich durch ein dysfunktionales Alveolarepithel, die Formation von α-smooth muscle actin (α-SMA)-positiven Myofibroblasten, eine starke Kollagendeposition sowie eine fehlgeleitete Inflammation aus. In der Vermittlung dieser pro-fibrotischen Effekte spielt das Zytokin transforming growth factor β (TGF-β) eine Schl{\"u}sselrolle. Aufgrund des t{\"o}dlichen Verlaufs der IPF und der limitierten Therapieoptionen ist die Entdeckung neuer Behandlungsans{\"a}tze erforderlich. Der NO/cGMP-Signalweg ist in der Modulation grundlegender physiologischer Vorg{\"a}nge wie der Blutdruckregulation und der Peristaltik involviert. Hierbei spielt die NO-sensitive Guanylyl-Cyclase (NO-GC) als NO-Rezeptor eine fundamentale Rolle. In der Lunge wird die NO-GC in glatten Muskelzellen und Perizyten exprimiert. W{\"a}hrend das Enzym in glatten Muskelzellen die Relaxation der glatten Muskulatur vermittelt, reguliert die NO-GC in Perizyten die Angiogenese, die Kapillardurchl{\"a}ssigkeit und den Blutfluss. Neben den physiologischen Aufgaben wurden anti-fibrotische sowie anti-inflammatorische Effekte der NO-GC in Herz, Leber, Niere und Haut beschrieben. Daher wurde im Rahmen dieser Arbeit die NO-GC auf eine anti-fibrotische und anti-inflammatorische Bedeutung in der Lungenfibrose der Maus {\"u}berpr{\"u}ft. Hierzu wurden Wildtyp- (WT) und globale NO-GC-Knockout-M{\"a}use (GCKO) untersucht. Die Fibrose wurde durch einmalige, orotracheale Bleomycin-Gabe induziert und zu unterschiedlichen Zeitpunkten (Tag 7 und 21) untersucht. Unbehandelte (Tag 0) Tiere dienten als Kontrolle. Im ersten Teil dieser Arbeit wurde die NO-GC auf eine anti-fibrotische Wirkung untersucht. Mittels Immunfluoreszenz wurde das Verhalten der α-SMA-positiven Myofibroblasten in den platelet-derived growth factor receptor β (PDGFRβ)-positiven fibrotischen Regionen untersucht. Der Kollagengehalt wurde mithilfe eines Hydroxyprolin-Kollagenassays ermittelt. Die untersuchten Fibrose-Kriterien waren in beiden Genotypen an Tag 21 st{\"a}rker ausgepr{\"a}gt als an Tag 7. An Tag 21 konnten im GCKO mehr α-SMA-positive Myofibroblasten, ausgepr{\"a}gtere PDGFRβ-positive fibrotische Areale und ein h{\"o}herer Kollagengehalt als im WT festgestellt werden. Zudem zeigten die GCKO-Tiere ein schlechteres {\"U}berleben als WT-M{\"a}use. Diese Ergebnisse wiesen auf eine {\"u}berschießende fibrotische Antwort im GCKO und somit auf eine anti-fibrotische Wirkung der NO-GC in der Bleomycin-induzierten Lungenfibrose hin. Dass an Tag 21 die Fibrose im GCKO st{\"a}rker ausfiel als im WT, konnte mit dem signifikant h{\"o}heren TGF-β-Gehalt in der bronchoalveol{\"a}ren Lavagefl{\"u}ssigkeit (BALF) im GCKO erkl{\"a}rt werden. Das Fehlen der NO-GC im GCKO k{\"o}nnte zu einem Wegfall der Inhibierung der TGF-β-vermittelten, pro-fibrotischen Effekte durch die NO-GC f{\"u}hren. Weitere Studien sind erforderlich, um die Hypothese zu belegen und zugrundeliegende Mechanismen aufzukl{\"a}ren. Die de novo Entstehung von Myofibroblasten, die maßgeblich an der Kollagensynthese beteiligt sind, stellt ein entscheidendes Fibrose-Merkmal dar. Umso bedeutender ist die Identifikation zweier Myofibroblasten-Subtypen, die sich in Lokalisation, NO-GC-Expression und Herkunft unterscheiden: (1) interstitielle, NO-GC-positive Myofibroblasten, die von Perizyten abstammen und Kollagen Typ I produzieren, und (2) intra-alveol{\"a}re, NO-GC-negative Myofibroblasten, deren Ursprung noch nicht abschließend gekl{\"a}rt ist. Die Anwesenheit beider Myofibroblasten-Typen konnte zu beiden untersuchten Zeitpunkten nach Bleomycin-Gabe best{\"a}tigt werden. Die NO-GC-Expression der Alveolarwand-st{\"a}ndigen Myofibroblasten, deren Abstammung von NO-GC-positiven Perizyten sowie deren dauerhafte Pr{\"a}senz sprechen f{\"u}r eine relevante Rolle der NO-GC in der murinen Lungenfibrose. In weiteren Untersuchungen m{\"u}ssen die exakten Funktionen und spezifische Marker der Myofibroblasten-Subtypen identifiziert werden. Im zweiten Teil dieser Arbeit wurde die NO-GC auf anti-inflammatorische Effekte in der Bleomycin-induzierten Lungenfibrose untersucht. Mittels HE-F{\"a}rbung und Immunfluoreszenz wurden lymphozyt{\"a}re Infiltrate an Tag 21 im GCKO festgestellt, was auf einen modulatorischen Einfluss der NO-GC auf das Immunsystem hindeutete. An Tag 21 wurden in der BALF von GCKO-Tieren signifikant mehr Gesamtimmunzellen, Lymphozyten und neutrophile Granulozyten als im WT gez{\"a}hlt, was auf eine starke Einwanderung von Immunzellen und somit auf eine ausgepr{\"a}gte Entz{\"u}ndung in GCKO-Lungen hinwies. Folglich k{\"o}nnte die NO-GC eine anti-inflammatorische Rolle {\"u}ber die Regulation der Immigration von Immunzellen in der Bleomycin-induzierten Lungenfibrose spielen. In der Literatur werden pro- und anti-fibrotische Effekte der Immunzellen in der murinen Lungenfibrose diskutiert. Durch Korrelationsanalysen wurde ein positiver Zusammenhang zwischen der Gesamtimmunzellzahl und der TGF-β-Konzentration an Tag 21 festgestellt. In verschiedenen Studien wurde ein pro-fibrotischer Einfluss der Immunzellen {\"u}ber die Aktivierung/Sekretion von TGF-β beschrieben. Die Abwesenheit der NO-GC im GCKO k{\"o}nnte also {\"u}ber die verst{\"a}rkte Immigration von Immunzellen in einem erh{\"o}hten TGF-β-Gehalt resultieren und so zu einer {\"u}berschießenden fibrotischen Reaktion an Tag 21 f{\"u}hren. Auf welche Weise die NO-GC die Einwanderung der Immunzellen in der Bleomycin-induzierten Lungenfibrose beeinflusst, muss in weiteren Studien untersucht werden. Zusammenfassend deuten die Daten dieser Arbeit auf eine anti-inflammatorische und anti-fibrotische Rolle der NO-GC in der Lungenfibrose der Maus hin.}, subject = {Lunge}, language = {de} } @phdthesis{Andelovic2024, author = {Andelovic, Kristina}, title = {Characterization of arterial hemodynamics using mouse models of atherosclerosis and tissue-engineered artery models}, doi = {10.25972/OPUS-30360}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303601}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Within this thesis, three main approaches for the assessment and investigation of altered hemodynamics like wall shear stress, oscillatory shear index and the arterial pulse wave velocity in atherosclerosis development and progression were conducted: 1. The establishment of a fast method for the simultaneous assessment of 3D WSS and PWV in the complete murine aortic arch via high-resolution 4D-flow MRI 2. The utilization of serial in vivo measurements in atherosclerotic mouse models using high-resolution 4D-flow MRI, which were divided into studies describing altered hemodynamics in late and early atherosclerosis 3. The development of tissue-engineered artery models for the controllable application and variation of hemodynamic and biologic parameters, divided in native artery models and biofabricated artery models, aiming for the investigation of the relationship between atherogenesis and hemodynamics Chapter 2 describes the establishment of a method for the simultaneous measurement of 3D WSS and PWV in the murine aortic arch at, using ultra high-field MRI at 17.6T [16], based on the previously published method for fast, self-navigated wall shear stress measurements in the murine aortic arch using radial 4D-phase contrast MRI at 17.6 T [4]. This work is based on the collective work of Dr. Patrick Winter, who developed the method and the author of this thesis, Kristina Andelovic, who performed the experiments and statistical analyses. As the method described in this chapter is basis for the following in vivo studies and undividable into the sub-parts of the contributors without losing important information, this chapter was not split into the single parts to provide fundamental information about the measurement and analysis methods and therefore better understandability for the following studies. The main challenge in this chapter was to overcome the issue of the need for a high spatial resolution to determine the velocity gradients at the vascular wall for the WSS quantification and a high temporal resolution for the assessment of the PWV without prolonging the acquisition time due to the need for two separate measurements. Moreover, for a full coverage of the hemodynamics in the murine aortic arch, a 3D measurement is needed, which was achieved by utilization of retrospective navigation and radial trajectories, enabling a highly flexible reconstruction framework to either reconstruct images at lower spatial resolution and higher frame rates for the acquisition of the PWV or higher spatial resolution and lower frame rates for the acquisition of the 3D WSS in a reasonable measurement time of only 35 minutes. This enabled the in vivo assessment of all relevant hemodynamic parameters related to atherosclerosis development and progression in one experimental session. This method was validated in healthy wild type and atherosclerotic Apoe-/- mice, indicating no differences in robustness between pathological and healthy mice. The heterogeneous distribution of plaque development and arterial stiffening in atherosclerosis [10, 12], however, points out the importance of local PWV measurements. Therefore, future studies should focus on the 3D acquisition of the local PWV in the murine aortic arch based on the presented method, in order to enable spatially resolved correlations of local arterial stiffness with other hemodynamic parameters and plaque composition. In Chapter 3, the previously established methods were used for the investigation of changing aortic hemodynamics during ageing and atherosclerosis in healthy wild type and atherosclerotic Apoe-/- mice using the previously established methods [4, 16] based on high-resolution 4D-flow MRI. In this work, serial measurements of healthy and atherosclerotic mice were conducted to track all changes in hemodynamics in the complete aortic arch over time. Moreover, spatially resolved 2D projection maps of WSS and OSI of the complete aortic arch were generated. This important feature allowed for the pixel-wise statistical analysis of inter- and intragroup hemodynamic changes over time and most importantly - at a glance. The study revealed converse differences of local hemodynamic profiles in healthy WT and atherosclerotic Apoe-/- mice, with decreasing longWSS and increasing OSI, while showing constant PWV in healthy mice and increasing longWSS and decreasing OSI, while showing increased PWV in diseased mice. Moreover, spatially resolved correlations between WSS, PWV, plaque and vessel wall characteristics were enabled, giving detailed insights into coherences between hemodynamics and plaque composition. Here, the circWSS was identified as a potential marker of plaque size and composition in advanced atherosclerosis. Moreover, correlations with PWV values identified the maximum radStrain could serve as a potential marker for vascular elasticity. This study demonstrated the feasibility and utility of high-resolution 4D flow MRI to spatially resolve, visualize and analyze statistical differences in all relevant hemodynamic parameters over time and between healthy and diseased mice, which could significantly improve our understanding of plaque progression towards vulnerability. In future studies the relation of vascular elasticity and radial strain should be further investigated and validated with local PWV measurements and CFD. Moreover, the 2D histological datasets were not reflecting the 3D properties and regional characteristics of the atherosclerotic plaques. Therefore, future studies will include 3D plaque volume and composition analysis like morphological measurements with MRI or light-sheet microscopy to further improve the analysis of the relationship between hemodynamics and atherosclerosis. Chapter 4 aimed at the description and investigation of hemodynamics in early stages of atherosclerosis. Moreover, this study included measurements of hemodynamics at baseline levels in healthy WT and atherosclerotic mouse models. Due to the lack of hemodynamic-related studies in Ldlr-/- mice, which are the most used mouse models in atherosclerosis research together with the Apoe-/- mouse model, this model was included in this study to describe changing hemodynamics in the aortic arch at baseline levels and during early atherosclerosis development and progression for the first time. In this study, distinct differences in aortic geometries of these mouse models at baseline levels were described for the first time, which result in significantly different flow- and WSS profiles in the Ldlr-/- mouse model. Further basal characterization of different parameters revealed only characteristic differences in lipid profiles, proving that the geometry is highly influencing the local WSS in these models. Most interestingly, calculation of the atherogenic index of plasma revealed a significantly higher risk in Ldlr-/- mice with ongoing atherosclerosis development, but significantly greater plaque areas in the aortic arch of Apoe-/- mice. Due to the given basal WSS and OSI profile in these two mouse models - two parameters highly influencing plaque development and progression - there is evidence that the regional plaque development differs between these mouse models during very early atherogenesis. Therefore, future studies should focus on the spatiotemporal evaluation of plaque development and composition in the three defined aortic regions using morphological measurements with MRI or 3D histological analyses like LSFM. Moreover, this study offers an excellent basis for future studies incorporating CFD simulations, analyzing the different measured parameter combinations (e.g., aortic geometry of the Ldlr-/- mouse with the lipid profile of the Apoe-/- mouse), simulating the resulting plaque development and composition. This could help to understand the complex interplay between altered hemodynamics, serum lipids and atherosclerosis and significantly improve our basic understanding of key factors initiating atherosclerosis development. Chapter 5 describes the establishment of a tissue-engineered artery model, which is based on native, decellularized porcine carotid artery scaffolds, cultured in a MRI-suitable bioreactor-system [23] for the investigation of hemodynamic-related atherosclerosis development in a controllable manner, using the previously established methods for WSS and PWV assessment [4, 16]. This in vitro artery model aimed for the reduction of animal experiments, while simultaneously offering a simplified, but completely controllable physical and biological environment. For this, a very fast and gentle decellularization protocol was established in a first step, which resulted in porcine carotid artery scaffolds showing complete acellularity while maintaining the extracellular matrix composition, overall ultrastructure and mechanical strength of native arteries. Moreover, a good cellular adhesion and proliferation was achieved, which was evaluated with isolated human blood outgrowth endothelial cells. Most importantly, an MRI-suitable artery chamber was designed for the simultaneous cultivation and assessment of high-resolution 4D hemodynamics in the described artery models. Using high-resolution 4D-flow MRI, the bioreactor system was proven to be suitable to quantify the volume flow, the two components of the WSS and the radStrain as well as the PWV in artery models, with obtained values being comparable to values found in literature for in vivo measurements. Moreover, the identification of first atherosclerotic processes like intimal thickening is achievable by three-dimensional assessment of the vessel wall morphology in the in vitro models. However, one limitation is the lack of a medial smooth muscle cell layer due to the dense ECM. Here, the utilization of the laser-cutting technology for the generation of holes and / or pits on a microscale, eventually enabling seeding of the media with SMCs showed promising results in a first try and should be further investigated in future studies. Therefore, the proposed artery model possesses all relevant components for the extension to an atherosclerosis model which may pave the way towards a significant improvement of our understanding of the key mechanisms in atherogenesis. Chapter 6 describes the development of an easy-to-prepare, low cost and fully customizable artery model based on biomaterials. Here, thermoresponsive sacrificial scaffolds, processed with the technique of MEW were used for the creation of variable, biomimetic shapes to mimic the geometric properties of the aortic arch, consisting of both, bifurcations and curvatures. After embedding the sacrificial scaffold into a gelatin-hydrogel containing SMCs, it was crosslinked with bacterial transglutaminase before dissolution and flushing of the sacrificial scaffold. The hereby generated channel was subsequently seeded with ECs, resulting in an easy-to-prepare, fast and low-cost artery model. In contrast to the native artery model, this model is therefore more variable in size and shape and offers the possibility to include smooth muscle cells from the beginning. Moreover, a custom-built and highly adaptable perfusion chamber was designed specifically for the scaffold structure, which enabled a one-step creation and simultaneously offering the possibility for dynamic cultivation of the artery models, making it an excellent basis for the development of in vitro disease test systems for e.g., flow-related atherosclerosis research. Due to time constraints, the extension to an atherosclerosis model could not be achieved within the scope of this thesis. Therefore, future studies will focus on the development and validation of an in vitro atherosclerosis model based on the proposed bi- and three-layered artery models. In conclusion, this thesis paved the way for a fast acquisition and detailed analyses of changing hemodynamics during atherosclerosis development and progression, including spatially resolved analyses of all relevant hemodynamic parameters over time and in between different groups. Moreover, to reduce animal experiments, while gaining control over various parameters influencing atherosclerosis development, promising artery models were established, which have the potential to serve as a new platform for basic atherosclerosis research.}, subject = {H{\"a}modynamik}, language = {en} } @phdthesis{He2024, author = {He, Feng}, title = {Drug Discovery based on Oxidative Stress and HDAC6 for Treatment of Neurodegenerative Diseases}, doi = {10.25972/OPUS-25349}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-253497}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Most antioxidants reported so far only achieved limited success in AD clinical trials. Growing evidences suggest that merely targeting oxidative stress will not be sufficient to fight AD. While multi-target directed ligands could synergistically modulate different steps in the neurodegenerative process, offering a promising potential for treatment of this complex disease. Fifteen target compounds have been designed by merging melatonin and ferulic acid into the cap group of a tertiary amide HDAC6 inhibitor. Compound 10b was screened as the best hybrid molecule exhibit potent HDAC6 inhibition and potent antioxidant capacity. Compound 10b also alleviated LPS-induced microglia inflammation and led to a switch from neurotoxic M1 to the neuroprotective M2 microglial phenotype. Moreover, compound 10b show pronounced attenuation of spatial working memory and long-term memory damage in an in vivo AD mouse model. Compound 10b can be a potentially effective drug candidate for treatment of AD and its druggability worth to be further studied. We have designed ten novel neuroprotectants by hybridizing with several common antioxidants, including ferulic acid, melatonin, lipoic acid, and trolox. The trolox hybrid compound exhibited the most potent neuroprotective effects in multiple neuroprotection assays. Besides, we identified the synergistic effects between trolox and vitamin K derivative, and our trolox hybrid compound showed comparable neuroprotection with the mixture of trolox and vitamin K derivative. We have designed and synthesized 24 quinone derivatives based on five kinds of different quinones including ubiquinone, 2,3,5-trimethyl-1,4-benzoquinone, memoquin, thymoquinone, and anthraquinone. Trimethylbenzoquinone and thymoquinone derivatives showed more potent neuroprotection than other quinones in oxytosis assay. Therefore, trimethylbenzoquinone and thymoquinone derivatives can be used as lead compounds for further mechanism study and drug discovery for treatment of neurodegenerative disease. We designed a series of photoswitchable HDAC inhibitors, which could be effective molecular tools due to the high spatial and temporal resolution. In total 23 target compounds were synthesized and photophysicochemically characterized. Azoquinoline-based compounds possess more thermally stable cis-isomers in buffer solution, which were further tested in enzyme-based HDAC inhibition assay. However, none of those tested compounds show significant differences in activities between trans-isomers and corresponding cis-isomers.}, subject = {Alzheimerkrankheit}, language = {en} } @phdthesis{XavierdeSouza2024, author = {Xavier de Souza, Aline}, title = {Ecophysiological adaptations of the cuticular water permeability within the Solanaceae family}, doi = {10.25972/OPUS-22539}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-225395}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The cuticle, a complex lipidic layer synthesized by epidermal cells, covers and protects primary organs of all land plants. Its main function is to avoid plant desiccation by limiting non-stomatal water loss. The cuticular properties vary widely among plant species. So far, most of the cuticle-related studies have focused on a limited number of species, and studies addressing phylogenetically related plant species are rare. Moreover, comparative studies among organs from the same plant species are still scarce. Thus, this study focus on organ-specificities of the cuticle within and between plant species of the Solanaceae family. Twenty-seven plant species of ten genera, including cultivated and non- cultivated species, were investigated to identify potential cuticular similarities. Structural, chemical and functional traits of fully expanded leaves, inflated fruiting calyces, and ripe fruits were analyzed. The surface morphology was investigated by scanning electron microscopy. Leaves were mainly amphistomatic and covered by an epicuticular wax film. The diversity and distribution of trichomes varied among species. Only the leaves of S. grandiflora were glabrous. Plant species of the Leptostemonum subgenus had numerous prickles and non-glandular stellate trichomes. Fruits were stomata-free, except for S. muricatum, and a wax film covered their surface. Last, lenticel- like structures and remaining scars of broken trichomes were found on the surface of some Solanum fruits. Cuticular water permeability was used as indicators of the cuticular transpiration barrier efficiency. The water permeability differed among plant species, organs and fruit types with values ranging up to one hundred-fold. The minimum leaf conductance ranged from 0.35 × 10-5 m s-1 in S. grandiflora to 31.54 × 10-5 m s-1 in S. muricatum. Cuticular permeability of fruits ranged from 0.64 × 10-5 m s-1 in S. dulcamara (fleshy berry) to 34.98 × 10-5 m s-1 in N. tabacum (capsule). Generally, the cuticular water loss of dry fruits was about to 5-fold higher than that of fleshy fruits. Interestingly, comparisons between cultivated and non-cultivated species showed that wild species have the most efficient cuticular transpiration barrier in leaves and fruits. The average permeability of leaves and fruits of wild plant species was up to three-fold lower in comparison to the cultivated ones. Moreover, ripe fruits of P. ixocarpa and P. peruviana showed two-times lower cuticular transpiration when enclosed by the inflated fruiting calyx. The cuticular chemical composition was examined using gas chromatography. Very-long-chain aliphatic compounds primarily composed the cuticular waxes, being mostly dominated by n- alkanes (up to 80\% of the total wax load). Primary alkanols, alkanoic acids, alkyl esters and branched iso- and anteiso-alkanes were also frequently found. Although in minor amounts, sterols, pentacyclic triterpenoids, phenylmethyl esters, coumaric acid esters, and tocopherols were identified in the cuticular waxes. Cuticular wax coverages highly varied in solanaceous (62- fold variation). The cuticular wax load of fruits ranged from 0.55 μg cm-2 (Nicandra physalodes) to 33.99 μg cm-2 (S. pennellii), whereas the wax amount of leaves varied from 0.90 μg cm-2 (N. physalodes) to 28.42 μg cm-2 (S. burchellii). Finally, the wax load of inflated fruiting calyces ranged from 0.56 μg cm-2 in P. peruviana to 2.00 μg cm-2 in N. physalodes. For the first time, a comparative study on the efficiency of the cuticular transpiration barrier in different plant organs of closely related plant species was conducted. Altogether, the cuticular chemical variability found in solanaceous species highlight species-, and organ-specific wax biosynthesis. These chemical variabilities might relate to the waterproofing properties of the plant cuticle, thereby influencing leaf and fruit performances. Additionally, the high cuticular water permeabilities of cultivated plant species suggest a potential existence of a trade-off between fruit organoleptic properties and the efficiency of the cuticular transpiration barrier. Last, the high cuticular water loss of the solanaceous dry fruits might be a physiological adaptation favouring seed dispersion.}, subject = {Kutikula}, language = {en} } @phdthesis{Nadernezhad2024, author = {Nadernezhad, Ali}, title = {Engineering approaches in biofabrication of vascularized structures}, doi = {10.25972/OPUS-34589}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-345892}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Biofabrication technologies must address numerous parameters and conditions to reconstruct tissue complexity in vitro. A critical challenge is vascularization, especially for large constructs exceeding diffusion limits. This requires the creation of artificial vascular structures, a task demanding the convergence and integration of multiple engineering approaches. This doctoral dissertation aims to achieve two primary objectives: firstly, to implement and refine engineering methods for creating artificial microvascular structures using Melt Electrowriting (MEW)-assisted sacrificial templating, and secondly, to deepen the understanding of the critical factors influencing the printability of bioink formulations in 3D extrusion bioprinting. In the first part of this dissertation, two innovative sacrificial templating techniques using MEW are explored. Utilizing a carbohydrate glass as a fugitive material, a pioneering advancement in the processing of sugars with MEW with a resolution under 100 microns was made. Furthermore, by introducing the "print-and-fuse" strategy as a groundbreaking method, biomimetic branching microchannels embedded in hydrogel matrices were fabricated, which can then be endothelialized to mirror in vivo vascular conditions. The second part of the dissertation explores extrusion bioprinting. By introducing a simple binary bioink formulation, the correlation between physical properties and printability was showcased. In the next step, employing state-of-the-art machine-learning approaches revealed a deeper understanding of the correlations between bioink properties and printability in an extended library of hydrogel formulations. This dissertation offers in-depth insights into two key biofabrication technologies. Future work could merge these into hybrid methods for the fabrication of vascularized constructs, combining MEW's precision with fine-tuned bioink properties in automated extrusion bioprinting.}, subject = {3D-Druck}, language = {en} } @phdthesis{Weber2024, author = {Weber, Justus C.}, title = {Development and preclinical assessment of ROR2-specific CAR-T cells for the treatment of clear cell renal cell carcinoma and multiple myeloma}, doi = {10.25972/OPUS-31039}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-310399}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Adoptive immunotherapy using chimeric antigen receptor (CAR)-modified T cells is an effective treatment for hematological malignancies that are refractory to conventional chemotherapy. To address a wider variety of cancer entities, there is a need to identify and characterize additional target antigens for CAR-T cell therapy. The two members of the receptor tyrosine kinase-like orphan receptor family, ROR1 and ROR2, have been found to be overexpressed on cancer cells and to correlate with aggressive cancer phenotypes. Recently, ROR1-specific CAR-T cells have entered testing in phase I clinical trials, encouraging us to assess the suitability of ROR2 as a novel target for CAR-T cell therapy. To study the therapeutic potential of targeting ROR2 in solid and hematological malignancies, we selected two representative cancer entities with high unmet medical need: renal cell carcinoma and multiple myeloma. Our data show that ROR2 is commonly expressed on primary samples and cell lines of clear cell renal cell carcinoma and multiple myeloma. To study the efficacy of ROR2-specific CAR T cell therapy, we designed two CAR constructs with 10-fold binding affinity differences for the same epitope of ROR2. We found both cell products to exhibit antigen-specific anti-tumor reactivity in vitro, including tumor cell lysis, secretion of the effector cytokines interleukin-2 (IL-2) and interferon-gamma (IFNγ), and T cell proliferation. In vivo studies revealed ROR2 specific CAR-T cells to confer durable responses, significant survival benefits and long-term persistence of CAR-expressing T cells. Overall, there was a trend towards more potent anti-tumor efficacy upon treatment with T cells that expressed the CAR with higher affinity for ROR2, both in vitro and in vivo. We performed a preclinical safety and toxicology assessment comprising analyses of ROR2 expression in healthy human and murine tissues, cross-reactivity, and adoptive T cell transfer in immunodeficient mice. We found ROR2 expression to be conserved in mice, and low-level expression was detectable in the male and female reproductive system as well as parts of the gastrointestinal tract. CAR-T cells targeting human ROR2 were found to elicit similarly potent reactivity upon recognition of murine ROR2. In vivo analyses showed transient tissue-specific enrichment and activation of ROR2-specific CAR-T cells in organs with high blood circulation, such as lung, liver, or spleen, without evidence for clinical toxicity or tissue damage as determined by histological analyses. Furthermore, we humanized the CAR binding domain of ROR2-specific CAR-T cells to mitigate the risk of adverse immune reactions and concomitant CAR-T cell rejection. Functional analyses confirmed that humanized CARs retained their specificity and functionality against ROR2-positive tumor cells in vitro. In summary, we show that ROR2 is a prevalent target in RCC and MM, which can be addressed effectively with ROR2-specific CAR-T cells in preclinical models. Our preliminary toxicity studies suggest a favorable safety profile for ROR2-specific CAR-T cells. These findings support the potential to develop ROR2-specific CAR-T cells clinically to obtain cell products with broad utility.}, subject = {CAR-T-Zell-Therapie}, language = {en} } @phdthesis{Albrecht2024, author = {Albrecht, Christina}, title = {Kardiorestriktiver Knockout desmosomaler Proteine f{\"u}hrt zu einer Beeintr{\"a}chtigung der elektromechanischen Kopplung ohne mitochondriale Dysfunktion bei arrhythmogener Kardiomyopathie}, doi = {10.25972/OPUS-34847}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348472}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Arrhythmogene Kardiomyopathie (ACM) ist eine genetische Herzerkrankung, die durch Herzinsuffizienz, ventrikul{\"a}re Arrhythmien und pl{\"o}tzlichen Herztod gekennzeichnet ist. Mutationen in desmosomalen Proteinen der Zelladh{\"a}sion, wie Plakophilin 2 (PKP2) und Plakoglobin (PG), sind die h{\"a}ufigste Ursache der famili{\"a}ren ACM. Wie gest{\"o}rte Zelladh{\"a}sion zum ACM-Ph{\"a}notyp f{\"u}hrt, ist jedoch nur teilweise gekl{\"a}rt. Potentielle Mechanismen sind eine gest{\"o}rte Kalzium-(Ca2+)-Hom{\"o}ostase, mitochondrialer oxidativer Stress und metabolische St{\"o}rungen. Ziel dieser Studie ist es, die mitochondriale Energetik und die Ca2+ -Hom{\"o}ostase in kardio-restriktiven PKP2-Knockout-M{\"a}usen (KO) im Alter von 4, 8 und 12 Wochen sowie in PG-Knockout- M{\"a}usen im Alter von 6 Wochen zu untersuchen. Vier Wochen alte PKP2-KO-M{\"a}use zeigten fr{\"u}he Anzeichen von ACM, w{\"a}hrend alle anderen Altersgruppen typische Kennzeichen von ACM rekapitulierten. Kontraktilit{\"a}t, die damit verbundenen Ca2+ - Transienten, der Redoxstatus und das mitochondriale Membranpotenzial (ΔΨm) isolierter Kardiomyozyten wurden mit einem IonOptix-System bei elektrischer und β- adrenerger Stimulation untersucht. Alle desmosomalen KO-Kardiomyozyten zeigten eine verringerte diastolische Sarkomerl{\"a}nge, was auf eine diastolische Dysfunktion hinwies. In allen PKP2 KO Kardiomyozyten lag außerdem ein erh{\"o}hter intrazellul{\"a}rer Ca2+ -Spiegel vor, w{\"a}hrend in den PG KO-Kardiomyozyten das intrazellul{\"a}rer Ca2+ unver{\"a}ndert war. PKP2 KO- und PG KO-Kardiomyozyten wiesen keine Ca2+ - Sensibilisierung der Myofilamente auf. Zur weiteren Bewertung der mitochondrialen Funktion wurde eine hochaufl{\"o}sende Respirometrie in isolierten Herzmitochondrien bei gleichzeitiger {\"U}berwachung von ΔΨm in PKP2 KO und PG KO M{\"a}usen durchgef{\"u}hrt, welche in allen Versuchs- und Kontrollgruppen vergleichbar war. Im Verlauf der Versuche blieb der Redoxstatus stabil und es konnte kein Exzess reaktiver Sauerstoffspezies (ROS) festgestellt werden. Daraus konnte gefolgert werden, dass weder PKP2 KO noch PG KO-M{\"a}use eine beeintr{\"a}chtigte mitochondriale Atmung aufwiesen. Diese Studie zeigt, dass isolierte PKP2 KO- oder PG KO-Kardiomyozyten EC-Kopplungsdefekte ohne mitochondriale Dysfunktion aufwiesen. Eine mitochondriale Dysfunktion konnte als treibender Faktor f{\"u}r die Progression des ACM- Ph{\"a}notyps in den vorgestellten Mausmodellen ausgeschlossen werden. Weitere Studien sind erforderlich, um die mitochondriale Funktion im Zusammenhang mit ACM zu entschl{\"u}sseln.}, subject = {Herzmuskelkrankheit}, language = {de} } @phdthesis{Ibrahim2024, author = {Ibrahim, Eslam Samir Ragab}, title = {Unraveling the function of the old yellow enzyme OfrA in \(Staphylococcus\) \(aureus\) stress response}, doi = {10.25972/OPUS-28960}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289600}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Biological systems are in dynamic interaction. Many responses reside in the core concepts of biological systems interplay (competition and cooperation). In infection situation, the competition between a bacterial system and a host is shaped by many stressors at spatial and temporal determinants. Reactive chemical species are universal stressors against all biological systems since they potentially damage the basic requirements of these systems (nucleic acids, proteins, carbohydrates, and lipids). Either produced endogenously or exogenously, reactive chemical species affect the survival of pathogens including the gram-positive Staphylococcus aureus (S. aureus). Therefore, bacteria developed strategies to overcome the toxicity of reactive species. S. aureus is a widely found opportunistic pathogen. In its niche, S. aureus is in permanent contact with surrounding microbes and host factors. Deciphering the deterministic factors in these interactions could facilitate pinpointing novel bacterial targets. Identifying the aforementioned targets is crucial to develop new strategies not only to kill the pathogenic organisms but also to enhance the normal flora to minimize the pathogenicity and virulence of potential pathogens. Moreover, targeting S. aureus stress response can be used to overcome bacterial resistance against host-derived factors. In this study, I identify a novel S. aureus stress response factor against reactive electrophilic, oxygen, and hypochlorite species to better understand its resilience as a pathogen. Although bacterial stress response is an active research field, gene function is a current bottleneck in characterizing the understudied bacterial strategies to mediate stress conditions. I aimed at understanding the function of a novel protein family integrated in many defense systems of several biological systems. In bacteria, fungi, and plants, old yellow enzymes (OYEs) are widely found. Since the first isolation of the yellow flavoprotein, OYEs are used as biocatalysts for decades to reduce activated C=C bonds in α,β-unsaturated carbonyl compounds. The promiscuity of the enzymatic catalysis is advantageous for industrial applications. However, the physiological function of OYEs, especially in bacteria, is still puzzling. Moreover, the relevance of the OYEs in infection conditions remained enigmatic.   Here, I show that there are two groups of OYEs (OYE flavin oxidoreductase, OfrA and OfrB) that are encoded in staphylococci and some firmicutes. OfrA (SAUSA300_0859) is more conserved than OfrB (SAUSA300_0322) in staphylococci and is a part of the staphylococcal core genome. A reporter system was established to report for ofrA in S. aureus background. The results showed that ofrA is induced under electrophilic, oxidative, and hypochlorite stress. OfrA protects S. aureus against quinone, methylglyoxal, hydrogen peroxide, and hypochlorite stress. Additionally, the results provide evidence that OfrA supports thiol-dependent redox homeostasis. At the host-pathogen interface, OfrA promotes S. aureus fitness in murine macrophage cell line. In whole human blood, OfrA is involved in S. aureus survival indicating a potential clinical relevance to bacteraemia. In addition, ofrA mutation affects the production of the virulence factor staphyloxanthin via the upper mevalonate pathway. In summary, decoding OfrA function and its proposed mechanism of action in S. aureus shed the light on a conserved stress response within multiple organisms.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Allgaier2024, author = {Allgaier, Johannes}, title = {Machine Learning Explainability on Multi-Modal Data using Ecological Momentary Assessments in the Medical Domain}, doi = {10.25972/OPUS-35118}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-351189}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Introduction. Mobile health (mHealth) integrates mobile devices into healthcare, enabling remote monitoring, data collection, and personalized interventions. Machine Learning (ML), a subfield of Artificial Intelligence (AI), can use mHealth data to confirm or extend domain knowledge by finding associations within the data, i.e., with the goal of improving healthcare decisions. In this work, two data collection techniques were used for mHealth data fed into ML systems: Mobile Crowdsensing (MCS), which is a collaborative data gathering approach, and Ecological Momentary Assessments (EMA), which capture real-time individual experiences within the individual's common environments using questionnaires and sensors. We collected EMA and MCS data on tinnitus and COVID-19. About 15 \% of the world's population suffers from tinnitus. Materials \& Methods. This thesis investigates the challenges of ML systems when using MCS and EMA data. It asks: How can ML confirm or broad domain knowledge? Domain knowledge refers to expertise and understanding in a specific field, gained through experience and education. Are ML systems always superior to simple heuristics and if yes, how can one reach explainable AI (XAI) in the presence of mHealth data? An XAI method enables a human to understand why a model makes certain predictions. Finally, which guidelines can be beneficial for the use of ML within the mHealth domain? In tinnitus research, ML discerns gender, temperature, and season-related variations among patients. In the realm of COVID-19, we collaboratively designed a COVID-19 check app for public education, incorporating EMA data to offer informative feedback on COVID-19-related matters. This thesis uses seven EMA datasets with more than 250,000 assessments. Our analyses revealed a set of challenges: App user over-representation, time gaps, identity ambiguity, and operating system specific rounding errors, among others. Our systematic review of 450 medical studies assessed prior utilization of XAI methods. Results. ML models predict gender and tinnitus perception, validating gender-linked tinnitus disparities. Using season and temperature to predict tinnitus shows the association of these variables with tinnitus. Multiple assessments of one app user can constitute a group. Neglecting these groups in data sets leads to model overfitting. In select instances, heuristics outperform ML models, highlighting the need for domain expert consultation to unveil hidden groups or find simple heuristics. Conclusion. This thesis suggests guidelines for mHealth related data analyses and improves estimates for ML performance. Close communication with medical domain experts to identify latent user subsets and incremental benefits of ML is essential.}, subject = {Maschinelles Lernen}, language = {en} } @article{AscheidBaumannFunkeetal.2023, author = {Ascheid, David and Baumann, Magdalena and Funke, Caroline and Volz, Julia and Pinnecker, J{\"u}rgen and Friedrich, Mike and H{\"o}hn, Marie and Nandigama, Rajender and Erg{\"u}n, S{\"u}leyman and Nieswandt, Bernhard and Heinze, Katrin G. and Henke, Erik}, title = {Image-based modeling of vascular organization to evaluate anti-angiogenic therapy}, series = {Biology Direct}, volume = {18}, journal = {Biology Direct}, doi = {10.1186/s13062-023-00365-x}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-357242}, year = {2023}, abstract = {In tumor therapy anti-angiogenic approaches have the potential to increase the efficacy of a wide variety of subsequently or co-administered agents, possibly by improving or normalizing the defective tumor vasculature. Successful implementation of the concept of vascular normalization under anti-angiogenic therapy, however, mandates a detailed understanding of key characteristics and a respective scoring metric that defines an improved vasculature and thus a successful attempt. Here, we show that beyond commonly used parameters such as vessel patency and maturation, anti-angiogenic approaches largely benefit if the complex vascular network with its vessel interconnections is both qualitatively and quantitatively assessed. To gain such deeper insight the organization of vascular networks, we introduce a multi-parametric evaluation of high-resolution angiographic images based on light-sheet fluorescence microscopy images of tumors. We first could pinpoint key correlations between vessel length, straightness and diameter to describe the regular, functional and organized structure observed under physiological conditions. We found that vascular networks from experimental tumors diverted from those in healthy organs, demonstrating the dysfunctionality of the tumor vasculature not only on the level of the individual vessel but also in terms of inadequate organization into larger structures. These parameters proofed effective in scoring the degree of disorganization in different tumor entities, and more importantly in grading a potential reversal under treatment with therapeutic agents. The presented vascular network analysis will support vascular normalization assessment and future optimization of anti-angiogenic therapy.}, language = {en} } @phdthesis{Endres2024, author = {Endres, Leo Maximilian}, title = {Development of multicellular \(in\) \(vitro\) models of the meningeal blood-CSF barrier to study \(Neisseria\) \(meningitidis\) infection}, doi = {10.25972/OPUS-34621}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-346216}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Neisseria meningitidis (the meningococcus) is one of the major causes of bacterial meningitis, a life-threatening inflammation of the meninges. Traversal of the meningeal blood-cerebrospinal fluid barrier (mBCSFB), which is composed of highly specialized brain endothelial cells (BECs), and subsequent interaction with leptomeningeal cells (LMCs) are critical for disease progression. Due to the human-exclusive tropism of N. meningitidis, research on this complex host-pathogen interaction is mostly limited to in vitro studies. Previous studies have primarily used peripheral or immortalized BECs alone, which do not retain relevant barrier phenotypes in culture. To study meningococcal interaction with the mBCSFB in a physiologically more accurate context, BEC-LMC co-culture models were developed in this project using BEC-like cells derived from induced pluripotent stem cells (iBECs) or hCMEC/D3 cells in combination with LMCs derived from tumor biopsies. Distinct BEC and LMC layers as well as characteristic expression of cellular markers were observed using transmission electron microscopy (TEM) and immunofluorescence staining. Clear junctional expression of brain endothelial tight and adherens junction proteins was detected in the iBEC layer. LMC co-culture increased iBEC barrier tightness and stability over a period of seven days, as determined by sodium fluorescein (NaF) permeability and transendothelial electrical resistance (TEER). Infection experiments demonstrated comparable meningococcal adhesion and invasion of the BEC layer in all models tested, consistent with previously published data. While only few bacteria crossed the iBEC-LMC barrier initially, transmigration rates increased substantially over 24 hours, despite constant high TEER. After 24 hours of infection, deterioration of the barrier properties was observed including loss of TEER and altered expression of tight and adherens junction components. Reduced mRNA levels of ZO-1, claudin-5, and VE-cadherin were detected in BECs from all models. qPCR and siRNA knockdown data suggested that transcriptional downregulation of these genes was potentially but not solely mediated by Snail1. Immunofluorescence staining showed reduced junctional coverage of occludin, indicating N. meningitidis-induced post-transcriptional modulation of this protein, as previous studies have suggested. Together, these results suggest a potential combination of transcellular and paracellular meningococcal traversal of the mBCSFB, with the more accessible paracellular route becoming available upon barrier disruption after prolonged N. meningitidis infection. Finally, N. meningitidis induced cellular expression of pro-inflammatory cytokines and chemokines such as IL-8 in all mBCSFB models. Overall, the work described in this thesis highlights the usefulness of advanced in vitro models of the mBCSFB that mimic native physiology and exhibit relevant barrier properties to study infection with meningeal pathogens such as N. meningitidis.}, subject = {Bakterielle Hirnhautentz{\"u}ndung}, language = {en} } @phdthesis{Trinks2024, author = {Trinks, Nora Isabel}, title = {Super-resolution fluorescence microscopic visualization and analysis of interactions between human immune cells and \(Aspergillus\) \(fumigatus\)}, doi = {10.25972/OPUS-26640}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-266407}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The mold Aspergillus fumigatus (A. fumigatus) is known as human pathogen and can cause life-threatening infections in humans with a weakened immune system. This is a known complication in patients receiving glucocorticoids, e.g. after hematopoietic stem cell transplantation or solid organ transplantation. Although research in the field of immune cell/fungus interaction has discovered key strategies how immune cells fight against infectious fungi, our knowledge is still incomplete. In order to develop effective treatment options against fungal infections, a detailed understanding of their interactions is crucial. Thus, visualization of immune cell and fungus is an excellent approach to gain further knowledge. For a detailed view of such interaction processes, a high optical resolution on nanometer scale is required. There is a variety of super resolution microscopy techniques, enabling fluorescence imaging beyond the diffraction limit. This work combines the use of three complementary super resolution microscopy techniques, in order to study immune cell/fungus interaction from different points of view. Aim of this work is the introduction of the recently invented imaging technique named expansion microscopy (ExM) for the study of immune cell/fungus interactions. The core aspect of this method is the physical magnification of the specimen, which increases the distance between protein structures that are close to each other and which can therefore be imaged separately. The simultaneous magnification of primary human natural killer (NK) cells and A. fumigatus hyphae was established in this work using ExM. Reorganization of cytoskeletal components of interacting NK cells was demonstrated here, by expansion of the immunological synapse (IS), formed between NK cells and A. fumigatus. In addition, reorganization of the microtubule-organizing center (MTOC) towards fungal hyphae and an accumulation of actin at the IS has been observed. Furthermore, ExM has been used to visualize lytic granules of NK cells after degranulation. After magnification of the specimen, lysosome associated protein 1 (LAMP1) was shown to surround perforin. In absence of the plasma membrane-exposed degranulation marker LAMP1, a "ring-shaped" structure was often observed for fluorescently labeled perforin. Volume calculation of lytic granules demonstrated the benefit of ExM. Compared to pre-expansion images, analyses of post-expansion images showed two volume distributions for degranulated and non-degranulated NK cells. In addition, this work emphasizes the importance of determining the expansion factor for a structure in each species, as variations of expansion factors have been observed. This factor, as well as possible sample distortions should be considered, when ExM is used in order to analyze the interaction between two species. A second focus of this work is the visualization of a chimeric antigen receptor (CAR), targeting an epitope on the cell wall of A. fumigatus. Structured illumination microscopy (SIM) revealed that the CAR is part of the immunological synapse of primary human CAR T cells and CAR-NK-92 cells. At the interaction site, an accumulation of the CAR was observed, as well as the presence of perforin. CAR accumulation at fungal hyphae was further demonstrated by automated live cell imaging of interacting CAR-NK-92 cells, expressing a fluorescent fusion protein. Additionally, the use of direct stochastic optical reconstruction microscopy (dSTORM) gave first insights in CAR expression levels on the basal membrane of CAR-NK-92 cells, with single molecule sensitivity. CAR cluster analyses displayed a heterogeneous CAR density on the basal membrane of transfected NK 92 cells. In summary, this work provides insights into the application of ExM for studying the interaction of primary human NK cells and A. fumigatus for the first time. Furthermore, this thesis presents first insights regarding the characterization of an A. fumigatus-targeting CAR, by applying super-resolution fluorescence microscopy, like SIM and dSTORM.}, subject = {Mikroskopie}, language = {en} } @phdthesis{Schlesinger2024, author = {Schlesinger, Tobias}, title = {Autolog zellbesiedelte Matrix zum Verschluss gastraler Inzisionen: Eine Machbarkeitsstudie im Schweinemodell}, doi = {10.25972/OPUS-30583}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-305832}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Einleitung: Strukturelle Defekte der gastrointestinalen Hohlorgane stellen ein allgegen-w{\"a}rtiges Problem im klinischen Alltag dar. Sie entstehen meist auf dem Boden einer ent-z{\"u}ndlichen oder tumor{\"o}sen Grunderkrankung und k{\"o}nnen außerdem traumatisch sowie durch medizinische Eingriffe hervorgerufen werden. In der Folge kommt es zur Kontami-nation des umliegenden Gewebes mit Magen- bzw. Darminhalt, wodurch delet{\"a}re Folgen wie eine systemische Infektion, also eine Sepsis mit Multiorganversagen drohen k{\"o}nnen. Vor diesem Hintergrund sind gastrointestinale Defekte immer als potenziell lebensbedroh-lich f{\"u}r den Patienten zu betrachten. Die ad{\"a}quate und kausale Behandlung erfolgt je nach {\"A}tiologie und Zustand des Patienten durch eine Operation oder eine endoskopische Inter-vention. Hierzu stehen zahlreiche etablierte, operative und interventionelle Therapieme-thoden zur Verf{\"u}gung. In manchen F{\"a}llen stoßen die etablierten Techniken jedoch an ihre Grenzen. Bei Patienten mit schwerwiegenden Komorbidit{\"a}ten oder im Rahmen neuer me-dizinischer Verfahren sind Innovationen gefragt. Die Grundidee der vorliegenden Arbeit ist die Entwicklung einer biotechnologischen Therapieoption zur Versorgung gastrointesti-naler Hohlorganperforationen. Methoden: Zur Durchf{\"u}hrung einer Machbarkeitsstudie wurden zehn G{\"o}ttinger Mi-nischweine in zwei Gruppen mit jeweils 5 Tieren aufgeteilt. Den Tieren der Experimental-gruppe wurden Hautbiopsien entnommen und daraus Fibroblasten isoliert, welche vo-r{\"u}bergehend konserviert wurden. Unter Verwendung von azellularisiertem Schweinedarm erfolgte die Herstellung von Implantaten nach den Prinzipien des Tissue Engineerings. Die Tiere beider Gruppen wurden einer Minilaparotomie und einer ca. 3cm-Inzision der Ma-genvorderwand unterzogen. Die anschließende Versorgung wurde in der Experimental-gruppe durch Implantation der neuartigen Konstrukte erzielt. In der Kontrollgruppe wur-de im Sinne des Goldstandards eine konventionelle Naht durchgef{\"u}hrt. Anschließend wurden die Tiere f{\"u}r vier Wochen beobachtet. Eine bzw. zwei Wochen nach dem pri-m{\"a}ren Eingriff wurde bei allen Tieren beider Gruppen eine Laparoskopie bzw. Gastrosko-pie durchgef{\"u}hrt. Am Ende der klinischen Observationsphase wurden die Versuchstiere get{\"o}tet und die entsprechenden Magenareale zur histologischen Untersuchung explantiert. Ergebnisse: Die Herstellung der Implantate konnte auf der Basis standardisierter zellbio-logischer Methoden problemlos etabliert werden. Alle Tiere beider Gruppen {\"u}berlebten den Prim{\"a}reingriff sowie das vierw{\"o}chige Nachbeobachtungsintervall und zeigten dabei keine klinischen Zeichen m{\"o}glicher Komplikationen. Die durchgef{\"u}hrten Laparoskopien und Gastroskopien ergaben bei keinem der Tiere Hinweise auf Leckagen oder lokale Infek-tionsprozesse. Die histologische Aufarbeitung zeigte im Bereich des urspr{\"u}nglichen De-fekts eine bindegewebige {\"U}berbr{\"u}ckung sowie ein beginnendes Remodeling der Magen-schleimhaut in beiden Gruppen. Schlussfolgerungen: Durch die Verkn{\"u}pfung von Einzelprozessen der Zellkultur und dem Großtier-OP konnte ein neues Verfahren zum Verschluss gastrointestinaler Defekt erfolgreich demonstriert und etabliert werden. Das Projekt konnte reibungslos durchge-f{\"u}hrt werden und lieferte Ergebnisse, die dem Goldstandard nicht unterlegen waren. Auf-grund der kleinen Fallzahl und weiterer methodischer Limitationen sind jedoch nur einge-schr{\"a}nkt Schlussfolgerungen m{\"o}glich, weshalb die Durchf{\"u}hrung gr{\"o}ßerer und gut geplan-ter Studien notwendig ist. Die Erkenntnisse dieser Pilotstudie liefern eine solide Basis f{\"u}r die Planung weiterf{\"u}hrender Untersuchungen.}, subject = {Magenkrankheit}, language = {de} } @phdthesis{Bieniussa2024, author = {Bieniussa, Linda Ilse}, title = {Different effects of conditional Knock-Out of Stat3 on the sensory epithelium of the Organ of Corti}, doi = {10.25972/OPUS-35143}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-351434}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Die Cochlea von S{\"a}ugetieren nimmt Schall als Reaktion auf Vibrationen an frequenzabh{\"a}ngigen Positionen entlang des Cochlea-Kanals wahr. Die sensorischen {\"a}ußeren Haarzellen, die von St{\"u}tzzellen umgeben sind, wirken als Signalverst{\"a}rker, indem sie ihre Zelll{\"a}nge ver{\"a}ndern k{\"o}nnen. Dies wird als Elektromotilit{\"a}t bezeichnet. Um eine korrekte elektrische {\"U}bertragung bei mechanischen Kr{\"a}ften zu gew{\"a}hrleisten, ist ein gewisser Widerstand des sensorischen Epithels eine Voraussetzung f{\"u}r die fehlerfreie Weiterleitung von H{\"o}rinformationen. Dieser Widerstand wird durch Mikrotubuli und deren posttranslationalen Modifikationen in den St{\"u}tzzellen des sensorischen Epithels der Cochlea gew{\"a}hrleistet. Stat3 ist ein Transkriptionsfaktor, der an verschiedenen Phosphorylierungsstellen, sowie je nach Zelltyp und aktiviertem Signalweg an vielen zellul{\"a}ren Prozessen wie Differenzierung, Entz{\"u}ndung, Zell{\"u}berleben und Mikrotubuli-Dynamik beteiligt ist. W{\"a}hrend Stat3 ein breites Spektrum an intrazellul{\"a}ren Funktionen hat, stellte sich die Frage, wie und ob Stat3 in den Zellen des Cortischen Organ einen Einfluss auf den H{\"o}rprozess hat. Um dies zu testen, wurde das Cre/loxp-System verwendet, um Stat3 in den {\"a}ußeren Haarzellen oder den St{\"u}tzzellen entweder vor oder nach H{\"o}rbeginn von M{\"a}usen konditional auszuschalten. Um das H{\"o}rverm{\"o}gen zu erfassen, wurden DPOAE- und ABR-Messungen durchgef{\"u}hrt, w{\"a}hrend molekulare und morphologische Untersuchungen mittels Sequenzierung und Immunhistochemie durchgef{\"u}hrt wurden. Eine konditioneller Knock-Out von Stat3 vor und nach dem Beginn des H{\"o}rens in {\"a}ußeren Haarzellen f{\"u}hrt zu leichten H{\"o}rsch{\"a}den, w{\"a}hrend Synapsen, Nervenfasern und Mitochondrien nicht betroffen waren. Die Analyse der Sequenzierung von {\"a}ußeren Haarzellen aus M{\"a}usen mit konditionellem Knock-Out vor dem Beginn des H{\"o}rens ergab eine St{\"o}rung der zellul{\"a}ren Hom{\"o}ostase und der extrazellul{\"a}ren Signale. Ein konditioneller Knock-Out von Stat3 in den {\"a}ußeren Haarzellen nach Beginn des H{\"o}rens f{\"u}hrte zu einem fr{\"u}h-entz{\"u}ndlichen Signalweg mit erh{\"o}hter Zytokinproduktion und der Hochregulierung des NF-κB-Wegs. In den St{\"u}tzzellen f{\"u}hrte ein kondioneller Knock-Out von Stat3 nur nach dem Beginn des H{\"o}rens zu einer H{\"o}rbeeintr{\"a}chtigung. Synapsen, Nervensoma und -fasern waren jedoch von einem konditionellen Knock-Out von Stat3 in St{\"u}tzzellen nicht betroffen. Dennoch war die detyronisierte Modifikation der Mikrotubuli ver{\"a}ndert, was zu einer Instabilit{\"a}t der St{\"u}tzzellen, insbesondere der Phalangealforts{\"a}tze, f{\"u}hrte, was wiederum zu einer Instabilit{\"a}t des Epithels w{\"a}hrend des H{\"o}rvorgangs f{\"u}hrte. Zusammenfassend l{\"a}sst sich sagen, dass ein konditioneller Knock-Out von Stat3 in Zellen des Cortischen Organs zu einer H{\"o}rst{\"o}rung f{\"u}hrte. W{\"a}hrend ein konditioneller Knock-Out in {\"a}ußeren Haarzellen eine erh{\"o}hte Zytokinproduktion zur Folge hatte, verloren die St{\"u}tzzellen ihre Zellstabilit{\"a}t aufgrund einer verminderten detyronisierten Modifikation der Mikrotubuli. Insgesamt deuten die Ergebnisse darauf hin, dass Stat3 ein wichtiges Protein f{\"u}r die H{\"o}rleistung ist. Es sind jedoch weitere Untersuchungen des molekularen Mechanismus erforderlich, um die Rolle von Stat3 in den Zellen des Corti-Organs zu verstehen.}, subject = {Audiologie}, language = {en} } @phdthesis{Krampert2024, author = {Krampert, Laura}, title = {Dynamics of cardiac neutrophil diversity in murine myocardial infarction}, doi = {10.25972/OPUS-34957}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-349576}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {After myocardial infarction, an inflammatory response is induced characterized by a sterile inflammation, followed by a reparative phase in order to induce cardiac healing. Neutrophils are the first immune cells that enter the ischemic tissue. Neutrophils have various functions in the ischemic heart, such as phagocytosis, production of reactive oxygen species or release of granule components. These functions can not only directly damage cardiac tissue, but are also necessary for initiating reparative effects in post-ischemic healing, indicating a dual role of neutrophils in cardiac healing after infarction. In recent years, evidence has been growing that neutrophils show phenotypic and functional differences in distinct homeostatic and pathogenic settings. Preliminary data of my working group using single-cell RNA-sequencing revealed the time- dependent heterogeneity of neutrophils, with different populations showing distinct gene expression profiles in ischemic hearts of mice, including the time-dependent appearance of a SiglecFhigh neutrophil population. To better understand the dynamics of neutrophil heterogeneity in the ischemic heart, my work aimed to validate previous findings at the protein level, as well as to investigate whether the distinct neutrophil populations show functional differences. Furthermore, in vivo depletion experiments were performed in order to modulate circulating neutrophil levels. Hearts, blood, bone marrow and spleens were processed and analyzed from mice after 1 day and 3 days after the onset of cardiac ischemia and analyzed using flow cytometry. Results showed that the majority of cardiac neutrophils isolated at day 3 after myocardial infarction were SiglecFhigh, whereas nearly no SiglecFhigh neutrophils could be isolated from ischemic hearts at day 1 after myocardial infarction. No SiglecFhigh neutrophils could be found in the blood, spleen and bone marrow either after 1 day or 3 days after myocardial infarction, indicating that the SiglecFhigh state of neutrophils is unique to the ischemic cardiac tissue. When I compared SiglecFhigh and SiglecFlow neutrophils regarding their phagocytosis activity and ROS production, SiglecFhigh neutrophils showed a higher phagocytosis ability than their SiglecFlow counterparts, as well as higher ROS production capacity. In vivo depletion experiments could not achieve successful and efficient depletion of cardiac neutrophils either 1 day or 3 days after myocardial infarction, but led to a shift of a higher percentage of SiglecFhigh expressing neutrophils in the depletion group. Bone marrow neutrophil levels only showed partial depletion at day 3 after MI. Regarding blood neutrophils, depletion efficiently reduced circulating neutrophils at both time points, 1 and 3 days after MI. To summarize, this work showed the time-dependent presence of different neutrophil states in the ischemic heart. The main population of neutrophils isolated 3 days after MI showed a high expression of SiglecF, a unique state that could not be detected at different time points or other organs. These SiglecFhigh neutrophils showed functional differences regarding their phagocytosis ability and ROS production. Further investigation is needed to reveal what role these SiglecFhigh neutrophils could play within the ischemic heart. To better target neutrophil depletion in vivo, more efficient or different anti-neutrophil strategies are needed.}, subject = {Neutrophiler Granulozyt}, language = {en} } @phdthesis{Aido2024, author = {Aido, Ahmed}, title = {Development of anti-TNF antibody-gold nanoparticles (anti-TNF-AuNPs)}, doi = {10.25972/OPUS-34921}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-349212}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Gold nanoparticles of diameter ca. 60 nm have been synthesized based on Turkevich and Frens protocols. We have demonstrated that the carboxyl-modified gold nanoparticles can be coupled covalently with antibodies (Ab) of interest using the EDC/NHS coupling procedure. Binding studies with Ab-grafted AuNPs and GpL fusion proteins proved that conjugation of AuNPs with antibodies enables immobilization of antibodies with preservation of a significant antigen binding capacity. More importantly, our findings showed that the conjugation of types of anti-TNF receptors antibodies such as anti-Fn14 antibodies (PDL192 and 5B6) (Aido et al., 2021), anti-CD40, anti-4-1BB and anti-TNFR2 with gold nanoparticles confers them with potent agonism. Thus, our results suggest that AuNPs can be utilized as a platform to immobilize anti-TNFR antibodies which, on the one hand, helps to enhance their agonistic activity in comparison to "free" inactive antibodies by mimicking the effect of cell-anchored antibodies or membrane-bound TNF ligands and, on the other hand, allows to develop new generations of drug delivery systems. These constructs are characterized with their biocompatibility and their tunable synthesis process. In a further work part, we combined the benefits of the established system of Ab-AuNPs with materials used widely in the modern biofabrication approaches such as the photo-crosslinked hydrogels, methacrylate-modified gelatin (GelMA), combined with embedded variants of human cell lines. The acquired results demonstrated clearly that the attaching of proteins like antibodies to gold nanoparticles might reduce their release rate from the crosslinked hydrogels upon the very low diffusion of gold nanoparticles from the solid constructs to the surrounding medium yielding long-term local functioning proteins-attached particles. Moreover, our finding suggests that hydrogel-embedded AuNP-immobilized antibodies, e.g. anti-TNFα-AuNPs or anti-IL1-AuNPs enable local inhibitory functions, To sum up, our results demonstrate that AuNPs can act as a platform to attach anti-TNFR antibodies to enhance their agonistic activity by resembling the output of cell-anchoring or membrane bounding. Gold nanoparticles are considered, thus, as promising tool to develop the next generation of drug delivery systems, which may contribute to cancer therapy. On top of that, the embedding of anti-inflammatory-AuNPs in the biofabricated hydrogel presents new innovative strategy of the treatment of autoinflammatory diseases.}, subject = {Nanopartikel}, language = {en} } @phdthesis{Hoerner2024, author = {H{\"o}rner, Michaela}, title = {The role of inflammation in hereditary spastic paraplegia type 11}, doi = {10.25972/OPUS-30336}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303368}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Hereditary spastic paraplegias (HSPs) are genetically-determined, neurodegenerative disorders characterized by progressive weakness and spasticity of the lower limbs. Spastic paraplegia type 11 (SPG11) is a complicated form of HSP, which is caused by mutations in the SPG11 gene encoding spatacsin, a protein possibly involved in lysosomal reformation. Based on our previous studies demonstrating that secondary neuroinflammation can be a robust amplifier of various genetically-mediated diseases of both the central and peripheral nervous system, we here test the possibility that neuroinflammation may modify the disease outcome also in a mouse model for SPG11. Spg11-knockout (Spg11-/-) mice develop early walking pattern and behavioral abnormalities, at least partially reflecting motor, and behavioral changes typical for patients. Furthermore, we detected a progressive increase in axonal damage and axonal spheroid formation in the white and grey matter compartments of the central nervous system of Spg11-/- mice. This was accompanied by a concomitant substantial increase of secondary inflammation by cytotoxic CD8+ and CD4+ T-lymphocytes. We here provide evidence that disease-related changes can be ameliorated/delayed by the genetic deletion of the adaptive immune system. Accordingly, we provide evidence that repurposing clinically approved immunomodulators (fingolimod/FTY720 or teriflunomide), that are in use for treatment of multiple sclerosis (MS), also improve disease symptoms in mice, when administered in an early (before neural damage) or late (after/during neural damage) treatment regime. This work provides strong evidence that immunomodulation can be a therapeutic option for the still untreatable SPG11, including its typical neuropsychological features. This poses the question if inflammation is not only a disease amplifier in SPG11 but can act as a unifying factor also for other genetically mediated disorders of the CNS. If true, this may pave the way to therapeutic options in a wide range of still untreatable, primarily genetic, neurological disorders by repurposing approved immunomodulators.}, subject = {Entz{\"u}ndung}, language = {en} } @phdthesis{Blahetek2024, author = {Blahetek, Gina}, title = {The role of alternative intronic polyadenylation on microRNA biogenesis in melanoma}, doi = {10.25972/OPUS-25474}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-254743}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {mRNA is co- or post-transcriptionally processed from a precursor mRNA to a mature mRNA. In addition to 5'capping and splicing, these modifications also include polyadenylation, the addition of a polyA tail to the 3'end of the mRNA. In recent years, alternative polyadenylation in particular has increasingly been taken into account as a mechanism for regulating gene expression. It is assumed that approximately 70-75 \% of human protein coding genes contain alternative polyadenylation signals, which are often located within intronic sequences of protein-coding genes. The use of such polyadenylation signals leads to shortened mRNA transcripts and thus to the generation of C-terminal shortened protein isoforms. Interestingly, the majority of microRNAs, small non-coding RNAs that play an essential role in post-transcriptional gene regulation, are also encoded in intronic sequences of protein-coding genes and are co-transcriptionally expressed with their host genes. The biogenesis of microRNA has been well studied and is well known, but mechanisms that may influence the expression regulation of mature microRNAs are just poorly understood. In the presented work, I aimed to investigate the influence of alternative intronic polyadenylation on the biogenesis of microRNAs. The human ion channel TRPM1 could already be associated with melanoma pathogenesis and truncated isoforms of this protein have already been described in literature. In addition, TRPM1 harbors a microRNA, miR211, in its sixth intron, which is assumed to act as a tumor suppressor. Since both, TRPM1 and miR211 have already been associated with melanoma pathogenesis, the shift towards truncated transcripts during the development of various cancers is already known and it has been shown that certain microRNAs play a crucial role in the development and progression of melanoma, melanoma cell lines were used as an in vitro model for these investigations.}, subject = {Polyadenylierung}, language = {en} } @phdthesis{Mut2023, author = {Mut, J{\"u}rgen}, title = {Synthese komplexer funktionaler Mono- und Oligosaccharid-Bausteine zur Untersuchung und Modifikation von Membranoberfl{\"a}chen humaner mesenchymaler Stromazellen}, doi = {10.25972/OPUS-32065}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320654}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Bei der Biofabrikation werden Zellen mit einem Biomaterial versetzt (vereint werden diese als Biotinte definiert) und durch additive Fertigungsmethoden wie dem 3D-Druck zu hierarchischen Strukturen aufgebaut. Zur Herstellung von k{\"u}nstlichen Gewebe und zuk{\"u}nftig auch von funktionalen Organen ist ein detailliertes Zellverst{\"a}ndnis essentiell. Im Rahmen dieser Dissertation wurden Systeme generiert, um die Zellmembranen von mesenchymalen Stromazellen gezielt zu ver{\"a}ndern und um die Modifikationen zu charakterisieren. Durch Inkubation mit unnat{\"u}rlichen Zuckern werden diese von Zellen aufgenommen und in den Zellmetabolismus eingeschleust und auf die Glycoproteine {\"u}bertragen. Diese Methode ist als metabolic glycoengineering bekannt. Dazu wurden diverse humane Saccharid-Analoga mit bioorthogonalen Gruppen (Azid oder Alkin) synthetisiert. Alle in dieser Arbeit vorgestellten Molek{\"u}le wurden NMR-spektroskopisch als auch massenspektrometrisch charakterisiert. Die acetylierten Mannosamin-Derivate konnten {\"u}ber zwei Stufen und die Sialins{\"a}ure-Derivate {\"u}ber sechs Stufen synthetisiert werden. Sialins{\"a}uren sind die terminalen Zucker an Glycanketten von Proteinen mit wichtigen biologischen Funktionen. Im Rahmen des SFB TRR225 konnte in Kooperation mit der Gruppe von Prof. Dr. R. Ebert der Einbau der Saccharide in mesenchymalen Stromazellen durch Fluoreszenzmikroskopie evaluiert werden. Aufgrund des effizienteren Einbaus der Sialins{\"a}ure mit Alkingruppe gegen{\"u}ber der mit Azidgruppe, wurde dieser in den folgenden massenspektrometrischen Analysen eingesetzt. Die Messungen der markierten Glycoproteine wurden von Dr. Marc Driessen durchgef{\"u}hrt und der metabolische Einbau von SiaNAl und Ac4ManNAl in den Stromazellen gegen{\"u}bergestellt. 55 Glycoproteine konnten durch SiaNAl und 94 durch Ac4ManNAl charakterisiert werden. Ein Abgleich der Proteindatenbanken eine Anreicherung von Proteine durch F{\"u}tterung von SiaNAl die in Signaltransduktion, Zellkontakte und Differenzierung involviert sind, womit metabolic glycoengineering prinzipiell zur Optimierung von Biofabrikationsprozessen genutzt werden kann.}, subject = {Glykane}, language = {de} } @phdthesis{Truongvan2023, author = {Truongvan, Ngoc}, title = {Understanding the dual specificity of UBA6}, doi = {10.25972/OPUS-24457}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-244579}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Ubiquitylation is a protein post translational modification, in which ubiquitin is covalently attached to target protein substrates resulting in diverse cellular outcomes. Besides ubiquitin, various ubiquitin-like proteins including FAT10 exist, which are also conjugated to target proteins. The underlying modification mechanisms are conserved. In the initial step, ubiquitin or a ubiquitin-like protein is thioester-linked to a catalytic cysteine in the E1activating enzyme in an ATP-dependent manner. The respective protein modifier is then transferred to an E2 conjugating enzyme in a transthioesterification reaction. Finally, an E3 ubiquitin ligase E3 catalyzes the covalent attachment of the protein modifier to a substrate. In the case of ubiquitin, multiple ubiquitin molecules can be attached to a substrate in the form of either linear or branched polyubiquitin chains but also as single ubiquitin modifications. Depending on the nature of the ubiquitin chain, the substrates are destined to various cellular processes such as their targeted destruction by the proteasome but also non-degradative outcomes may occur. As stated above FAT10 is a ubiquitin-like protein modifier which typically targets proteins for proteasomal degradation. It consists of two ubiquitin-like domains and is mainly expressed in cells of the human immune system. The reported involvement of FAT10 modifications in cancers and other diseases has caught the attention of the scientific community as an inhibition of the FAT10ylation process may provide avenues for novel therapeutic approaches. UBA6 is the E1 activating enzyme that resides at the apex of the FAT10 proteasomal degradation pathway. UBA6 not only recognizes FAT10 but can also activate ubiquitin as efficiently as the ubiquitin specific E1 UBA1. The dual specificity of UBA6 may complicate the inhibition FAT10ylation since targeting the active site of UBA6 will also inhibit the UBA6-catalyzed ubiquitin activation. Therefore, it is important to understand the underlying principles for the dual specificity of UBA6 prior to the development of compounds interfering with FAT10ylation. In this thesis important novel insights into the structure and function of UBA6 were derived by X-ray crystallography and biochemical methods. The first crystal structure of UBA6 reveals the multidomain architecture of this enzyme in atomic detail. The enzyme is composed of a rigid core including its active and inactive adenylation domains as well as a 4 helix bundle. Overall, the molecule adopts a "Y" shape architecture with the core at the base and the first and second catalytic half domains forming one arm of the "Y" and the ubiquitin fold domain constituting the other arm. While UBA6 shares the same domain architecture as UBA1, substantial differences were revealed by the crystal structure. In particular, the first catalytic half domain undergoes a significant shift to a position more distal from the core. This rigid body movement is assumed to generate room to accommodate the second ubiquitin-like domain of FAT10. Differences are also observed in a hydrophobic platform between the core and the first catalytic half domain and the adenylation active site in the core, which together from the binding sites for ubiquitin and FAT10. Site directed mutagenesis of key residues in these areas altered the UBA6-catalyzed activation of ubiquitin and FAT10. UBA6 variants were generated with the goal of trying to block the activation of FAT10 while still maintaining that of ubiquitin activation, in order to fully explain the dual specificity of UBA6. However, none of these mutations could block the activation of FAT10, while some of these UBA6 variants blocked ubiquitin activation. Preliminary inhibition assays with a group of E1 inhibitors belonging to the adenosyl sulfamate family demonstrated potent inhibition of FAT10ylation for two compounds. The dual specificity of UBA6 hence needs to be further examined by biochemical and structural methods. In particular, the structure of a complex between UBA6 and ubiquitin or FAT10 would provide key insights for further biochemical studies, ultimately allowing the targeted inhibition of the FAT10ylation machinery.}, language = {en} } @phdthesis{Eckert2023, author = {Eckert, Ina-Nathalie}, title = {Molecular markers of myeloid-derived suppressor cells and their functional role for homing and in disease models in mice}, doi = {10.25972/OPUS-31997}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-319974}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {MDSCs are suppressive immune cells with a high relevance in various pathologies including cancer, autoimmunity, and chronic infections. Surface marker expression of MDSCs resembles monocytes and neutrophils which have immunostimulatory functions instead of suppressing T cells. Therefore, finding specific surface markers for MDSCs is important for MDSC research and therapeutic MDSC manipulation. In this study, we analyzed if the integrin VLA-1 has the potential as a novel MDSC marker. VLA-1 was expressed by M-MDSCs but not by G-MDSCs as well as by Teff cells. VLA-1 deficiency did not impact iNOS expression, the distribution of M-MDSC and G-MDSC subsets, and the suppressive capacity of MDSCs towards na{\"i}ve and Teff cells in vitro. In mice, VLA-1 had no effect on the homing capability of MDSCs to the spleen, which is a major reservoir for MDSCs. Since the splenic red pulp contains collagen IV and VLA-1 binds collagen IV with a high affinity, we found MDSCs and Teff cells in this area as expected. We showed that T cell suppression in the spleen, indicated by reduced T cell recovery and proliferation as well as increased apoptosis and cell death, partially depended on VLA-1 expression by the MDSCs. In a mouse model of multiple sclerosis, MDSC injection prior to disease onset led to a decrease of the disease score, and this effect was significantly reduced when MDSCs were VLA-1 deficient. The expression of Sema7A by Teff cells, a ligand for VLA-1 which is implicated in negative T cell regulation, resulted in a slightly stronger Teff cell suppression by MDSCs compared to Sema7A deficient T cells. Live cell imaging and intravital 2-photon microscopy showed that the interaction time of MDSCs and Teff cells was shorter when MDSCs lacked VLA 1 expression, however VLA-1 expression had no impact on MDSC mobility. Therefore, the VLA-1-dependent interaction of MDSC and Teff cells on collagen IV in the splenic red pulp is implicated MDSC-mediated Teff cell suppression.}, subject = {Immunologie}, language = {en} } @phdthesis{Holzmeister2023, author = {Holzmeister, Ib}, title = {Branched silica precursors as additives for mineral bone cements}, doi = {10.25972/OPUS-27504}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-275044}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Mineral biocements are brittle materials, which usually results in catastrophic failure during mechanical loading. Here, previous works demonstrated the feasibility of reducing brittleness by a dual-setting approach, in which a silica sol was simultaneously gelled during the setting of a brushite forming cement. The current thesis aimed at further improving this concept by both using a novel silicate based cement matrix for an enhanced bonding between cement and silica matrix as well as multifunctional silica precursors to increase the network density of the gel. Due to its well-known biocompatibility and osteogenic regeneration capacity, baghdadite was chosen as mineral component of such composites. This required in a first approach the conversion of baghdadite ceramics into self-setting cement formulations. This was investigated initially by using baghdadite as reactive filler in a brushite forming cement (Chapter 4). Here, the ß-TCP component in a equimolar mixture of ß-TCP and acidic monocalcium phosphate anhydrous was subsequently replaced by baghdadite at various concentrations (0, 5, 10, 20, 30, 50, and 100 wt\%) to study the influence on physicochemical cement properties such as mechanical performance, radiopacity, phase composition and microstructure. X-ray diffraction profiles demonstrated the dissolution of baghdadite during the cement reaction without affecting the crystal structure of the precipitated brushite phase. In addition, EDX analysis showed that calcium is homogeneously distributed in the cement matrix, while zirconium and silicon form cluster-like aggregates ranging in size from a few micrometers to more than 50 µm. X-ray images and µ-CT analyses indicate improved X-ray visibility with increased incorporation of baghdadite in brushite cement, with an aluminum equivalent thickness nearly doubling at a baghdadite content of 50 wt\%. At the same time, the compressive strength of brushite cement increased from 12.9 ± 3.1 MPa to 21.1 ± 4.1 MPa at a baghdadite content of 10 wt\%. Cell culture medium conditioned with powdered brushite cement approached physiological pH values when increasing amounts of baghdadite were added to the cement (pH = 6.47 for pure brushite, pH = 7.02 for brushite with 20 wt\% baghdadite substitution). Baghdadite substitution also affected the ion content in the culture medium and thus the proliferation activity of primary human osteoblasts in vitro. The results demonstrated for the first time the suitability of baghdadite as a reactive cement additive for improving the radiopacity, mechanical performance, and cytocompatibility of brushite cements. A second approach (Chapter 5) aimed to produce single component baghdadite cements by an increase of baghdadite solubility to initiate a self-setting cement reaction. For this, the material was mechanically activated by longer grinding times of up to 24h leading to both a decrease in particle and crystallite size as well as a partial amorphization of baghdadite. Baghdadite cements were formed by adding water at a powder to liquid ratio of 2.0 g/ml. Maximum compressive strengths were determined to be ~2 MPa after 3 days of setting for a 24-hour ground material. Inductively coupled plasma mass spectrometry (ICP-MS) measurements showed an incongruent dissolution profile of the set cements, with preferential dissolution of calcium and only minor release of zirconium ions. Cement formation occurs under alkaline conditions, with the unground raw powder resulting in a pH of 11.9 during setting, while prolonged grinding increases the pH to about 12.3. Finally, mechanically activated baghdadite cements were combined with inorganic silica networks (Chapter 6) to create dual-setting cements with a further improvement of mechanical performance. While a modification of the cement pastes with a TEOS derived sol was already thought to improve strength, it was hypothesized that using multi-arm silica precursors can further enhance their mechanical performance due to a higher network density. In addition, this should also reduce pore size of both gels and cement and hence will be able to adjust the release kinetics of incorporated drugs. For this, multi-armed silica precursors were synthesized by the reaction of various multivalent alcohols (ethylene glycol, glycerine, pentaerythrit) with an isocyanate modified silica precursor. After hydrolysis under acidic conditions, the sols were mixed with baghdadite cement powders in order to allow a simultaneous gel formation and cement setting. Since the silica monomers have a high degree of linkage sites, this resulted in a branched network that interpenetrated with the growing cement crystals. In addition to minor changes in the crystalline phase composition as determined by X-ray diffraction, the novel composites exhibited improved mechanical properties with up to 20 times higher compressive strength and further benefit from an about 50\% lower overall porosity than the reference pure baghdadite cement. In addition, the initial burst release of the model drug vancomycin was completely inhibited by the added silica matrix. This observation was verified by testing for the antimicrobial activity with Staphylococcus aureus by measuring the inhibition zones of selected samples after 24 h and 48 h, whereas the antimicrobial effectiveness of a constant vancomycin release could be demonstrated. The current thesis clearly demonstrated the high potential of baghdadite as a cement formulation for medical application. The initially poor mechanical properties of such cements can be overcome by special processing techniques or by combination with silica networks. The achieved mechanical performance is > 10 MPa and hence suitable for bone replacement under non-load bearing conditions. The high intrinsic radiopacity as well as the alkaline pH during setting may open the way ahead to further dental applications, e.g. as root canal sealers or filler in dental composites. Here, the high pH is thought to lead to antimicrobial properties of such materials similar to commonly applied calcium hydroxide or calcium silicates, however combined with an intrinsic radiopacity for X-ray imaging. This would simplify such formulations to single component materials which are less susceptible to demixing processes during transport, storage or processing.}, subject = {Zement}, language = {en} } @phdthesis{Stroemsdoerfer2023, author = {Str{\"o}msd{\"o}rfer, Johanna}, title = {Einfluss von Vibrationstraining auf k{\"o}rperliche Leistungsf{\"a}higkeit, Alltagsaktivit{\"a}t und Lebensqualit{\"a}t von Patienten mit monoklonaler Gammopathie}, doi = {10.25972/OPUS-32089}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320895}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Patienten mit monoklonaler Gammopathie unklarer Signifikanz haben ein erh{\"o}htes Risiko an einer Osteoporose, Knochenbr{\"u}chen oder einer reduzierten Leistungsf{\"a}higkeit zu leiden. Bisher hat sich noch keine Therapie zur Pr{\"a}vention dieser Komplikationen etabliert. Das Ziel unserer Studie war es, WBV als eine m{\"o}gliche Trainingsmethode zu pr{\"u}fen und den Einfluss auf die Fitness, Alltagsaktivit{\"a}t und Lebensqualit{\"a}t von Patienten mit monoklonaler Gammopathie zu untersuchen. Hierf{\"u}r haben 15 Probanden mit MGUS/SMM ein Trainingsprogramm {\"u}ber 3 bzw. 6 Monate mit zwei Trainingseinheiten pro Woche f{\"u}r jeweils 30 Minuten absolviert. Die k{\"o}rperliche Leistungsf{\"a}higkeit wurde anhand verschiedener Funktionstests sowie der Erhebung von K{\"o}rpermaßen betrachtet. Die Alltagsaktivit{\"a}t wurde mittels Fitnesstrackern untersucht. Anhand von 3 verschiedenen Frageb{\"o}gen wurde zudem der Einfluss auf die Lebensqualit{\"a}t der Probanden durch das Training ermittelt. Zusammenfassend zeigte sich eine deutliche Verbesserung der Fitness und Ausdauer der Probanden, die Alltagsaktivit{\"a}t und die Lebensqualit{\"a}t wurden nicht durch das Vibrationstraining beeinflusst.}, subject = {Vibrationstraining}, language = {de} } @phdthesis{Schwarz2023, author = {Schwarz, Jessica Denise}, title = {Genome-wide reporter screens identify transcriptional regulators of ribosome biogenesis}, doi = {10.25972/OPUS-27901}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-279010}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Cellular growth and proliferation are among the most important processes for cells and organisms. One of the major determinants of these processes is the amount of proteins and consequently also the amount of ribosomes. Their synthesis involves several hundred proteins and four different ribosomal RNA species, is highly coordinated and very energy-demanding. However, the molecular mechanims of transcriptional regulation of the protein-coding genes involved, is only poorly understood in mammals. In this thesis, unbiased genome-wide knockout reporter screens were performed, aiming to identify previously unknown transcriptional regulators of ribosome biogenesis factors (RiBis), which are important for the assembly and maturation of ribosomes, and ribosomal proteins (RPs), which are ribosomal components themself. With that approach and follow-up (validation) experiments, ALDOA and RBM8A among others, could be identified as regulators of ribosome biogenesis. Depletion of the glycolytic enzyme ALDOA led to a downregulation of RiBi- and RPpromoter driven reporters on protein and transcript level, as well as to a downregulation of ribosome biogenesis gene transcripts and of mRNAs of other genes important for proliferation. Reducing the amount of the exon junction complex protein RBM8A, led to a more prominent downregulation of one of the fluorescent reporters, but this regulation was independent of the promoter driving the expression of the reporter. However, acute protein depletion experiments in combination with nascent RNA sequencing (4sU-Seq) revealed, that mainly cytosolic ribosomal proteins (CRPs) were downregulated upon acute RBM8A withdrawal. ChIP experiments showed RBM8A binding to promoters of RP genes, but also to other chromatin regions. Total POL II or elongating and initiating POL II levels were not altered upon acute RBM8A depletion. These data provide a starting point for further research on the mechanisms of transcriptional regulation of RP and RiBi genes in mammals.}, subject = {Ribosom}, language = {en} } @phdthesis{Imdahl2023, author = {Imdahl, Fabian Dominik}, title = {Development of novel experimental approaches to decipher host-pathogen interaction at the single-cell level}, doi = {10.25972/OPUS-28943}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289435}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Abstract: COVID-19 has impressively shown how quickly an emerging pathogen can have a massive impact on our entire lives and show how infectious diseases spread regardless of national borders and economic stability. We find ourselves in a post-antibiotic era and have rested too long on the laurels of past research, so today more and more people are dying from infections with multi-resistant germs. Infections are highly plastic and heterogeneous processes that are strongly dependent on the individual, whether on the host or pathogen side. Improving our understanding of the pathogenicity of microorganisms and finding potential targets for a completely new class of drugs is a declared goal of current basic research. To tackle this challenge, single-cell RNA sequencing (scRNA-seq) is our most accurate tool. In this thesis we implemented different state of the art scRNA-seq technologies to better understand infectious diseases. Furthermore, we developed a new method which is capable to resolve the transcriptome of a single bacterium. Applying a poly(A)-independent scRNA-seq protocol to three different, infection relevant growth conditions we can report the faithful detection of growth-dependent gene expression patterns in individual Salmonella Typhimurium and Pseudomonas aeruginosa bacteria. The data analysis shows that this method not only allows the differentiation of various culture conditions but can also capture transcripts across different RNA species. Furthermore, using state of the art imaging and single-cell RNA sequencing technologies, we comprehensively characterized a human intestinal tissue model which in further course of the project was used as a Salmonella enterica serovar Typhimurium infection model. While most infection studies are conducted in mice, lacking a human intestinal physiology, the in vitro human tissue model allows us to directly infer in vivo pathogenesis. Combining immunofluorescent imaging, deep single-cell RNA sequencing and HCR-FISH, applied in time course experiments, allows an unseen resolution for studying heterogeneity and the dynamics of Salmonella infection which reveals details of pathogenicity contrary to the general scientific opinion.}, subject = {Salmonella}, language = {en} } @phdthesis{Baumann2023, author = {Baumann, Juliane}, title = {Studies on the influence of mutations in the Myh9 gene on platelet function}, doi = {10.25972/OPUS-28795}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287953}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The platelet cytoskeleton ensures normal size and discoid shape under resting conditions and undergoes immediate reorganization in response to changes in the extracellular environment through integrin-based adhesion sites, resulting in actomyosin-mediated contractile forces. Mutations in the contractile protein non-muscle myosin heavy chain IIA display, among others, macrothrombocytopenia and a mild to moderate bleeding tendency in human patients. It is insufficiently understood which factors contribute to the hemostatic defect found in MYH9-related disease patients. Therefore, a better understanding of the underlying biophysical mechanisms in thrombus formation and stabilization is warranted. This thesis demonstrates that an amino acid exchange at the positions 702, 1424 and 1841 in the heavy chain of the contractile protein non-muscle myosin IIA, caused by heterozygous point mutations in the gene, resulted in macrothrombocytopenia and increased bleeding in mice, reflecting the clinical hallmark of the MYH9-related disease in human patients. Basic characterization of biological functions of Myh9 mutant platelets revealed overall normal surface glycoprotein expression and agonist-induced activation when compared to wildtype platelets. However, myosin light chain phosphorylation after thrombin-activation was reduced in mutant platelets, resulting in less contractile forces and a defect in clot retraction. Altered biophysical characteristics with lower adhesion and interaction forces of Myh9 mutant platelets led to reduced thrombus formation and stability. Platelets from patients with the respective mutations recapitulated the findings obtained with murine platelets, such as impaired thrombus formation and stiffness. Besides biological and biophysical characterization of mutant platelets from mice and men, treatment options were investigated to prevent increased bleeding caused by reduced platelet forces. The antifibrinolytic agent tranexamic acid was applied to stabilize less compact thrombi, which are presumably more vulnerable to fibrinolysis. The hemostatic function in Myh9 mutant mice was improved by interfering with the fibrinolytic system. These results show the beneficial effect of fibrin stabilization to reduce bleeding in MYH9-related disease.}, subject = {Thrombozyt}, language = {en} } @phdthesis{PaciosMichelena2023, author = {Pacios Michelena, Anabel}, title = {Molecular insights into the complex formed by the actin cytoskeleton related protein VASP and the inhibitory postsynaptic scaffolding protein gephyrin}, doi = {10.25972/OPUS-21337}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-213373}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Gephyrin is a 93 kDa moonlighting protein, which is involved in the last two steps of the molybdenum cofactor (Moco) biosynthesis pathway while at the same time playing a central role in the anchoring, clustering and stabilization of glycine receptors (GlyRs) ...}, language = {en} } @phdthesis{Altmann2023, author = {Altmann, Stephan}, title = {Characterization of Metabolic Glycoengineering in Mesenchymal Stromal Cells for its Application in thermoresponsive Bioinks}, doi = {10.25972/OPUS-29100}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-291003}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {This work developed during the first funding period of the subproject B05 in the framework of the interdisciplinary research consortium TRR 225 'From the Fundamentals of Biofabrication toward functional Tissue Models' and was part of a cooperation between the Orthopedic Department represented by Prof. Dr. Regina Ebert and the Institute of Organic Chemistry represented by Prof. Dr. J{\"u}rgen Seibel. This project dealed with cellular behavior during the bioprinting process and how to influence it by modifying the cell glycocalyx with functional target molecules. The focus was on the impact of potential shear stress, that cells experience when they get processed in thermoresponsive bioinks, and a way to increase the cell stiffness via metabolic glycoengineering to attenuate shear forces. For the characterization of the metabolic glycoengineering, four different peracetylated and four non-acetylated modified monosaccharides (two mannose and two sialic acid sugars) were tested in primary human mesenchymal stromal cells (hMSC) and telomerase-immortalized hMSC (hMSC-TERT). Viability results demonstrated a dose-dependent correlation for all sugars, at which hMSC-TERT seemed to be more susceptible leading to lower viability rates. The assessment of the incorporation efficiencies was performed by click chemistry using fluorescent dyes and revealed also a dose-dependent correlation for all mannose and sialic acid sugars, while glucose and galactose variants were not detected in the glycocalyx. However, incorporation efficiencies were highest when using mannose sugars in the primary hMSC. A subsequent analysis of the temporal retention of the incorporated monosaccharides showed a constant declining fluorescence signal up to 6 d for azido mannose in hMSC-TERT, whereas no signal could be detected for alkyne mannose after 2 d. Investigation of the differentiation potential and expression of different target genes revealed no impairment after incubation with mannose sugars, indicating a normal phenotype for hMSC-TERT. Following the successful establishment of the method, either a coumarin derivative or an artificial galectin 1 ligand were incorporated into the cell glycocalyx of hMSC-TERT as functional target molecule. The biophysical analysis via shear flow deformation cytometry revealed a slightly increased cell stiffness and lowered fluidity for both molecules. A further part of this project aimed to control lectin-mediated cell adhesion by artificial galectin 1 ligands. As that hypothesis was settled in the work group of Prof. Dr. J{\"u}rgen Seibel, this work supported with an initial characterization of galectin 1 as part of the hMSC biology. A stable galectin 1 expression at gene and protein level in both hMSC and hMSC-TERT could be confirmed, at which immunocytochemical stainings could detect the protein only in the glycocalyx. The treatment of hMSC-TERT with a galectin 1 ligand in different concentrations did not show an altered gene expression of galectin 1. However, these first data in addition to the investigation of stiffness confirmed the applicability of specific and artificial IV galectin 1 ligands in biofabrication approaches to alter cell properties of hMSC. To conclude, metabolic glycoengineering has been successfully implemented in hMSC and hMSC-TERT to introduce glycocalyx modifications which reside there for several days. A proof of concept was carried out by the increase of cell stiffness and fluidity by the incorporation of a coumarin derivative or an artificial galectin 1 ligand. For the characterization of shear stress impact on cells after printing in thermoresponsive bioinks, the processing of hMSC-TERT (mixing or additionally printing) with Pluronic F127 or Polyoxazoline-Polyoxazine (POx-POzi) polymer solution was investigated. While there were no changes in viability when using POx-POzi bioink, processing with Pluronic F127 indicated slightly lower viability and increased apoptosis activity. Assessment of cellular responses to potential shear stress showed no reorganization of the cytoskeleton independent of the bioink, but highly increased expression of the mechanoresponsive proto-oncogene c Fos which was more pronounced when using Pluronic F127 and just mixed with the bioinks. Interestingly, processing of the mechanoresponsive reporter cell line hMSC-TERT-AP1 revealed slightly elevated mechanotransduction activity when using POx-POzi polymer and just mixed with the bioinks as well. In conclusion, hMSC-TERT embedded in thermoresponsive bioinks might shortly experience shear stress during the printing process, but that did not lead to remarkable cell damage likely due to the rheological properties of the bioinks. Furthermore, the printing experiments also suggested that cells do not sense more shear stress when additionally printed.}, subject = {Glykobiologie}, language = {en} } @phdthesis{Seeger2023, author = {Seeger, Fabian Reinhard}, title = {Moderators of exposure-based treatment outcome in anxiety disorders: an fMRI approach}, doi = {10.25972/OPUS-21435}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-214356}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Even though exposure-based cognitive behavioral therapy (CBT) constitutes a first-line treatment for anxiety disorders, a substantial proportion of patients does not respond in a clinically significant manner. The identification of pre-treatment patient characteristics that are associated with treatment outcome might aid in improving response rates. Therefore, the present doctoral thesis aimed at investigating moderators of treatment outcome in anxiety disorders: first, we investigated the neural correlates of comorbidity among primary panic disorder/agoraphobia (PD/AG) and secondary social anxiety disorder (SAD) moderating treatment outcome towards exposure-based CBT. Second, pre-treatment functional resting-state connectivity signatures of treatment response in specific phobia were studied. Within the first study, we compared PD/AG patients with or without secondary SAD regarding their clinical and neurofunctional outcome towards a manualized CBT treatment focusing on PD/AG symptoms. Prior to treatment, PD/AG+SAD compared to PD/AG-SAD patients exhibited a specific neural signature within the temporal lobe, which was attenuated to the level of PD/AG-SAD patients afterwards. CBT was equally effective in both groups. Thus, comorbidity among those two anxiety disorders did not alter treatment outcome substantially. This might be due to the high overlap of shared pathophysiological features within both disorders. In the second study, we assessed pre-treatment functional resting-state connectivity within a sample of spider phobic patients that were treated with massed in virtuo exposure. We found responders already prior to treatment to be characterized by stronger inhibitory frontolimbic connectivity as well as heightened connectivity between the amygdala and regions related to the ventral visual stream. Furthermore, patients demonstrating high within-session extinction exhibited pronounced intrinsic prefrontal connectivity. Our results point to responders exhibiting a brain prepared for the mechanism of action of exposure. Taken together, results highlight the major impact of pre-treatment characteristics on treatment outcome. Both, PD/AG+SAD patients as well as responders within the SpiderVR study exhibited heightened activation or connectivity within the ventral visual pathway and the amygdala. Pronounced visual processing together with enhanced executive control and emotion regulation seem to constitute a fruitful soil for successful exposure. The results provide starting points for personalized treatment approaches in order to improve treatment success in the anxiety disorders. Future studies are needed to investigate the benefit of neuroscientifically informed CBT augmentation strategies such as repetitive transcranial magnetic stimulation.}, subject = {Angstst{\"o}rung}, language = {en} } @phdthesis{Schilcher2023, author = {Schilcher, Felix}, title = {Regulation of the nurse-forager transition in honeybees (\(Apis\) \(mellifera\))}, doi = {10.25972/OPUS-28935}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289352}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Honeybees are among the few animals that rely on eusociality to survive. While the task of queen and drones is only reproduction, all other tasks are accomplished by sterile female worker bees. Different tasks are mostly divided by worker bees of different ages (temporal polyethism). Young honeybees perform tasks inside the hive like cleaning and nursing. Older honeybees work at the periphery of the nest and fulfill tasks like guarding the hive entrance. The oldest honeybees eventually leave the hive to forage for resources until they die. However, uncontrollable circumstances might force the colony to adapt or perish. For example, the introduced Varroa destructor mite or the deformed wing virus might erase a lot of in-hive bees. On the other hand, environmental events might kill a lot of foragers, leaving the colony with no new food intake. Therefore, adaptability of task allocation must be a priority for a honeybee colony. In my dissertation, I employed a wide range of behavioral, molecular biological and analytical techniques to unravel the underlying molecular and physiological mechanisms of the honeybee division of labor, especially in conjunction with honeybee malnourishment. The genes AmOARα1, AmTAR1, Amfor and vitellogenin have long been implied to be important for the transition from in-hive tasks to foraging. I have studied in detail expression of all of these genes during the transition from nursing to foraging to understand how their expression patterns change during this important phase of life. My focus lay on gene expression in the honeybee brain and fat body. I found an increase in the AmOARα1 and the Amforα mRNA expression with the transition from in-hive tasks to foraging and a decrease in expression of the other genes in both tissues. Interestingly, I found the opposite pattern of the AmOARα1 and AmTAR1 mRNA expression in the honeybee fat body during orientation flights. Furthermore, I closely observed juvenile hormone titers and triglyceride levels during this crucial time. Juvenile hormone titers increased with the transition from in-hive tasks to foraging and triglyceride levels decreased. Furthermore, in-hive bees and foragers also differ on a behavioral and physiological level. For example, foragers are more responsive towards light and sucrose. I proposed that modulation via biogenic amines, especially via octopamine and tyramine, can increase or decrease the responsiveness of honeybees. For that purpose, in-hive bees and foragers were injected with both biogenic amines and the receptor response was quantified 1 using electroretinography. In addition, I studied the behavioral response of the bees to light using a phototaxis assay. Injecting octopamine increased the receptor response and tyramine decreased it. Also, both groups of honeybees showed an increased phototactic response when injected with octopamine and a decreased response when injected with tyramine, independent of locomotion. Additionally, nutrition has long been implied to be a driver for division of labor. Undernourished honeybees are known to speed up their transition to foragers, possibly to cope with the missing resources. Furthermore, larval undernourishment has also been implied to speed up the transition from in-hive bees to foragers, due to increasing levels of juvenile hormone titers in adult honeybees after larval starvation. Therefore, I reared honeybees in-vitro to compare the hatched adult bees of starved and overfed larvae to bees reared under the standard in-vitro rearing diet. However, first I had to investigate whether the in-vitro rearing method affects adult honeybees. I showed effects of in-vitro rearing on behavior, with in-vitro reared honeybees foraging earlier and for a shorter time than hive reared honeybees. Yet, nursing behavior was unaffected. Afterwards, I investigated the effects of different larval diets on adult honeybee workers. I found no effects of malnourishment on behavioral or physiological factors besides a difference in weight. Honeybee weight increased with increasing amounts of larval food, but the effect seemed to vanish after a week. These results show the complexity and adaptability of the honeybee division of labor. They show the importance of the biogenic amines octopamine and tyramine and of the corresponding receptors AmOARα1 and AmTAR1 in modulating the transition from inhive bees to foragers. Furthermore, they show that in-vitro rearing has no effects on nursing behavior, but that it speeds up the transition from nursing to foraging, showing strong similarities to effects of larval pollen undernourishment. However, larval malnourishment showed almost no effects on honeybee task allocation or physiology. It seems that larval malnourishment can be easily compensated during the early lifetime of adult honeybees.}, subject = {Biene}, language = {en} } @phdthesis{Erbacher2023, author = {Erbacher, Christoph}, title = {Systemic and local mechanisms of small fiber pathology in female patients with fibromyalgia syndrome}, doi = {10.25972/OPUS-29020}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-290203}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Fibromyalgia syndrome (FMS) is a largely heterogeneous chronic pain syndrome of unclear pathophysiology, which lacks objective diagnostics and specific treatment. An immune-related shift towards a pro-inflammatory profile is discussed at a systemic level. Small fiber pathology (SFP) and local participation of non-neuronal skin cells like keratinocytes in cutaneous nociception are potential peripheral contributors. Small RNAs, particularly microRNAs (miRs) and newly described tRNA fragments (tRFs) act as posttranscriptional key regulators of gene expression and may modulate systemic and peripheral cell pathways. On cellular level, the exact mechanisms of keratinocyte-intraepidermal nerve fiber (IENF) interaction in the skin are insufficiently understood. Via small RNA sequencing and quantitative real-time PCR, we investigated miR and tRF signatures in whole blood cells and skin biopsy-derived keratinocytes of female FMS patients versus healthy controls. We applied gene target prediction analysis to uncover underlying cellular pathways affected by dysregulated small RNAs. Altered FMS small RNAs from blood were compared with their expression in disease controls, i.e. Parkinson`s patients and patients with major depression and chronic pain. Association of SFP with small RNAs was investigated via correlation with clinical parameter. To explore keratinocyte-nerve fiber interactions with high relevance for SFP and cutaneous nociception, we adapted a super-resolution array tomography (srAT) approach and expansion microscopy (ExM) for human skin samples. Further, we created a fully human 2D co-culture model of primary keratinocytes and induced pluripotent stem cell derived sensory neurons. Blood miR deregulation indicated systemic modulation of immune processes exerted by CholinomiRs and by miRs targeting the FoxO signaling pathway. Short sized tRFs were associated with mRNA metabolism and splicing. This supports the hypothesis of an inflammatory/autoimmunity component in FMS. Expression of blood small RNAs in FMS were discriminative against disease controls, highlighting their potential as objective biomarker. Blood small RNAs were predominantly upregulated and correlations between miR and clinical parameter reflected rather pain in general than SFP. In FMS keratinocytes, a downregulation of miRs and tRFs was evident. Pathways for adenosine monophosphate-activated protein kinase (AMPK), adherens junction, and focal adhesion were predicted to be affected by miRs, while tRFs may influence proliferation, migration, and cell growth. Similar to blood miRs, altered miRs in keratinocytes correlated mostly with widespread pain and pain severity parameter. TRFs were partially associated with more severe IENF loss. Small RNAs in FMS keratinocytes may modulate pathways that define how keratinocytes interact with each other and with IENF. These interactions include nerve fiber ensheathment, a conserved epithelial mechanism, which we visualize in human epidermis and a fully human co-culture model. Additionally, we revealed plaques of connexin 43, a pore forming protein involved in intercellular communication, at keratinocyte- nerve fiber contact sites. Objective quantification of these morphological findings in FMS and other diseases with SFP may inherit diagnostic value similar to IENF density. We provide evidence for distinct miR and tRF signatures in FMS with implications for systemic immune regulation and local cell-cell interaction pathways. In the periphery we explored novel keratinocyte-nerve fiber interactions relevant for SFP and cutaneous nociception.}, subject = {Fibromyalgiesyndrom}, language = {en} } @phdthesis{Riemens2023, author = {Riemens, Renzo J. M.}, title = {Neuroepigenomics in Alzheimer's disease: The single cell ADds}, isbn = {978-94-6423-524-1}, doi = {10.25972/OPUS-25457}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-254574}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die Forschung, die in dieser Arbeit zusammengestellt wird, kann in zwei Teile geteilt werden. Der erste Teil, bestehend aus vier Kapiteln, konzentriert sich auf die Rolle der epigenetischen Dysregulation in der {\"A}tiopathophysiologie der sporadischen Alzheimer-Krankheit (sAD). Neben Einblicken in die neuesten Entwicklungen in neuroepigenomischen Studien zu dieser Krankheit geht der erste Teil der Arbeit auch auf verbleibende Herausforderungen ein und gibt einen Ausblick auf m{\"o}gliche Entwicklungen auf diesem Gebiet. Der zweite Teil, der drei weitere Kapitel umfasst, konzentriert sich auf die Anwendung von auf induzierten pluripotenten Stammzellen (iPSC) basierenden Krankheitsmodellen f{\"u}r das Studium der AD, einschließlich, aber nicht beschr{\"a}nkt auf mechanistische Studien zur epigenetischen Dysregulation unter Verwendung dieser Plattform. Neben der Skizzierung der bisherigen Forschung mit iPSC-basierten Modellen f{\"u}r sAD gibt der zweite Teil der Arbeit auch Einblicke in die Gewinnung krankheitsrelevanter Nervenkulturen auf Basis der gezielten Differenzierung von iPSCs und beinhaltet dar{\"u}ber hinaus einen experimentellen Ansatz f{\"u}r den Aufbau eines solchen Modellsystems.}, subject = {Epigenetik}, language = {en} } @phdthesis{Gruener2023, author = {Gr{\"u}ner, Julia}, title = {Pathogenesis of anti-paranodal autoantibodies in peripheral neuropathies}, doi = {10.25972/OPUS-24865}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-248655}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Autoantibodies against proteins of the node of Ranvier have been identified in a subset of patients with chronic inflammatory demyelinating polyradiculoneuropathy (CIDP). Main antigens targeted by autoantibodies are the paranodal proteins contactin 1 (CNTN1), neurofascin (NF) 155 or contactin associated protein (Caspr) as well as the nodal NF186. Several studies investigated the role of anti-paranodal autoantibodies in the pathophysiology of CIDP leading to the current knowledge that immunoglobulin G (IgG)4 deposition leads to detachment of myelin from the axon at the paranodes. However, many questions remain unsolved. Thus, autoantibodies against NF155 have been well studied and their pathogenicity has been proven in an animal model in vivo. However, in some patients, autoantibodies against all isoforms of NF are detectable. These anti-pan-NF autoantibodies occur more rarely and lead to a very severe clinical phenotype. As the pathogenesis of patient-derived autoantibodies against pan-NF has never been investigated in vivo before, we used an animal model to study the effect of acute exposure to anti-pan-NF IgG3 by intraneural injections to the rat sciatic nerve. In addition, we used anti-NF155 IgG4 from a seropositive patient. Behavioral testings as well as nerve conduction studies did not re- veal any deficits after injected neither for anti-NF155 nor for anti-pan-NF autoantibodies. This leads to the suspicion that the disease is more likely induced by a chronic process. A common symptom in patients with anti-CNTN1 associated neuropathy is sensory ataxia and therefore, an involvement of dorsal root ganglia (DRGs) is hypothesized. We show that sera from anti-CNTN1 positive patients specifically bind to DRG neurons in vitro and reduce surface expression of CNTN1. This is most probably due to internalization mediated by coexisting IgG3 although IgG4 is the predominant subclass of autoantibodies. As it is known that CNTN1 interacts with the β1 subunit of specific sodium channels we analyzed channel expression and sodium currents of DRG neurons after incubation with anti-CNTN1 positive patients' sera. We identified reduced sodium currents after long-term treatment with patients' material although surface channel expression remained stable. We therefore concluded that CNTN1 might influence channel properties indirectly through auxiliary β1 subunits. Moreover, we suggest an involvement of DRG neurons in the pathogenesis of anti-CNTN1 associated CIDP as medium-large size neurons are more affected than small neurons. However, the exact mechanism of how anti-CNTN1 autoantibodies influence sodium channels should be subject of further studies. Furthermore, preliminary results indicate that the epitope for anti-CNTN1 autoantibodies from seropositive patients might be associated with distinct clinical features. We could show that autoantibodies might be either directed against a conformational epitope as binding is prevented after deletion of the first immunoglobulin (Ig) domain of CNTN1 or against the fibronectin type III (FnIII) domains. Strikingly, both patients with FnIII do- main specificity had very high titers of anti-CNTN1 autoantibodies and a chronic disease progression, whereas patients binding to a conformational epitope or to the Ig domains are related to a relapsing-remitting or even monophasic disease course. However, these results need to be further confirmed before a clear statement can be made. In conclusion, the present study contributes to elucidate the pathogenesis of peripheral neuropathies associated with anti-paranodal autoantibodies. However, further studies are required including a higher number of patients as well as considering effects on structures like DRGs besides the node of Ranvier to fully understand the disease mechanisms.}, subject = {Autoantik{\"o}rper}, language = {en} } @phdthesis{BergmannBorges2023, author = {Bergmann Borges, Alyssa}, title = {The endo-lysosomal system of \(Trypanosoma\) \(brucei\): insights from a protist cell model}, doi = {10.25972/OPUS-32924}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-329248}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Most of the studies in cell biology primarily focus on models from the opisthokont group of eukaryotes. However, opisthokonts do not encompass the full diversity of eukaryotes. Thus, it is necessary to broaden the research focus to other organisms to gain a comprehensive understanding of basic cellular processes shared across the tree of life. In this sense, Trypanosoma brucei, a unicellular eukaryote, emerges as a viable alternative. The collaborative efforts in genome sequencing and protein tagging over the past two decades have significantly expanded our knowledge on this organism and have provided valuable tools to facilitate a more detailed analysis of this parasite. Nevertheless, numerous questions still remain. The survival of T. brucei within the mammalian host is intricately linked to the endo-lysosomal system, which plays a critical role in surface glycoprotein recycling, antibody clearance, and plasma membrane homeostasis. However, the dynamics of the duplication of the endo-lysosomal system during T. brucei proliferation and its potential relationship with plasma membrane growth remain poorly understood. Thus, as the primary objective, this thesis explores the endo-lysosomal system of T. brucei in the context of the cell cycle, providing insights on cell surface growth, endosome duplication, and clathrin recruitment. In addition, the study revisits ferritin endocytosis to provide quantitative data on the involvement of TbRab proteins (TbRab5A, TbRab7, and TbRab11) and the different endosomal subpopulations (early, late, and recycling endosomes, respectively) in the transport of this fluid-phase marker. Notably, while these subpopulations function as distinct compartments, different TbRabs can be found within the same region or structure, suggesting a potential physical connection between the endosomal subpopulations. The potential physical connection of endosomes is further explored within the context of the cell cycle and, finally, the duplication and morphological plasticity of the lysosome are also investigated. Overall, these findings provide insights into the dynamics of plasma membrane growth and the coordinated duplication of the endo-lysosomal system during T. brucei proliferation. The early duplication of endosomes suggests their potential involvement in plasma membrane growth, while the late duplication of the lysosome indicates a reduced role in this process. The recruitment of clathrin and TbRab GTPases to the site of endosome formation supports the assumption that the newly formed endosomal system is active during cell division and, consequently, indicates its potential role in plasma membrane homeostasis. Furthermore, considering the vast diversity within the Trypanosoma genus, which includes ~500 described species, the macroevolution of the group was investigated using the combined information of the 18S rRNA gene sequence and structure. The sequence-structure analysis of T. brucei and other 42 trypanosome species was conducted in the context of the diversity of Trypanosomatida, the order in which trypanosomes are placed. An additional analysis focused on Trypanosoma highlighted key aspects of the group's macroevolution. To explore these aspects further, additional trypanosome species were included, and the changes in the Trypanosoma tree topology were analyzed. The sequence-structure phylogeny confirmed the independent evolutionary history of the human pathogens T. brucei and Trypanosoma cruzi, while also providing insights into the evolution of the Aquatic clade, paraphyly of groups, and species classification into subgenera.}, subject = {Endocytose}, language = {en} } @phdthesis{Schneider2023, author = {Schneider, Nicole}, title = {Untersuchung der Expression von SET7 und anderer epigenetischer Enzyme in vitro und vivo im Modell der Atherosklerose}, doi = {10.25972/OPUS-32895}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-328952}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Bei der Atherosklerose handelt es sich um eine chronische inflammatorische Erkrankung, die sich an der arteriellen Gef{\"a}ßinnenwand abspielt. Ihre Haupt-Manifestationsformen Schlaganfall und Herzinfarkt z{\"a}hlen zu den h{\"a}ufigsten Todesursachen weltweit. Eine chronische Endothelbelastung und -funktionsst{\"o}rung, beeinflusst durch Risikofaktoren wie Diabetes, arterieller Bluthochdruck, Rauchen und Entz{\"u}ndungszust{\"a}nde, f{\"u}hren zur Permeabilit{\"a}tserh{\"o}hung des Endothels, zur Zelleinwanderung, subendothelialen Lipidanreicherung, Migration glatter Muskelzellen und der Ausbildung atherosklerotischer L{\"a}sionen. Es kommt zu Aktivierung des Immunsystems und fortschreitender Entz{\"u}ndungsreaktion, schließlich zur Ausbildung eines nekrotischen Kerns und zunehmender Vulnerabilit{\"a}t des Plaques. Epigenetische Ver{\"a}nderungen betreffen klassischerweise das Chromatinger{\"u}st. Durch DNA-Methylierung und -Demethylierung sowie verschiedene Modifikationen der Histon-Proteine kann die DNA in ihrer Zug{\"a}nglichkeit ver{\"a}ndert werden. So kann die Transkription eines bestimmten Genes direkt und potenziell l{\"a}ngerfristig beeinflusst werden, ohne dass Alterationen der DNA-Basenfolge selbst stattfinden. Das Enzym SET7 nimmt hierbei eine Sonderrolle ein, da es neben einer Methylierung von Histon 3 auch verschiedene zellul{\"a}re Zielstrukturen posttranslational direkt methylieren kann. Epigenetische Ver{\"a}nderungen im Kontext der Atherosklerose sind bereits vereinzelt beschrieben. Auch sind sie relevant in der Reaktion auf Umwelteinfl{\"u}sse und bei inflammatorischen Vorg{\"a}ngen. Der Frage, ob epigenetische Mechanismen im atherosklerotischen Geschehen eine Rolle spielen, sollte in dieser Arbeit nachgegangen werden. Dazu wurde in Zellkulturversuchen f{\"u}r Makrophagen und glatte Muskelzellen gepr{\"u}ft, ob die einzelnen pro-atherosklerotischen Stimuli oxLDL, IL-1β, TNFα und LPS bereits zu relevanten Ver{\"a}nderungen epigenetischer Enzyme f{\"u}hren. Dies erfolgte {\"u}ber Vergleich der entsprechenden mRNA mittels qPCR. Zur Untersuchung der genaueren Dynamik wurde f{\"u}r die Enzyme SET7 und DNMT1 der zeitliche Ablauf dieser Reaktion auf TNFα-Stimulation in Makrophagen genauer betrachtet. Unter gleichen Versuchsbedingungen wurde außerdem die {\"A}nderung der mRNA-Expression einiger Matrixmetalloproteasen, TIMP-Enzyme, Zytokine und Transkriptionsfaktoren analysiert,um zuk{\"u}nftig kausale Zusammenh{\"a}nge weiter aufdecken zu k{\"o}nnen. Auch die Frage nach Ver{\"a}nderungen epigenetischer Enzyme in der Ldlr-/--Maus nach fettreicher Di{\"a}t im Vergleich zu Ldlr-/--M{\"a}usen ohne Di{\"a}t sollte hier beantwortet werden. Dazu wurde die mRNA der Zellsuspensionen aus Milz, Aortenwurzel und gesamter Aorta der Tiere mithilfe der qPCR verglichen. Schließlich sollte ein effizienter Weg f{\"u}r einen individuellen und flexiblen SET7 knock-out etabliert werden, um weitere Studien dieses Enzyms zu erm{\"o}glichen. Hierzu wurde die Methode des CRISPR/Cas9 Systems gew{\"a}hlt und abschließend die Funktionalit{\"a}t des Systems {\"u}berpr{\"u}ft.}, subject = {Arteriosklerose}, language = {de} } @phdthesis{Mott2023, author = {Mott, Kristina}, title = {Regulation of platelet biogenesis in the native and myeloablated bone marrow niche}, doi = {10.25972/OPUS-28963}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289630}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Megakaryocytes (MKs) are the largest cells of the hematopoietic system and the precursor cells of platelets. During proplatelet formation (PPF) bone marrow (BM) MKs extent large cytoplasmic protrusions into the lumen of sinusoidal blood vessels. Under homeostatic conditions PPF occurs exclusively in the direction of the sinusoid, while platelet generation into the marrow cavity is prevented. So far, the mechanisms regulating this process in vivo are still not completely understood, especially when PPF is deregulated during disease. This thesis investigated the mechanisms of PPF in native BM and after myeloablation by total body irradiation (TBI). First, we have identified a specialized type of BM stromal cells, so called CXCL12-abundant reticular (CAR) cells, as novel possible regulators of PPF. By using complementary high-resolution microscopy techniques, we have studied the morphogenetic events at the MK/vessel wall interface in new detail, demonstrating that PPF formation preferentially occurs at CAR cell-free sites at the endothelium. In the second part of this thesis, we analyzed the processes leading to BM remodeling in response to myeloablation by TBI. We used confocal laser scanning microscopy (CLSM) to study the kinetic of radiation-triggered vasodilation and mapped extracellular matrix (ECM) proteins after TBI. We could demonstrate that collagen type IV and laminin α5 are specifically degraded at BM sinusoids. At the radiation-injured vessel wall we observed ectopic release of platelet-like particles into the marrow cavity concomitantly to aberrant CAR cell morphology, suggesting that the balance of factors regulating PPF is disturbed after TBI. ECM proteolysis is predominantly mediated by the matrix metalloproteinase MMP9, as revealed by gelatin-zymography and by a newly established BM in situ zymography technique. In transgenic mice lacking MMP9 vascular recovery was delayed, hinting towards a role of MMP9 in vessel reconstitution after myeloablation. In a third series of experiments, we studied the irradiated BM in the context of hematopoietic stem cell transplantation (HSCT). By using mice as BM donors that ubiquitously express the fluorescent reporter protein dsRed we tracked engraftment of donor cells and especially MKs in the recipient BM. We found a distinct engraftment pattern and cluster formation for MKs, which is different from other blood cell lineages. Finally, we assessed platelet function after TBI and HSCT and were the first to demonstrate that platelets become massively hyporeactive, particularly upon stimulation of the collagen receptor GPVI. In summary, our findings shed light on the processes of PPF during health and disease which will help to develop treatments for aberrant thrombopoiesis.}, subject = {Knochenmark}, language = {en} } @phdthesis{Morper2023, author = {Morper, Lorenz}, title = {Ph{\"a}notypische Wirkung von PGE2 auf die TLR-vermittelte Ausreifung in-vitro-generierter monozytenderivierter dendritischer Zellen}, doi = {10.25972/OPUS-32964}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-329647}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Dendritische Zellen (DC) spielen eine Schl{\"u}sselrolle im Immunsystem. Sie dienen als professionelle antigenpr{\"a}sentierende Zellen und k{\"o}nnen eine antigenspezifische Immunantwort initiieren, indem sie naive T-Zellen primen. DC k{\"o}nnen auch verwendet werden, um T-Zellen im Kontext der onkologischen Immuntherapie zu stimulieren. In vitro k{\"o}nnen sie leicht aus Monozyten differenziert werden. Die daraus resultierenden unreifen DC k{\"o}nnen bereits Antigene phagozytieren und pr{\"a}sentieren, sie aktivieren jedoch noch keine Immunantwort solange keines der aufgenommenen Antigene als pathogen erkannt wird. Die Ausreifung einer unreifen, tolerogenen DC zu einer immunogenen reifen DC kann, neben anderen Methoden, durch einen Cocktail aus TLR-Liganden oder Zytokinen erreicht werden. Die Auswahl der Substanzen in diesem Cocktail bestimmt den Ph{\"a}notyp und die funktionellen Eigenschaften der resultierenden reifen DC. Einige der ben{\"o}tigten F{\"a}higkeiten der DC in der Tumorimmuntherapie, wo sie aus Patientenmonozyten generiert, mit Tumorantigen beladen und dem Patienten wieder zugef{\"u}hrt werden sollen, umfassen die Migration zu den T-Zell-Zonen der Lymphknoten, Antigenpr{\"a}sentation auf sowohl MHC-I- als auch MHC-II-Molek{\"u}len, Zytokinproduktion f{\"u}r die Direktion der T-Zell-Antwort wie IL-12p70, und die Expression von Oberfl{\"a}chenmarkern wie der kostimulatorischen Molek{\"u}le CD80 und CD86. In der Vergangenheit wurde gezeigt, dass durch Zugabe von Prostaglandin E2 (PGE2) zu einem Cocktail mit dem synthetischen TLR3-Liganden poly-I:C und dem TLR7/8-Liganden R848 (Resiquimod) sowohl eine gute migratorische F{\"a}higkeit als auch eine erh{\"o}hte IL-12p70-Produktion erreicht werden kann, w{\"a}hrend etwa die F{\"a}higkeit zur Antigen-Kreuzpr{\"a}sentation reduziert erschien. Anhand von Monozyten anonymer gesunder Spender beleuchtet diese Arbeit daher den Effekt von PGE2 auf monozytenderivierte DC n{\"a}her, indem seine konzentrationsabh{\"a}ngige Wirkung auf deren Ph{\"a}notyp untersucht wird. In den durchgef{\"u}hrten Versuchen wurde dabei die Expressionsdichte der Oberfl{\"a}chenmarker CD83, CD80 und CD86, HLA-DR und CCR7 sowie der monozyt{\"a}re Marker CD14 durchflusszytometrisch analysiert. Die Ergebnisse zeigen bei Exposition mit PGE2 dosisabh{\"a}ngig eine Heraufregulation von CD80, CD83, CD86 und CCR7 in der Population reifer DC, deren Maximum in unteren mikromolaren Konzentrationen erreicht wird. Gleichzeitig induzierte PGE2 dosisabh{\"a}ngig auch die Entstehung einer zweiten Zellpopulation mit anderen Eigenschaften, die stattdessen den monozyt{\"a}ren Marker CD14 re-exprimierte. Dies ist f{\"u}r k{\"u}nftige Studien eine interessante Beobachtung, da sie eine differenzierte Betrachtung beider resultierender Subpopulationen anregt.}, subject = {Prostaglandin E2}, language = {de} } @phdthesis{Hugo2023, author = {Hugo, Julian}, title = {'Signal-close-to-noise' calcium activity reflects neuronal excitability}, doi = {10.25972/OPUS-29260}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-292605}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Chronic pain conditions are a major reason for the utilization of the health care system. Inflammatory pain states can persist facilitated by peripheral sensitization of nociceptors. The voltage-gated sodium channel 1.9 (NaV1.9) is an important regulator of neuronal excitability and is involved in inflammation-induced pain hypersensitivity. Recently, oxidized 1-palmitoyl-2-arachidonoyl-sn-glycerol-3-phosphatidylcholine (OxPAPC) was identified as a mediator of acute inflammatory pain and persistent hyperalgesia, suggesting an involvement in proalgesic cascades and peripheral sensitization. Peripheral sensitization implies an increase in neuronal excitability. This thesis aims to characterize spontaneous calcium activity in neuronal compartments as a proxy to investigate neuronal excitability, making use of the computational tool Neural Activity Cubic (NA3). NA3 allows automated calcium activity event detection of signal-close-to-noise calcium activity and evaluation of neuronal activity states. Additionally, the influence of OxPAPC and NaV1.9 on the excitability of murine dorsal root ganglion (DRG) neurons and the effect of OxPAPC on the response of DRG neurons towards other inflammatory mediators (prostaglandin E2, histamine, and bradykinin) is investigated. Using calcium imaging, the presence of spontaneous calcium activity in murine DRG neurons was established. NA3 was used to quantify this spontaneous calcium activity, which revealed decreased activity counts in axons and somata of NaV1.9 knockout (KO) neurons compared to wildtype (WT). Incubation of WT DRG neurons with OxPAPC before calcium imaging did not show altered activity counts compared to controls. OxPAPC incubation also did not modify the response of DRG neurons treated with inflammatory mediators. However, the variance ratio computed by NA3 conclusively allowed to determine neuronal activity states. In conclusion, my findings indicate an important function of NaV1.9 in determining the neuronal excitability of DRG neurons in resting states. OxPAPC exposition does not influence neuronal excitability nor sensitizes neurons for other inflammatory mediators. This evidence reduces the primary mechanism of OxPAPC-induced hyperalgesia to acute effects. Importantly, it was possible to establish an approach for unbiased excitability quantification of DRG neurons by calcium activity event detection and calcium trace variance analysis by NA3. It was possible to show that signal-close-to-noise calcium activity reflects neuronal excitability states.}, subject = {Entz{\"u}ndung}, language = {en} } @phdthesis{Vitale2023, author = {Vitale, Maria Rosaria}, title = {Excitatory/inhibitory balance in iPSC-derived glutamatergic/GABAergic neuronal networks: differential Cadherin-13 genotype effects}, doi = {10.25972/OPUS-28789}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287895}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {While the healthy brain works through balanced synaptic communication between glutamatergic and GABAergic neurons to coordinate excitation (E) and inhibition (I), disruption of E/I balance interferes with synaptic communication, information processing, and ultimately cognition. Multiple line of evidence indicates that E/I imbalance represents the pathophysiological basis of a wide spectrum of mental disorders. Genetic screening approaches have identified Cadherin-13 (CDH13). as a risk gene across neurodevelopmental and mental disorders. CDH13 regulates several cellular and synaptic processes in brain development and neuronal plasticity in adulthood. In addition to other functions, it is specifically localized at inhibitory synapses of parvalbumin- and somatostatin-expressing GABAergic neurons. In support of CDH13's function in moderating E/I balance, electrophysiological recordings of hippocampal slices in a CDH13-deficient mouse model revealed an increase in basal inhibitory but not excitatory synaptic transmission. Moreover, the search for genetic variants impacting functional expression of the CDH13 gene identified SNP (single nucleotide polymorphism)) rs2199430 in intron 1 to be associated with differential mRNA concentrations in human post-mortem brain across the three genotypes CDH13G/G, CDH13A/G and CDH13A/A . This work therefore aimed to further validate these findings in a complementary human model by using induced pluripotent stem cells (iPSCs). The application of human iPSCs in research has replaced the use of embryonic cells, resolving the ethical conflict of destructive usage of human embryos. Investigating CDH13's mode of action in inhibitory synapses was predicted to facilitate mechanistic insight into the effects of CDH13 gene variants on E/I network activity, which can then be targeted to reinstate balance. Genome-wide association studies have identified rare copy number variants (CNVs) resulting in a deletion (or duplication) of CDH13. To reduce genetic background variance, a set of isogenic iPSC lines with a gene dose-dependent deficiency of CDH13 (CDH13-/- and CDH13+/- ) was generated by using the Clustered Regulatory Interspaced Short Palindromic Repeats/CRISPR-associated protein 9 (CRISPR/Cas9) system. These CRISPRed iPSCs carrying a single or two allele(s) with CDH13 inactivation facilitate investigation of CDH13 function in cellular processes, at inhibitory synapses and in neuronal network activity. In addition, iPSCs carrying allelic SNP rs2199430 variants were used to study the effects of common genetic variation of CDH13. These cell lines were differentiated into pure glutamatergic and GABAergic neurons and co-cultured to generate neuronal networks allowing its activity to be measured and correlated with electrophysiological signatures of differential CDH13 genotypes. The work towards assessment of neuronal network activity of the iPSC lines was subdivided into three major steps: first, generating rtTA/Ngn2 and rtTA/Ascl1-positive iPSCs via a lentivirus-mediated approach; second, differentiating pure glutamatergic and GABAergic neurons from the genetically transduced iPSCs and co-culturing of pure glutamatergic and GABAergic neurons in a pre-established ratio (65:35) by direct differentiation upon supplementation with doxycycline and forskolin on a microelectrode array (MEA) chip; and, finally, recording of neuronal network activity of iPSC lines after 49 days in vitro, followed by extraction and analyses of multiple MEA parameters. x Based on the MEA parameters, it was confirmed that complete CDH13 knockout as well as heterozygous deficiency influence E/I balance by increasing inhibition. It was further revealed that common SNP variation alters the signature of neuronal network activity. Specifically, CDH13 deficiency resulted in a significant reduction in network burst duration (NBD), reduced number of detected spikes within a network burst and reduction in network burst rate (NBR) compared to the control (CDH13G/G). CDH13A/G and CDH13A/A showed similarities with the CRISPRed CDH13-deficient networks by showing a significant reduction in the NBD and a reduced number of detected spikes within a network compared to CDH13G/G. Strikingly. there was a significant increase in the NBR of the CDH13A/G and CDH13A/A compared to CDH13G/G networks. CDH13A/G networks exhibited significant differences in both parameters. At the cellular level, this indicates that signalling pathways which determine the length and frequency of network bursts differ among allelic variants of SNP rs2199430, thus confirming functional relevance of this intronic SNP. In summary, CDH13-deficient isogenic iPSC lines were generated using CRISPR/Cas9, iPSCs were genetically transduced via a lentivirus approach, direct differentiation of glutamatergic/GABAergic neurons derived from transduced iPSCs were used to establish a scalable co-culture system, and network activity was recorded by MEA using pre-established parameters to extract and analyze activity information. The results indicate that iPSC-derived neuronal networks following CRISPR/Cas9-facilitated CDH13 inactivation, as well as networks with allelic SNP variants of CDH13, moderate E/I balance, thus advancing understanding of CDH13 function at inhibitory synapses and elucidating the effects of rare and common CDH13 gene variation.}, subject = {Induzierte pluripotente Stammzelle}, language = {en} } @phdthesis{Siminski2023, author = {Siminski, Niklas}, title = {Temporal predictability of threat: Evaluation of differential involvement of amygdala and BNST, and relevance for therapy response prediction in spider phobia}, doi = {10.25972/OPUS-24664}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-246643}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Predictability of threat is one of the key modulators of neural activity in fear and anxiety-related threat processes and there is a considerable number of studies focusing on the exact contribution of centromedial amygdala and Bed nucleus of stria terminalis (BNST) in animals as well as in humans. In this research field, some studies already investigated the differential involvement of both areas during temporally predictable and unpredictable threat processes in humans. However, these studies showed several limitations e.g. small sample size, no predictable threat conditions, no separation of anticipation and confrontation processes, which should be addressed in future studies. Furthermore, evidence for group-based inter-individual differences of amygdala and BNST activity during predictable and unpredictable threat processes have not been studied extensively. Several studies suggest a relevant role of the amygdala and BNST activity in phobic processes in patients with specific phobia, but no study so far has investigated the exact contribution of centromedial amygdala (CM) and BNST during temporally predictable and unpredictable threat processes in specific phobia. This thesis consisted of three studies and aimed to evaluate the exact contribution of CM and BNST during temporally predictable and unpredictable threat anticipation and confrontation with the use of an optimized functional magnetic resonance imaging (fMRI) paradigm, which aimed to solve methodological limitations of recent studies. Study 1 used a large sample of healthy participants who were grouped based on NPSR1 genotype, and study 2 and study 3 used a sample of patients with spider phobia. In sum, the results of all three studies indicated, that BNST is more relevant for anticipation processes as compared to the CM. Contrary, during the confrontation phase the CM displays a greater relevance for threat confrontation processes. In recent years, various studies have investigated the extent to which treatment success can be predicted in patients with anxiety disorders based on pre-treatment fMRI activity. Therefore, this was investigated for the first time in study 3 in patients with spider phobia during temporally predictable and unpredictable threat processes. Results indicated that independent of temporal predictability lower anterior cingulate cortex (ACC) activity during threat anticipation and engaged BNST during threat confrontation might be benefitting factors for successful therapy response in spider phobia.}, subject = {Amygdala}, language = {en} } @phdthesis{Janssen2023, author = {Janßen, Jan Paul}, title = {Capabilities of a multi-pinhole SPECT system with two stationary detectors for in vivo imaging in rodents}, doi = {10.25972/OPUS-32860}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-328608}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Molecular imaging of rats is of great importance for basic and translational research. As a powerful tool in nuclear medicine, SPECT can be used to visualize specific functional processes in the body, such as myocardial perfusion or bone metabolism. Typical applications in laboratory animals are imaging diagnostics or the development of new tracers for clinical use. Innovations have enabled resolutions of up to a quarter of a millimeter with acceptable sensitivity. These advances have recently led to significantly more interest in SPECT both clinically and preclinically. The objective of this thesis was to evaluate the performance of the new U-SPECT5/CT E-Class by MILabs with a dedicated ultra-high resolution multi-pinhole collimator for rats and its potential for in vivo imaging of rats. The unique features of the U-SPECT are the large stationary detectors and the new iterative reconstruction algorithm. In addition, compared to the conventional system, the "E-Class" uses only two detectors instead of three. First, the sensitivity, maximum resolution, and uniformity were determined as performance parameters. Thereafter, CNRs for different activity levels comparable to those of typical in vivo activities were examined. Finally, two example protocols were carried out for imaging with 99mTc-MIBI and 99mTc-HMDP in healthy rats to evaluate the in vivo capabilities. For this purpose, CNR calculations and an image quality assessment were performed. The focus was on image quality as a function of scan time and post-reconstruction filter across a wide range of realistically achievable in vivo conditions. Performance was reasonable compared to other systems in the literature, with a sensitivity of 567 cps/MBq, a maximum resolution of 1.20 mm, and a uniformity of 55.5\%. At the lower activities, resolution in phantom studies decreased to ≥1.80 mm while maintaining good image quality. High-quality bone and myocardial perfusion SPECTs were obtained in rats with a resolution of ≥1.80 mm and ≥2.20 mm, respectively. Although limited sensitivity remains a weakness of SPECT, the U-SPECT5/CT E-Class with the UHR-RM collimator can achieve in vivo results of the highest standard despite the missing third detector. Currently, it is one of the best options for high-resolution radionuclide imaging in rats.}, subject = {SPECT}, language = {en} } @phdthesis{Hoffmann2023, author = {Hoffmann, Jan Vincent}, title = {Small-animal SPECT with Two Stationary Detectors: Performance Evaluation and Image Quality Assessment of Multi-pinhole Collimators}, doi = {10.25972/OPUS-32819}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-328195}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {SPECT as a representative of molecular imaging allows visualization of metabolic processes in vivo. In clinical practice, single photon emission imaging is an established modality for myocardial perfusion imaging or the diagnosis of adrenal or neuroendocrine tumors, to name a few. With technical advances in scanner design and data processing leading to improved spatial resolution and image quality, SPECT has become a serious contender in small animal preclinical imaging. With multi-pinhole collimation, submillimeter spatial resolutions are achieved without limiting sensitivity, which has led to a significant increase of interest in SPECT for preclinical research in recent years. In this dissertation, the potential of a two-detector system through an analysis of three dedicated mouse collimators with multi-pinhole configurations was demonstrated. For this, sensitivity, spatial resolution, and uniformity as key parameters were determined. In the second part of the present work, an evaluation of the image quality at different activity concentrations to allow prediction of the system performance related to in vivo studies was performed. Therefore, a visual evaluation, as well as a calculation of the contrastto-noise ratio, was performed using mini Derenzo phantoms for the respective three mouse collimators. To better classify the results, the study was extended by a comparison with the predecessor system. Due to the absence of the third bottom detector, sensitivity and uniformity are slightly compromised. All three collimators were able to achieve a spatial resolution in the submillimeter range, XUHR-M offers a peak resolution of up to 0.35 mm. In terms of resolution, both evaluated systems performed on an equal level. Visual assessment of image quality indicates a slight advantage of the new two-detector system, and the contrast-to-noise ratio seems to benefit from the improved SROSEM algorithm. However, the differences between the two systems are marginal. The U-SPECT5/CT E-Class is proven to be state-of-the-art for small animal imaging and is a powerful instrument for preclinical molecular imaging research. Improvements in system design compensate well for the reduction in the detection area, allowing excellent imaging even with low activity concentrations.}, subject = {SPECT}, language = {en} } @phdthesis{Schurr2023, author = {Schurr, Yvonne}, title = {Studies on the role of cytoskeletal-regulatory and -crosslinking proteins in platelet function}, doi = {10.25972/OPUS-21892}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-218924}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Cytoskeletal reorganization in platelets is highly regulated and important for proper platelet function during activation and aggregation at sites of vascular injury. In this thesis, the role of three different cytoskeletal-regulatory and -crosslinking proteins was studied in platelet physiology using megakaryocyte- and platelet-specific knockout mice. The generation of branched actin filaments is regulated by nucleation promoting factors (NPF) and the Arp2/3 complex. (1.) The WAVE complex is a NPF, which upregulates the Arp2/3 complex activity at the plasma membrane. As shown in this thesis, the loss of the WAVE complex subunit Cyfip1 in mice did not alter platelet production and had only a minor impact on platelet activation. However, Cyfip1 played an essential role for branching of actin filaments and consequently for lamellipodia formation in vitro. The importance of lamellipodia for thrombus formation and stability has been controversially discussed. Cyfip1-deficient platelets were able to form a stable thrombus ex vivo and in vivo and a hemostatic plug comparable to controls. Moreover, Cyfip1-deficient mice maintained vascular integrity at the site of inflammation. These data show that platelet lamellipodia formation is not required for hemostatic function and pathophysiological thrombus formation. (2.) The WASH complex is another NPF, which mediates actin filament polymerization on endosomal vesicles via the Arp2/3 complex. Loss of the WASH complex subunit Strumpellin led to a decreased protein abundance of the WASH protein and to a 20\% reduction in integrin αIIbβ3 surface expression on platelets and megakaryocytes, whereas the expression of other surface receptors as well as the platelet count, size, ex vivo thrombus formation and bleeding time remained unaltered. These data point to a distinct role of Strumpellin in maintaining integrin αIIbβ3 expression and provide new insights into regulatory mechanisms of platelet integrins. (3.) MACF1 has been described as a cytoskeletal crosslinker of microtubules and F-actin. However, MACF1-deficient mice displayed no alterations in platelet production, activation, thrombus formation and hemostatic function. Further, no compensatory up- or downregulation of other proteins could be found that contain an F-actin- and a microtubule-binding domain. These data indicate that MACF1 is dispensable for platelet biogenesis, activation and thrombus formation. Nevertheless, functional redundancy among different proteins mediating the cytoskeletal crosstalk may exist.}, subject = {Cytoskeleton}, language = {en} } @phdthesis{Badr2023, author = {Badr, Mohammad Mamdouh Abdelwareth Mohammad}, title = {Targeting Regulatory T Cells by CD28 Superagonistic Antibodies Mitigates Neurodegeneration in the A53T-alpha-Synuclein Parkinson's Disease Mouse Model}, doi = {10.25972/OPUS-28954}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289544}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Parkinson's disease (PD) is the second most common neurodegenerative disease with still no cure available. The prominent feature of PD is the loss of dopaminergic neurons at the Substantia nigra (SN). Genetic and environmental insults affecting the SNCA gene encoding the alpha-Synuclein (alpha-Syn) protein result into an aberrant form of the protein with higher propensity towards oligomerization becoming part of insoluble inclusions called Lewy Bodies (LB). LB impart cytotoxicity leading to neurodegeneration, activate resident microglia and escape to the periphery where they get captured by dendritic cells and presented to na{\"i}ve T cells. Proliferating effector T lymphocytes invade the brain releasing proinflammatory cytokines and performing a cytotoxic effect on neurons. In this study, we examine the hypothesis that the expansion of regulatory T cells (Treg) could exert an anti-inflammatory effect that averts neurodegeneration in the AAV1/2-A53T-alpha-Syn mouse model for PD. Mice brains were transfected by a unilateral stereotaxic injection at the SN region with a chimeric Adeno-Associated Viral vector of serotypes 1 and 2 (AAV1/2) carrying the A53T-mutated human SNCA gene encoding the readily aggregating aberrant alpha-Syn (AAV1/2-A53T-alpha-Syn). One week after injection, mice were treated with the CD28 superagonistic antibody (CD28SA), known to significantly expand the Treg population. Mice were then analyzed by behavioral analysis using the Rotarod performance test and the Cylinder test. The impact of CD28SA on the immune system was examined by flow cytometry. The integrity of the nigrostriatal system was assessed by stereological quantification of Tyrosine hydroxylase (TH)-stained dopaminergic neurons in SN and optical density measurements of TH-stained striatum. The mechanism of action of CD28SA was analyzed by treating PD mice alternatively with a Treg adoptive transfer, while CD28SA effect on levels of neurotrophic factors was quantified by ELISA. We observed an expansion of Treg by FACS analyses three days after CD28SA treatment, demonstrating target engagement. CD28SA treatment of AAV1/2-A53T-alpha-Syn mice provided neuroprotection evident through elevated numbers of dopaminergic neurons in the SN and higher optical density of TH-staining in the striatum, in CD28SA-treated mice compared to PBS-treated control mice, and that was reflected in an enhanced performance in behavioral studies. Additionally, brain infiltration of proinflammatory activated T lymphocytes (CD4+CD69+ and CD8+CD69+ cells), that were obvious in PBS-treated AAV1/2-A53T-alpha-Syn control mice, was augmented in PD mice receiving CD28SA. The alternative treatment with Treg adoptive transfer did replicate the beneficial effects of CD28SA indicating that Treg expansion is the main effector mechanism by which it exerts its neuroprotective effect. CD28SA treatment of PD mice led to an increase of GDNF and BDNF in some brain structures that was not observed in untreated mice. We conclude that in the AAV1/2-A53T-alpha-Syn PD mouse model, CD28SA suppresses proinflammation, reverses behavioral deficits and is neuroprotective on SN dopaminergic cells.}, subject = {Parkinson-Krankheit}, language = {en} } @phdthesis{Marquardt2023, author = {Marquardt, Andr{\´e}}, title = {Machine-Learning-Based Identification of Tumor Entities, Tumor Subgroups, and Therapy Options}, doi = {10.25972/OPUS-32954}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-329548}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Molecular genetic analyses, such as mutation analyses, are becoming increasingly important in the tumor field, especially in the context of therapy stratification. The identification of the underlying tumor entity is crucial, but can sometimes be difficult, for example in the case of metastases or the so-called Cancer of Unknown Primary (CUP) syndrome. In recent years, methylome and transcriptome utilizing machine learning (ML) approaches have been developed to enable fast and reliable tumor and tumor subtype identification. However, so far only methylome analysis have become widely used in routine diagnostics. The present work addresses the utility of publicly available RNA-sequencing data to determine the underlying tumor entity, possible subgroups, and potential therapy options. Identification of these by ML - in particular random forest (RF) models - was the first task. The results with test accuracies of up to 99\% provided new, previously unknown insights into the trained models and the corresponding entity prediction. Reducing the input data to the top 100 mRNA transcripts resulted in a minimal loss of prediction quality and could potentially enable application in clinical or real-world settings. By introducing the ratios of these top 100 genes to each other as a new database for RF models, a novel method was developed enabling the use of trained RF models on data from other sources. Further analysis of the transcriptomic differences of metastatic samples by visual clustering showed that there were no differences specific for the site of metastasis. Similarly, no distinct clusters were detectable when investigating primary tumors and metastases of cutaneous skin melanoma (SKCM). Subsequently, more than half of the validation datasets had a prediction accuracy of at least 80\%, with many datasets even achieving a prediction accuracy of - or close to - 100\%. To investigate the applicability of the used methods for subgroup identification, the TCGA-KIPAN dataset, consisting of the three major kidney cancer subgroups, was used. The results revealed a new, previously unknown subgroup consisting of all histopathological groups with clinically relevant characteristics, such as significantly different survival. Based on significant differences in gene expression, potential therapeutic options of the identified subgroup could be proposed. Concludingly, in exploring the potential applicability of RNA-sequencing data as a basis for therapy prediction, it was shown that this type of data is suitable to predict entities as well as subgroups with high accuracy. Clinical relevance was also demonstrated for a novel subgroup in renal cell carcinoma. The reduction of the number of genes required for entity prediction to 100 genes, enables panel sequencing and thus demonstrates potential applicability in a real-life setting.}, subject = {Maschinelles Lernen}, language = {en} } @phdthesis{Ye2023, author = {Ye, Liqing}, title = {RNA-RNA interactions in viral genome packaging}, doi = {10.25972/OPUS-29636}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296361}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {RNA is one of the most abundant macromolecules and plays essential roles in numerous biological processes. This doctoral thesis consists of two projects focusing on RNA structure and RNA-RNA interactions in viral genome packaging. In the first project I developed a method called Functional Analysis of RNA Structure (FARS-seq) to investigate structural features regulating genome dimerization within the HIV-1 5'UTR. Genome dimerization is a conserved feature of retroviral replication and is thought to be a prerequisite for binding to the viral structural protein Pr55Gag during genome packaging. It also plays a role in genome integrity and evolution through recombination, and is linked to a structural switch that may regulate genome packaging and translation within cells. Despite its importance for HIV-1 replication, the RNA signals regulating genome dimerization, and the molecular mechanism leading to the selection of the genome dimer over the monomer for packaging are incompletely understood. The FARS-seq method combines RNA structural information obtained by chemical probing with single nucleotide resolution profiles of RNA function obtained by mutational interference. In this way, we found nucleotides that were critical for dimerization, especially within the well-characterized dimerization motif within stem-loop 1 (SL1). We also found stretches of nucleotides that enhanced genome dimerization upon mutation, suggesting their role in negatively regulating dimerization. A structural analysis identified distinct structural signatures within monomeric and dimeric RNA. The dimeric conformation displayed the canonical transactivation response (TAR), PolyA, primer binding site (PBS), and SL1-SL3 stem-loops, and contained a long range U5-AUG interaction. Unexpectedly, in monomeric RNA, SL1 was reconfigured into long- and short-range base-pairings with PolyA and PBS, respectively. Intriguingly, these base pairings concealed the palindromic sequence needed for dimerization and disrupted the internal loop in SL1 previously shown to contain the major packaging motif for Pr55Gag. We therefore rationally introduced mutations into PolyA and PBS, and showed how these regions regulate genome dimerization, and the binding of Pr55Gag in vitro, as well as genome packaging into virions. These findings give insights into late stages of the HIV-1 life cycle and a mechanistic explanation for the link between RNA dimerization and packaging. In the second project, I developed a proximity ligation and high-throughput sequencing-based method, RNA-RNA seq, which can measure direct (RNA-RNA) and indirect (protein-mediated) interactions. In contrast to existing methods, RNA-RNA seq is not limited by specific protein or RNA baits, nor to a particular crosslinking reagent. The genome of influenza A virus contains eight segments, which assemble into a "7+1" supramolecular complex. However, the molecular details of genome assembly are poorly understood. Our goal is to use RNA-RNA seq to identify the sites of interaction between the eight genomic RNAs of influenza, and to use this information to define the quaternary RNA architecture of the genome. We showed that RNA-RNA seq worked on model substrates, like the HIV-1 Dimerization Initiation Site (DIS) RNA and purified ribosome, as well as influenza A virus infected cells.}, subject = {RNS-Viren}, language = {en} } @phdthesis{Scheller2023, author = {Scheller, Lukas}, title = {Migrationsf{\"o}rdernde Faktoren im intestinalen T-Zell-Homing w{\"a}hrend der akuten Graft-versus-Host Erkrankung}, doi = {10.25972/OPUS-29290}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-292909}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Die akute Graft-versus-Host Erkrankung (GvHD), insbesondere die Darm GvHD, stellt weiterhin eine der Hauptursachen f{\"u}r Mortalit{\"a}t und Morbidit{\"a}t nach allogener SZT dar. Aktivierte, alloreaktive Spender T-Zellen infiltrieren dabei {\"u}ber die Blutbahn die intestinale Lamina Propria. Erst k{\"u}rzlich konnten wir zeigen, dass neben der vaskul{\"a}ren Migration ein Teil der Spender T-Zellen auch direkt aus den PP in die angrenzende Lamina Propria migrieren. Um Faktoren, die diese direkte Migration f{\"o}rdern, zu untersuchen und die direkt migrierenden T-Zellen genauer zu charakterisieren, verwendeten wir ein MHC-inkompatibles Mausmodell zur Induktion einer akuten GvHD. Durch RNA Sequenzierung und Massenspektrometrie lasermikrodissezierter Darmschleimhautproben konnte eine starke Expression der Chemokine CXCL9, CXCL10, CXCL11, CCL3, CCL4 und CCL5 w{\"a}hrend der akuten intestinalen GvHD aufgezeigt werden. Neben CCL4 und XCL1 wiesen verschiedene Faktoren der T-Zellaktivierung, wie CD3ζ, LAT, Lck und ZAP70, sowie Faktoren der zytoskelettalen Reorganisation, wie Dock2, Coro1α und Parvin-γ, eine vermehrte Expression insbesondere nahe der PP auf. Die Expression der migrationsf{\"o}rdernden Faktoren Coro1α und Parvin-γ in Spender T-Zellen nahe der PP konnte anschließend mittels histologischen Immunfluoreszenzf{\"a}rbungen best{\"a}tigt werden. Durchflusszytometrische Analysen konnten weiterhin eine vermehrte Expression von CCR5, CCR9 und Intgerin α4β7 auf den vornehmlich Tbet+ Spender T-Zellen nahe der PP nachweisen. Funktionelle in vitro Migrationsversuche zeigten abschließend, dass in vivo aktivierte Spender T-Zellen eine gerichtete Migration in Richtung auf CXCL11 und zu sp{\"a}terem Zeitpunkt auch auf CCL4 vollziehen k{\"o}nnen. Zusammenfassend zeigt diese Arbeit die Bedeutung zahlreicher Chemokine f{\"u}r das sequenzielle T-Zell-Homing w{\"a}hrend der akuten intestinalen GvHD. Neben der insbesondere durch Faktoren der zytosekeletalen Reorganisation vermittelten amoeboiden Migration kann auch eine mesenchymale Fortbewegung {\"u}ber Faktoren wie CCR5, CCR9 und Integrin α4β7 die direkte Migration der T-Zellen f{\"o}rdern. Den direkt migrierenden vornehmlich TH1 polarisierten Zellen folgen weitere, CD27 und Integrin αLβ2 exprimierende, zytotoxische T-Zellen aus der Blutbahn. Die direkt migrierenden Zellen k{\"o}nnten als Initiator und Potentiator der intestinalen T-Zell Infiltration wirken und m{\"u}ssen f{\"u}r zuk{\"u}nftige therapeutische Strategien nicht nur der Darm GvHD, sondern der intestinalen Inflammation im Allgemeinen mitber{\"u}cksichtigt werden.}, subject = {T-Lymphozyt}, language = {de} } @phdthesis{SchmidtgebSchmid2023, author = {Schmidt [geb. Schmid], Freia Florina}, title = {Ein dreidimensionales kutanes Melanommodell f{\"u}r den Einsatz in der pr{\"a}klinischen Testung}, doi = {10.25972/OPUS-32925}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-329255}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Das maligne Melanom nimmt als Tumorerkrankung mit hoher Metastasierungsrate und steigenden Inzidenzraten bei h{\"o}chster Mortalit{\"a}t aller Hauttumoren eine zunehmende Bedeutung in der modernen Onkologie ein. Fr{\"u}hzeitige Diagnosem{\"o}glichkeiten und moderne Behandlungen konnten das {\"U}berleben der Patienten bereits erheblich verbessern. Jedoch besteht nach wie vor Bedarf an geeigneten Modellen, um die Melanomprogression vollst{\"a}ndig zu verstehen und neue wirksame Therapien zu entwickeln. Hierf{\"u}r werden h{\"a}ufig Tiermodelle verwendet, diese spiegeln jedoch nicht die menschliche Mikroumgebung wider. Zweidimensionalen Zellkulturen fehlen dagegen entscheidende Elemente der Tumormikroumgebung. Daher wurde in dieser Arbeit ein dreidimensionales epidermales Tumormodell des malignen Melanoms, welches aus prim{\"a}ren humanen Keratinozyten und verschiedenen Melanomzelllinien besteht, entwickelt. Die eingesetzten Melanomzelllinien variieren in ihren Treibermutationen, wodurch das Modell in der Lage ist, Wirkstoffe zu untersuchen, die spezifisch auf diese Mutationen wirken. Mit Techniken des Tissue Engineerings konnte ein dreidimensionales Hautmodell aufgebaut werden, das alle charakteristischen Schichten der Epidermis aufweist und im Bereich des stratum basale Melanomcluster ausbildet. Diese reichen je nach Gr{\"o}ße und Ausdehnung bis in suprabasale Epidermisschichten hinein. Die Tumor-Histopathologie, der Tumorstoffwechsel sowie tumorassoziierte Proteinsekretionen ließen sich im in vitro Modell nachweisen. Dar{\"u}ber hinaus konnte ein Protokoll entwickelt werden, mit dem einzelne Zellen aus den Modellen reisoliert werden k{\"o}nnen. Dies erm{\"o}glichte es, den Proliferationszustand innerhalb des jeweiligen Modells zu charakterisieren und die Wirkung von Antitumortherapien gezielt zu bewerten. Die Anwendbarkeit als Testsystem im Bereich der Tumortherapeutika wurde mit dem in der Klinik h{\"a}ufig verwendeten v-raf-Maus-Sarkom-Virus-Onkogen-Homolog B (BRAF)-Inhibitor Vemurafenib demonstriert. Der selektive BRAF-Inhibitor reduzierte erfolgreich das Tumorwachstum in den Modellen mit BRAF-mutierten Melanomzellen, was durch eine Verringerung der metabolischen Aktivit{\"a}t, der proliferierenden Zellen und des Glukoseverbrauchs gezeigt wurde. F{\"u}r die Implementierung des Modells in die pr{\"a}klinische Therapieentwicklung wurde B-B-Dimethylacrylshikonin, ein vielversprechender Wirkstoffkandidat, welcher einen Zellzyklusarrest mit anschließender Apoptose bewirkt, im Modell getestet. Bei einer Anwendung der Modelle im Bereich der Testung topischer Behandlungen ist eine Barrierefunktion der Modelle notwendig, die der in vivo Situation nahe kommt. Die Barriereeigenschaften der Haut{\"a}quivalente wurden durch die Melanomzellen nachweislich nicht beeinflusst, sind aber im Vergleich zur in vivo Situation noch unzureichend. Eine signifikante Steigerung der Hautbarriere konnte durch die Bereitstellung von Lipiden und die Anregung hauteigener Regenerationsprozesse erreicht werden. {\"U}ber den Nachweis des transepidermalen Wasserverlusts konnte eine Messmethode zur nicht-invasiven Bestimmung der Hautbarriere etabliert und {\"u}ber den Vergleich zur Impedanzspektroskopie validiert werden. Hierbei gelang es, erstmals die Korrelation der Hautmodelle zur in vivo Situation {\"u}ber ein solches Verfahren zu zeigen. Das entwickelte epidermale Modell konnte durch die Integration eines dermalen Anteils und einer Endothelzellschicht noch weiter an die komplexe Struktur und Physiologie der Haut angepasst werden um Untersuchungen, die mit der Metastierung und Invasion zusammenh{\"a}ngen, zu erm{\"o}glichen. Die artifizielle Dermis basiert auf einem Kollagen-Hydrogel mit prim{\"a}ren Fibroblasten. Eine dezellularisierte Schweinedarmmatrix ließ sich zur Erweiterung des Modells um eine Endothelzellschicht nutzen. Dabei wanderten die prim{\"a}ren Fibroblasten apikal in die nat{\"u}rliche Schweindarmmatrix ein, w{\"a}hrend die Endothelzellen basolateral eine geschlossene Schicht bildeten. Die in dieser Arbeit entwickelten Gewebemodelle sind in der Lage, die Vorhersagekraft der in vitro Modelle und die in vitro - in vivo Korrelation zu verbessern. Durch die Kombination des Melanommodells mit einer darauf abgestimmten Analytik wurde ein neuartiges Werkzeug f{\"u}r die pr{\"a}klinische Forschung zur Testung von pharmazeutischen Wirkstoffen geschaffen.}, subject = {Tissue Engineering}, language = {de} } @article{FeldheimWendLaueretal.2022, author = {Feldheim, Jonas and Wend, David and Lauer, Mara J. and Monoranu, Camelia M. and Glas, Martin and Kleinschnitz, Christoph and Ernestus, Ralf-Ingo and Braunger, Barbara M. and Meybohm, Patrick and Hagemann, Carsten and Burek, Malgorzata}, title = {Protocadherin Gamma C3 (PCDHGC3) is strongly expressed in glioblastoma and its high expression is associated with longer progression-free survival of patients}, series = {International Journal of Molecular Sciences}, volume = {23}, journal = {International Journal of Molecular Sciences}, number = {15}, issn = {1422-0067}, doi = {10.3390/ijms23158101}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-284433}, year = {2022}, abstract = {Protocadherins (PCDHs) belong to the cadherin superfamily and represent the largest subgroup of calcium-dependent adhesion molecules. In the genome, most PCDHs are arranged in three clusters, α, β, and γ on chromosome 5q31. PCDHs are highly expressed in the central nervous system (CNS). Several PCDHs have tumor suppressor functions, but their individual role in primary brain tumors has not yet been elucidated. Here, we examined the mRNA expression of PCDHGC3, a member of the PCDHγ cluster, in non-cancerous brain tissue and in gliomas of different World Health Organization (WHO) grades and correlated it with the clinical data of the patients. We generated a PCDHGC3 knockout U343 cell line and examined its growth rate and migration in a wound healing assay. We showed that PCDHGC3 mRNA and protein were significantly overexpressed in glioma tissue compared to a non-cancerous brain specimen. This could be confirmed in glioma cell lines. High PCDHGC3 mRNA expression correlated with longer progression-free survival (PFS) in glioma patients. PCDHGC3 knockout in U343 resulted in a slower growth rate but a significantly faster migration rate in the wound healing assay and decreased the expression of several genes involved in WNT signaling. PCDHGC3 expression should therefore be further investigated as a PFS-marker in gliomas. However, more studies are needed to elucidate the molecular mechanisms underlying the PCDHGC3 effects.}, language = {en} } @phdthesis{Muench2023, author = {M{\"u}nch, Luca}, title = {Die Rolle transposabler Elemente in der Genese des malignen Melanom im Fischmodell Xiphophorus}, doi = {10.25972/OPUS-28922}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289228}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Der Name der transposablen Elemente beruht auf ihrer F{\"a}higkeit, ihre genomische Position ver{\"a}ndern zu k{\"o}nnen. Durch Chromosomenaberrationen, Insertionen oder Deletionen k{\"o}nnen ihre genomischen Transpositionen genetische Instabilit{\"a}t verursachen. Inwieweit sie dar{\"u}ber hinaus regulatorischen Einfluss auf Zellfunktionen besitzen, ist Gegenstand aktueller Forschung ebenso wie die daraus resultierende Frage nach der Gesamtheit ihrer biologischen Signifikanz. Die Weiterf{\"u}hrung experimenteller Forschung ist unabdingbar, um weiterhin offenen Fragen nachzugehen. Das Xiphophorus-Melanom-Modell stellt hierbei eines der {\"a}ltesten Tiermodelle zur Erforschung des malignen Melanoms dar. Durch den klar definierten genetischen Hintergrund eignet es sich hervorragend zur Erforschung des b{\"o}sartigen schwarzen Hautkrebses, welcher nach wie vor die t{\"o}dlichste aller bekannten Hautkrebsformen darstellt. Die hier vorliegende Arbeit besch{\"a}ftigt sich mit der Rolle transposabler Elemente in der malignen Melanomgenese von Xiphophorus.}, subject = {Transposon}, language = {de} } @phdthesis{Knop2023, author = {Knop, Juna-Lisa}, title = {Untersuchungen zur Bedeutung von Spaltprodukten des vaskul{\"a}r endothelialen (VE-) Cadherin als Ausl{\"o}ser f{\"u}r die Schrankenst{\"o}rung des Gef{\"a}ßendothels}, doi = {10.25972/OPUS-34468}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-344687}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Ein Schl{\"u}sselereignis, welches dem prognosebestimmenden Organversagen bei systemi-schen Entz{\"u}ndungsprozessen und Sepsis vorangeht, ist die Entwicklung einer mikrovas-kul{\"a}ren endothelialen Schrankenst{\"o}rung. Das vaskul{\"a}re endotheliale (VE-) Cadherin als mechanischer Stabilisator der Endothelbarriere spielt dabei eine wichtige Rolle. In der Inflammation werden Spaltprodukte von VE-Cadherin (sVE-Cadherin) gebildet. Ge-genstand der vorliegenden Arbeit war die Untersuchung der Hypothese ob diese Spalt-produkte selbst an der St{\"o}rung der endothelialen Barrierefunktion beteiligt sind. Es wurde hierf{\"u}r humanes sVE-Cadherin bestehend aus den extrazellul{\"a}ren Dom{\"a}nen EC1-5 (sVE-CadherinEC1-5) generiert. In Messungen des transendothelialen elektrischen Widerstands (TER), mit Immunfluoreszenzf{\"a}rbungen und Western Blot Analysen wird gezeigt, dass sVE-Cadherin dosisabh{\"a}ngig die Barriere Integrit{\"a}t in prim{\"a}ren humanen dermalen Endothelzellen st{\"o}rt. Dies f{\"u}hrt zu einer Reduktion von VE-Cadherin und den assoziierten Proteinen α-, γ- und δ-Catenin und ZO-1, die nach der Applikation von sVE-Cadherin an den Zellgrenzen reduziert sind. Die Interaktion zwischen VE-PTP und VE-Cadherin wird durch sVE-CadherinEC1-5 reduziert. Durch pharmakologische Hem-mung der Phosphataseaktivit{\"a}t von VE-PTP mittels AKB9778 wird der durch sVE-CadherinEC1-5-induzierte Verlust der Endothelbarriere aufgehoben. Dagegen zeigt die direkte Aktivierung von Tie-2 mittels Angiopoetin-1 keinen protektiven Effekt auf die durch sVE-CadherinEC1-5 gest{\"o}rte Endothelbarriere. Weitere Analysen zeigen eine erh{\"o}h-te Expression von GEF-H1 durch sVE-CadherinEC1-5. Diese ist ebenfalls durch AKB9778 hemmbar. Zus{\"a}tzlich zu diesen Untersuchungen wurden die Konstrukte EC1-4 und EC3-5 in ver-schiedene Vektoren kloniert, um zu bestimmen, ob die extrazellul{\"a}re Dom{\"a}ne 5 von VE-Cadherin die dominante Rolle bei den sVE-Cadherin-vermittelten Effekten spielt. Zusammenfassend zeigen diese Untersuchungen zum ersten Mal, dass sVE-CadherinEC1-5 unabh{\"a}ngig von proinflammatorischen Ausl{\"o}sern {\"u}ber die Aktivierung des VE-PTP/RhoA-Signalweges den Zusammenbruch der Endothelbarriere mitversursacht. Dies stellt einen neuen pathophysiologischer Mechanismus dar, der zum Gesamtverst{\"a}ndnis der entz{\"u}ndungsinduzierten Barrierever{\"a}nderungen des Endothels beitr{\"a}gt.}, subject = {Endothel}, language = {de} } @phdthesis{Pekarek2024, author = {Pek{\´a}rek, Luk{\´a}š}, title = {Single-Molecule Approaches To Study Frameshifting Mechanisms}, doi = {10.25972/OPUS-34611}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-346112}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The RNAs of many viruses contain a frameshift stimulatory element (FSE) that grants access to an alternate reading frame via -1 programmed ribosomal frameshifting (PRF). This -1PRF is essential for effective viral replication. The -1PRF efficiency relies on the presence of conserved RNA elements within the FSE, such as a slippery sequence, spacer, and a downstream secondary structure - often a hairpin or a pseudoknot. The PRF efficiency is also affected by trans-acting factors such as proteins, miRNAs and metabolites. The interactions of these factors with the RNA and the translation machinery have not yet been completely understood. Traditional ensemble methods used previously to study these events focus on the whole population of molecular species. This results in innate averaging of the molecular behavior and a loss of heterogeneity information. Here, we first established the experimental workflow to study the RNA structures and the effect of potential trans-acting factors using single-molecule force spectroscopy technique, optical tweezers. Additionally, to streamline the data analysis, we developed an algorithm for automatized data processing. Next, we harnessed this knowledge to study viral RNA elements responsible for stimulation of PRF and how the presence of trans-acting factors affects the RNA behavior. We further complemented these single-molecule structural data with ensemble functional assays to gain a complex view on the dynamics behind the programmed ribosomal frameshifting. Specifically, two different viral RNA elements have been studied in the presented work. First, the dynamics of SARS-CoV-2 FSE and the role of extended sequences have been explored. Then, the mode of action of the host-encoded trans-acting factor ZAP-S inhibition of SARS-CoV-2 PRF has been examined. Finally, the mechanism of the trans-acting viral factor induced PRF in Encephalomyocarditis virus (EMCV) has been uncovered.}, language = {en} } @phdthesis{ZimmermannneePapp2024, author = {Zimmermann [n{\´e}e Papp], Lena}, title = {Platelets as modulators of blood-brain barrier disruption and inflammation in the pathophysiology of ischemic stroke}, doi = {10.25972/OPUS-30285}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-302850}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Ischemia-reperfusion injury (I/R injury) is a common complication in ischemic stroke (IS) treatment, which is characterized by a paradoxical perpetuation of tissue damage despite the successful re-establishment of vascular perfusion. This phenomenon is known to be facilitated by the detrimental interplay of platelets and inflammatory cells at the vascular interface. However, the spatio-temporal and molecular mechanisms underlying these cellular interactions and their contribution to infarct progression are still incompletely understood. Therefore, this study intended to clarify the temporal mechanisms of infarct growth after cerebral vessel recanalization. The data presented here could show that infarct progression is driven by early blood-brain-barrier perturbation and is independent of secondary thrombus formation. Since previous studies unravelled the secretion of platelet granules as a molecular mechanism of how platelets contribute to I/R injury, special emphasis was placed on the role of platelet granule secretion in the process of barrier dysfunction. By combining an in vitro approach with a murine IS model, it could be shown that platelet α-granules exerted endothelial-damaging properties, whereas their absence (NBEAL2-deficiency) translated into improved microvascular integrity. Hence, targeting platelet α-granules might serve as a novel treatment option to reduce vascular integrity loss and diminish infarct growth despite recanalization. Recent evidence revealed that pathomechanisms underlying I/R injury are already instrumental during large vessel occlusion. This indicates that penumbral tissue loss under occlusion and I/R injury during reperfusion share an intertwined relationship. In accordance with this notion, human observational data disclosed the presence of a neutrophil dominated immune response and local platelet activation and secretion, by the detection of the main components of platelet α-granules, within the secluded vasculature of IS patients. These initial observations of immune cells and platelets could be further expanded within this thesis by flow cytometric analysis of local ischemic blood samples. Phenotyping of immune cells disclosed a yet unknown shift in the lymphocyte population towards CD4+ T cells and additionally corroborated the concept of an immediate intravascular immune response that is dominated by granulocytes. Furthermore, this thesis provides first-time evidence for the increased appearance of platelet-leukocyte-aggregates within the secluded human vasculature. Thus, interfering with immune cells and/or platelets already under occlusion might serve as a potential strategy to diminish infarct expansion and ameliorate clinical outcome after IS.}, subject = {Schlaganfall}, language = {en} } @phdthesis{Daeullary2024, author = {D{\"a}ullary, Thomas}, title = {Establishment of an infection model of the human intestinal epithelium to study host and pathogen determinants during the \(Salmonella\) Typhimurium infection process}, doi = {10.25972/OPUS-31154}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311548}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {According to the WHO, foodborne derived enteric infections are a global disease burden and often manifest in diseases that can potentially reach life threatening levels, especially in developing countries. These diseases are caused by a variety of enteric pathogens and affect the gastrointestinal tract, from the gastric to the intestinal to the rectal tissue. Although the complex mucosal structure of these organs is usually well prepared to defend the body against harmful agents, specialised pathogens such as Salmonella enterica can overcome the intestinal defence mechanism. After ingestion, Salmonella are capable of colonising the gut and establishing their proliferative niche, thereby leading to inflammatory processes and tissue damage of the host epithelium. In order to understand these processes, the scientific community in the last decades mostly used cell line based in vitro approaches or in vivo animal studies. Although these approaches provide fundamental insights into the interactions between bacteria and host cells, they have limited applicability to human pathology. Therefore, tissue engineered primary based approaches are important for modern infection research. They exhibit the human complexity better than traditional cell lines and can mimic human-obligate processes in contrast to animal studies. Therefore, in this study a tissue engineered human primary model of the small intestinal epithelium was established for the application of enteric infection research with the exemplary pathogen Salmonella Typhimurium. To this purpose, adult stem cell derived intestinal organoids were used as a primary human cell source to generate monolayers on biological or synthetic scaffolds in a Transwell®-like setting. These tissue models of the intestinal epithelium were examined for their comparability to the native tissue in terms of morphology, morphometry and barrier function. Further, the gene expression profiles of organotypical mucins, tight junction-associated proteins and claudins were investigated. Overall, the biological scaffold-based tissue models showed higher similarity to the native tissue - among others in morphometry and polarisation. Therefore, these models were further characterised on cellular and structural level. Ultrastructural analysis demonstrated the establishment of characteristic microvilli and tight-junction connections between individual epithelial cells. Furthermore, the expression pattern of typical intestinal epithelial protein was addressed and showed in vivo-like localisation. Interested in the cell type composition, single cell transcriptomic profiling revealed distinct cell types including proliferative cells and stem cells, progenitors, cellular entities of the absorptive lineage, Enterocytes and Microfold-like cells. Cells of the secretory lineage were also annotated, but without distinct canonical gene expression patterns. With the organotypical polarisation, protein expression, structural features and the heterogeneous cell composition including the rare Microfold-like cells, the biological scaffold-based tissue model of the intestinal epithelium demonstrates key requisites needed for infection studies with Salmonella. In a second part of this study, a suitable infection protocol of the epithelial tissue model with Salmonella Typhimurium was established, followed by the examination of key features of the infection process. Salmonella adhered to the epithelial microvilli and induced typical membrane ruffling during invasion; interestingly the individual steps of invasion could be observed. After invasion, time course analysis showed that Salmonella resided and proliferated intracellularly, while simultaneously migrating from the apical to the basolateral side of the infected cell. Furthermore, the bacterial morphology changed to a filamentous phenotype; especially when the models have been analysed at late time points after infection. The epithelial cells on the other side released the cytokines Interleukin 8 and Tumour Necrosis Factor α upon bacterial infection in a time-dependent manner. Taken together, Salmonella infection of the intestinal epithelial tissue model recapitulates important steps of the infection process as described in the literature, and hence demonstrates a valid in vitro platform for the investigation of the Salmonella infection process in the human context. During the infection process, intracellular Salmonella populations varied in their bacterial number, which could be attributed to increased intracellular proliferation and demonstrated thereby a heterogeneous behaviour of Salmonella in individual cells. Furthermore, by the application of single cell transcriptomic profiling, the upregulation of Olfactomedin-4 (OLFM4) gene expression was detected; OLFM4 is a protein involved in various functions including cell immunity as well as proliferating signalling pathways and is often used as intestinal stem cell marker. This OLFM4 upregulation was time-dependent, restricted to Salmonella infected cells and seemed to increase with bacterial mass. Investigating the OLFM4 regulatory mechanism, nuclear factor κB induced upregulation could be excluded, whereas inhibition of the Notch signalling led to a decrease of OLFM4 gene and protein expression. Furthermore, Notch inhibition resulted in decreased filamentous Salmonella formation. Taken together, by the use of the introduced primary epithelial tissue model, a heterogeneous intracellular bacterial behaviour was observed and a so far overlooked host cell response - the expression of OLFM4 by individual infected cells - could be identified; although Salmonella Typhimurium is one of the best-studied enteric pathogenic bacteria. This proves the applicability of the introduced tissue model in enteric infection research as well as the importance of new approaches in order to decipher host-pathogen interactions with higher relevance to the host.}, subject = {Salmonella typhimurium}, language = {en} } @phdthesis{Isasa2024, author = {Isasa, Emilie}, title = {Relationship between wood properties, drought-induced embolism and environmental preferences across temperate diffuse-porous broadleaved trees}, doi = {10.25972/OPUS-30356}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303562}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {In the scope of climate warming and the increase in frequency and intensity of severe heat waves in Central Europe, identification of temperate tree species that are suited to cope with these environmental changes is gaining increasing importance. A number of tree physiological characteristics are associated with drought-stress resistance and survival following severe heat, but recent studies have shown the importance of plant hydraulic and anatomical traits for predicting drought-induced tree mortality, such as vessel diameter, and their potential to predict species distribution in a changing climate. A compilation of large global datasets is required to determine traits related to drought-induced embolism and test whether embolism resistance can be determined solely by anatomical traits. However, most measurements of plant hydraulic traits are labour-intense and prone to measurement artefacts. A fast, accurate and widely applicable technique is necessary for estimating xylem embolism resistance (e.g., water potential at 50\% loss of conductivity, P50), in order to improve forecasts of future forest changes. These traits and their combination must have evolved following the selective pressure of the environmental conditions in which each species occurs. Describing these environmental-trait relationships can be useful to assess potential responses to environmental change and mitigation strategies for tree species, as future warmer temperatures may be compounded by drier conditions.}, subject = {Pflanzen{\"o}kologie}, language = {en} } @phdthesis{Kibe2024, author = {Kibe, Anuja}, title = {Translational landscape and regulation of recoding in virus-infected cells}, doi = {10.25972/OPUS-31099}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-310993}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {RNA viruses rely entirely on the host machinery for their protein synthesis and harbor non-canonical translation mechanisms, such as alternative initiation and programmed -1 ribosomal frameshifting (-1PRF), to suit their specific needs. On the other hand, host cells have developed a variety of defensive strategies to safeguard their translational apparatus and at times transiently shut down global translation. An infection can lead to substantial translational remodeling in cells and translational control is critical during antiviral response. Due to their sheer diversity, this control is likely unique to each RNA virus and the intricacies of post-transcriptional regulation are unclear in certain viral species. Here, we explored different aspects of translational regulation in virus-infected cells in detail. Using ribosome profiling, we extensively characterized the translational landscape in HIV-1 infected T cells, uncovering novel features of gene regulation in both host and virus. Additionally, we show that substantial pausing occurs prior to the frameshift site indicating complex regulatory mechanisms involving upstream viral RNA elements that can act as cis- regulators of frameshifting. We also characterized the mechanistic details of trans- modulation of frameshifting by host- and virus-encoded proteins. Host antiviral protein ZAP-S binds to the SARS-CoV-2 frameshift site and destabilizes the stimulatory structure, leading to frameshift inhibition. On the other hand, EMCV 2A protein stabilizes the viral frameshift site, thereby, activating EMCV frameshifting. While both proteins were shown to be antagonistic in their mechanism, they interact with the host translational machinery. Furthermore, we showed that frameshifting can be regulated not just by proteins, but also by small molecules. High-throughput screening of natural and synthetic compounds identified two potent frameshift inhibitors that also impeded viral replication, namely trichangion and compound 25. Together, this work largely enhances our understanding of gene regulation mechanisms in virus-infected cells and further validates the druggability of viral -1 PRF site.}, subject = {Zelle}, language = {en} } @phdthesis{LindenbergverhSchubert2021, author = {Lindenberg [verh. Schubert], Annekathrin}, title = {Timing of sensory preferences in \(Camponotus\) Ants}, doi = {10.25972/OPUS-16094}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-160948}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Ants belong to the most successful insects living on our planet earth. One criterion of their tremendous success is the division of labor among workers that can be related to age (age¬- or temporal polyethism) and/ or body size (size-related polymorphism). Young ants care for the queen and brood in the nest interior and switch to foraging tasks in the outside environment with ongoing age. This highly flexible interior-exterior transition probably allows the ant workers to properly match the colony needs and is one of the most impressive behaviors a single worker undergoes during its life. As environmental stimuli are changing with this transition, workers are required to perform a new behavioral repertoire. This requires significant adaptions in sensory and higher¬-order integration centers in the brain, like the mushroom bodies. Furthermore, foragers need proper time measuring mechanisms to cope with daily environmental changes and to adapt their own mode of life. Therefore, they possess a functional endogenous clock that generates rhythms with a period length of approximately 24 hours. The species-rich genus of Camponotus ants constitute a rewarding model to study how behavioral duties of division of labor were performed and modulated within the colony and how synaptic plasticity in the brain is processed, as they can divide their labor to both, age and body size, simultaneously. In my PhD thesis, I started to investigate the behavioral repertoire (like foraging and locomotor activity) of two sympatric Camponotus species, C. mus and C. rufipes workers under natural and under controlled conditions. Furthermore, I focused on the division of labor in C. rufipes workers and started to examine structural and ultrastructural changes of neuronal architectures in the brain that are accompanied by the interior-exterior transition of C. rufipes ants. In the first part of my thesis, I started to analyze the temporal organization of task allocation throughout the life of single C. rufipes workers. Constant video-tracking of individually labeled workers for up to 11 weeks, revealed an age-related division of labor of interior and exterior workers. After emergence, young individuals are tended to by older ones within the first 48 hours of their lives before they themselves start nurturing larvae and pupae. Around 52\% switch to foraging duties at an age of 14-20 days. The workers that switched to foraging tasks are mainly media-sized workers and seem to be more specialized than nurses. Variations in proportion and the age of switching workers between and within different subcolonies indicate how highly flexible and plastic the age-related division of labor occurs in this ant species. Most of the observed workers were engaged in foraging tasks exclusively during nighttime. As the experiments were conducted in the laboratory, they are completely lacking environmental stimuli of the ants´ natural habitat. I therefore asked in a second study, how workers of the two closely related Camponotus species, C. rufipes and C. mus, adapt their daily activity patterns (foraging and locomotor activity) under natural (in Uruguay, South America) and controlled (in the laboratory) conditions to changing thermal conditions. Monitoring the foraging activity of both Camponotus species in a field experiment revealed, that C. mus workers are exclusively diurnal, whereas C. rufipes foragers are predominantly nocturnal. However, some nests showed an elevated daytime activity, which could be an adaption to seasonally cold night temperatures. To further investigate the impact of temperature and light on the differing foraging activity patterns in the field, workers of both Camponotus species were artificially exposed to different thermal regimes in the laboratory, simulating local winter and summer conditions. Here again, C. mus workers display solely diurnal locomotor activity, whereas workers of C. rufipes shifted their locomotor activity from diurnal under thermal winter conditions to nocturnal under thermal summer conditions. Hence, the combination of both, field work and laboratory studies, shows that daily activity is mostly shaped by thermal conditions and that temperature cycles are not just limiting foraging activity but can be used as zeitgeber to schedule the outside activities of the nests. Once an individual worker switches from indoor duties to exterior foraging tasks, it is confronted with an entirely new set of sensory information. To cope with changes of the environmental conditions and to facilitate the behavioral switch, workers need a highly flexible and plastic neuronal system. Hence, my thesis further focuses on the underlying neuronal adaptations of the visual system, including the optic lobes as the primary visual neuropil and the mushroom bodies as secondary visual brain neuropil, that are accompanied with the behavioral switch from nursing to foraging. The optic lobes as well as the mushroom bodies of light-deprived workers show an `experience-independent´ volume increase during the first two weeks of adulthood. An additional light exposure for 4 days induces an `experience-dependent´ decrease of synaptic complexes in the mushroom body collar, followed by an increase after extended light exposure for 14 days. I therefore conclude, that the plasticity of the central visual system represents important components for the optimal timing of the interior-exterior transitions and flexibility of the age-related division of labor. These remarkable structural changes of synaptic complexes suggest an active involvement of the mushroom body neuropil in the lifetime plasticity that promotes the interior-exterior transition of Camponotus rufipes ants. Beside these investigations of neuronal plasticity of synaptic complexes in the mushroom bodies on a structural level, I further started to examine mushroom body synaptic structures at the ultrastructural level. Until recently, the detection of synaptic components in projection neuron axonal boutons were below resolution using classical Transmission Electron Microscopy. Therefore, I started to implement Electron Tomography to increase the synaptic resolution to understand architectural changes in neuronal plasticity process. By acquiring double tilt series and consecutive computation of the acquired tilt information, I am now able to resolve individual clear-core and dense-core vesicles within the projection neuron cytoplasm of C. rufipes ants. I additionally was able to reveal single postsynaptic Kenyon cell dendritic spines (~62) that surround one individual projection neuron bouton. With this, I could reveal first insights into the complex neuronal architecture of single projection neuron boutons in the olfactory mushroom body lip region. The high resolution images of synaptic architectures at the ultrastructural level, received with Electron Tomography would promote the understanding of architectural changes in neuronal plasticity. In my PhD thesis, I demonstrate that the temporal organization within Camponotus colonies involves the perfect timing of different tasks. Temperature seems to be the most scheduling abiotic factors of foraging and locomotor activity. The ants do not only need to adapt their behavioral repertoire in accordance to the interior-exterior switch, also the parts in the peripheral and central that process visual information need to adapt to the new sensory environment.}, subject = {Rossameise}, language = {en} } @phdthesis{Ries2020, author = {Ries, Lena Kerstin}, title = {From recognition to reaction: Mechanistic analysis of the interactions of the HECT ligase E6AP with ubiquitin}, doi = {10.25972/OPUS-17960}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-179609}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {The ubiquitination of proteins controls a multitude of physiological processes. This versatility of ubiquitin as a molecular signal arises from the diverse ways by which it can be attached to target proteins. Different ubiquitination patterns are then translated into different downstream consequences. Due to the enormous complexity of possible ubiquitin modifications, the ubiquitination machinery must be highly specific and tightly controlled. Ubiquitination proceeds through an enzymatic cascade, the last step of which is catalyzed by the E3 enzyme family. E3 enzymes are the crucial regulators since they dictate the specificity of substrate selection and modification. Deregulation of the HECT-type ubiquitin ligase E6AP (UBE3A) is implicated in human papilloma virus-induced cervical tumorigenesis and several neurodevelopmental disorders. Yet the structural underpinnings of activity, regulation and specificity in this crucial ligase are incompletely understood. One aim of this study was to unravel the role of the a1'-helix N-terminal to the HECT domain that was found to be a key element mediating regulation and oligomerization in other HECT ligases. I found that most N-terminally extended HECT domain constructs were insoluble when expressed in E. coli, indicating that additional regions N-terminal to the tested fragments may be essential to protect this highly hydrophobic helix from causing aggregation. Another question addressed in this study was how E6AP builds ubiquitin chains. Using single-turnover experiments, I showed that ubiquitin-loaded E6AP is unable to transfer an additional ubiquitin molecule onto a stably linked ubiquitin-E6AP complex. This indicates that E6AP cannot assemble chains on its active site and may instead follow a sequential addition mechanism in which one ubiquitin molecule is transferred at a time to the target protein. Using NMR spectroscopy and extensive mutational analyses, the determinants of ubiquitin recognition by the C-lobe of E6AP were unraveled and assigned to particular steps in the catalytic cycle. A functionally critical interface was identified that is specifically required during thioester formation between the C-terminus of ubiquitin and the ligase active site. This interface resembles the one utilized by NEDD4-type enzymes, suggesting a conserved ubiquitin binding mode across HECT ligases, independent of their linkage specificities. Moreover, I identified critical surface patches on ubiquitin and in the N- and C-terminal portions of the catalytic domain of E6AP that are important for the subsequent step of isopeptide bond formation. I also uncovered key determinants of the Lys48-linkage specificity of E6AP, both in the E6AP HECT domain and ubiquitin itself. This includes the C-terminal tail of E6AP and a hydrophilic surface region of ubiquitin in proximity to the acceptor site, Lys48. It is thus tempting to speculate that ubiquitin linkage formation by E6AP is substrate-assisted. Taken together, my results improve our mechanistic understanding of the structure-function relationship between E6AP and ubiquitin, thus providing a basis for ultimately manipulating the functions of this HECT ligase for therapeutic applications.}, subject = {Ubiquitin}, language = {en} } @phdthesis{Koelmel2020, author = {K{\"o}lmel, Wolfgang}, title = {Structural and functional characterization of TFIIH from \(Chaetomium\) \(thermophilum\)}, doi = {10.25972/OPUS-16176}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-161769}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Gene expression and transfer of the genetic information to the next generation forms the basis of cellular life. These processes crucially rely on DNA, thus the preservation, transcription and translation of DNA is of fundamental importance for any living being. The general transcription factor TFIIH is a ten subunit protein complex, which consists of two subcomplexes: XPB, p62, p52, p44, p34, and p8 constitute the TFIIH core, CDK7, CyclinH, and MAT1 constitute the CAK. These two subcomplexes are connected via XPD. TFIIH is a crucial factor involved in both, DNA repair and transcription. The central role of TFIIH is underlined by three severe disorders linked to failure of TFIIH in these processes: xeroderma pigmentosum, Cockayne syndrome, and trichothiodystrophy. Only limited structural and functional data of TFIIH are available so far. Here, the model organism Chaetomium thermophilum was utilized with the aim to structurally and functionally characterize TFIIH. By combining the expression and purification of single TFIIH subunits with the co-expression and co-purification of dual complexes, a unique and powerful modular system of the TFIIH core subunits could be established, encompassing all proteins in high quality and fully functional. This system permits the step-wise assembly of TFIIH core, thereby making it possible to assess the influence of the intricate interaction network within TFIIH core on the overall enzymatic activities of TFIIH, which has not been possible so far. Utilizing the single subunits and dual complexes, a detailed interaction network of TFIIH core was established, revealing the crucial role of the p34 subunit as a central scaffold of TFIIH by linking the two proteins p44 and p52. Our studies also suggest that p62 constitutes the central interface of TFIIH to the environment rather than acting as a scaffold. TFIIH core complexes were assembled and investigated via electron microscopy. Preliminary data indicate that TFIIH adopts different conformational states, which are important to fulfill its functions in transcription and DNA repair. Additionally, a shortened construct of p62 was used to develop an easy-to-use, low cost strategy to overcome the crystallographic phase problem via cesium derivatization.}, subject = {Transkriptionsfaktor}, language = {en} } @phdthesis{Misra2020, author = {Misra, Mohit}, title = {Knowing then defeating: The Ubiquitin activating enzyme, a promising target for cancer therapy}, doi = {10.25972/OPUS-16722}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167227}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Ubiquitin is a 76 amino acid long polypeptide, which is present throughout eukaryotes in a highly conserved fashion. Ubiquitin can modify proteins by becoming covalently attached to them. Eukaryotic cells employ ubiquitin to maintain and regulate fundamental cellular processes like protein degradation, the immune response and transcriptional and translational regulation. Transfer of ubiquitin to the substrate is achieved by the catalysis of three classes of enzymes namely E1, E2 and E3. Together these enzymes form a pyramidal hierarchy, where E1 stands at the apex and E3 enzymes form the base of the pathway. The ubiquitin activating enzyme 1 (UBA1) plays a major role in ubiquitylation being the ubiquitin-dedicated E1 enzyme. In addition, it is the only enzyme in this pathway to use ATP as an energy source to catalyze two important reactions. The products of these reactions, ubiquitin adenylate and ubiquitin thioester, are the essential intermediate states of ubiquitin, for being conjugated to the target protein. With the help of X-ray crystallography and biochemical approaches, snapshots of multiple catalytic states of UBA1, where it is bound to Mg-ATP, ubiquitin and the E2 Ubc13 as substrates could be captured. With the help of these high-resolution crystal structures, deeper insights into the enzymatic mechanism of UBA1 could be attained. The resulting insights into the catalytic cycle were further validated by biochemical assays. It could be shown that ATP acts as a molecular switch to induce the enzyme's open conformation. Ubiquitin-binding to the enzyme leads to domain rotations, which facilitate the recruitment of a cognate E2 enzyme. The interdomain communication as well as the cross-talk with the substrates and the products fuel the enzymatic cycle of UBA1. Due to the proven efficacy of proteasome inhibitors for cancer treatment, which block degradation of proteins labeled with ubiquitin, enzymes participating in the ubiquitylation cascade have been targeted by researchers for the development of novel anti-cancer therapeutics. UBA1 inhibition has been shown to preferentially induce cell death in malignant cells, and it can also be used as a strategy to overcome resistance against proteasome inhibitors. MLN7243, an adenosyl sulfamate inhibitor developed by Millenium Pharmaceutical to specifically target UBA1, is currently in Phase-I clinical trials for the treatment of solid tumors. UBA1 could be crystallized in complex with three adenosyl sulfamate inhibitors covalently linked to ubiquitin, which are promising drug candidates for cancer therapy. The inhibitors employed, MLN7243, MLN4924 and ABPA3, show distinct specificities towards different E1 enzymes. With the help of crystal structures the specificity determinants of these inhibitors could be deciphered, which were further confirmed by inhibition assays as well as molecular dynamics simulations. Together these crystal structures provide a starting point for developing E1-specific inhibitors, which, besides their potential for medicinal purposes, are important tools to better understand the function of the ubiquitin system as well as the action of ubiquitin-like proteins.}, subject = {Ubiquitin-aktivierende Enzym 1}, language = {en} } @phdthesis{AlonsoCanizal2020, author = {Alonso Ca{\~n}izal, Maria Consuelo}, title = {Detection of ligand dependent Frizzled conformational changes}, doi = {10.25972/OPUS-17833}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-178335}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Frizzled (FZD) are highly conserved receptors that belong to class F of the G protein-coupled receptor (GPCR) superfamily. They are involved in a great variety of processes during embryonic development, organogenesis, and adult tissue homeostasis. In particular, FZD5 is an important therapeutic target due to its involvement in several pathologies, such as tumorigenesis. Nevertheless, little is known regarding the activation of FZD receptors and the signal initiation, and their GPCR nature has been debated. In order to investigate the activation mechanism of these receptors, FRET (F{\"o}rster Resonance Energy Transfer)-based biosensors for FZD5 have been developed and characterized. A cyan fluorescent protein (CFP) was fused to the C-terminus of the receptor and the specific FlAsH-binding sequence (CCPGCC) was inserted within the 2nd or the 3rd intracellular loop. Single-cell FRET experiments performed using one of these sensors, V5-mFZD5-FlAsH436-CFP, reported structural rearrangements in FZD5 upon stimulation with the endogenous ligand WNT-5A. These movements are similar to those observed in other GPCRs using the same technique, which suggests an activation mechanism for FZD reminiscent of GPCRs. Furthermore, stimulation of the FZD5 FRET-based sensor with various recombinant WNT proteins in a microplate FRET reader allowed to obtain concentration-response curves for several ligands, being possible to distinguish between full and partial agonists. This technology allowed to address the selectivity between WNTs and FZD5 using a full-length receptor in living cells. In addition, G protein FRET-based sensors revealed that WNT-5A specifically induced Gαq activation mediated by FZD5, but not Gαi activation. Other WNT proteins were also able to induce Gαq activation, but with lower efficacy than WNT-5A. In addition, a dual DAG/calcium sensor further showed that WNT-5A stimulation led to the activation of the Gαq-dependent signaling pathway mediated by FZD5, which outcome was the activation of Protein Kinase C (PKC) and the release of intracellular calcium. Altogether, these data provide evidence that the activation process of FZD5 resembles the general characteristics of class A and B GPCR activation, and this receptor also mediates the activation of the heterotrimeric Gαq protein and its downstream signaling pathway. In addition, the FZD5 receptor FRET-based sensor provides a valuable tool to characterize the pharmacological properties of WNTs and other potential ligands for this receptor.}, subject = {Fluoreszenz-Resonanz-Energie-Transfer}, language = {en} } @phdthesis{Ipek2021, author = {Ipek, Rojda}, title = {Einfluss der murinen Anti-CD52-Antik{\"o}rper-Therapie auf die Neurodegeneration in der chronischen MP4-induzierten experimentellen autoimmunen Enzephalomyelitis als Mausmodell der Multiplen Sklerose}, doi = {10.25972/OPUS-22576}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-225766}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Die Multiple Sklerose (MS) ist eine chronisch-entz{\"u}ndliche Autoimmunerkrankung des zentralen Nervensystems (ZNS) und stellt die h{\"a}ufigste Ursache fr{\"u}hzeitiger Behinderung junger Erwachsener dar. Kennzeichnend sind multifokale ZNS-L{\"a}sionen, die durch Inflammation, Demyelinisierung und Axonsch{\"a}den gepr{\"a}gt sind und zu multiplen neurologischen Defiziten f{\"u}hren. Derzeit ist es mithilfe der verlaufsmodifizierenden Therapie m{\"o}glich, die Immunantwort abzuschw{\"a}chen und damit die Krankheitsprogression zu verz{\"o}gern. Geheilt werden kann die Erkrankung jedoch bislang nicht. Dabei ist nicht hinreichend gekl{\"a}rt, ob die neuen Therapieoptionen {\"u}ber die Immunmodulation/-suppression hinaus einen anhaltenden Schutz vor der langfristigen Neurodegeneration bieten. Basierend auf den vielversprechenden Ergebnissen klinischer Studien zur Therapie der schubf{\"o}rmig-remittierenden MS mit dem Anti-CD52-Antik{\"o}rper Alemtuzumab, der zu einer Depletion CD52-exprimierender Immunzellen f{\"u}hrt, wurden diesbez{\"u}glich Analysen in MS-Tiermodellen durchgef{\"u}hrt. Da die Untersuchung der zugrunde liegenden Patho- und Effektormechanismen am Menschen kaum m{\"o}glich ist, ist die MS-Forschung f{\"u}r ein tiefergehendes Verst{\"a}ndnis auf Tiermodelle angewiesen. Die experimentelle autoimmune Enzephalomyelitis (EAE) ist hierbei das am weitesten verbreitete Modell der MS, wof{\"u}r vor allem der C57BL/6 (B6) -Mausstamm verwendet wird, da auf diesem Hintergrund die meisten genmodifizierten M{\"a}use gez{\"u}chtet werden. Jene tierexperimentellen Studien, in denen ein muriner Anti-CD52-Antik{\"o}rper im fr{\"u}hen Krankheitsstadium der EAE (Auftreten erster paralytischer Symptome) verabreicht wurde, erbrachten den Hinweis einer neuroprotektiven und scheinbar regenerativen Wirkung des Antik{\"o}rpers. {\"U}ber einen neuroprotektiven Effekt von Alemtuzumab im schwer behandelbaren chronisch-progredienten Stadium der MS ist jedoch wenig bekannt. Die vorliegende Arbeit ist die erste detaillierte Untersuchung zum Einfluss des murinen Anti-CD52-Antik{\"o}rpers auf die Demyelinisierung, den Axonschaden und die Hirnatrophie in der MP4-induzierten EAE der B6-Maus im chronischen Verlauf der Erkrankung (ab stabilem Plateau der klinischen Symptomatik). MP4 ist ein Myelinfusionsprotein aus MBP (Myelin-Basisches-Protein) und PLP (Proteolipidprotein), welches in B6-M{\"a}usen durch aktive Immunisierung eine EAE induziert, die chronisch verl{\"a}uft und als eines von wenigen Modellen neben der T-Zell-Abh{\"a}ngigkeit die an Bedeutung zunehmende B-Zell-Komponente der MS darstellt. Histopathologisch finden sich in der chronischen MP4-induzierten EAE eine ausgepr{\"a}gte R{\"u}ckenmarks- und Kleinhirnsch{\"a}digung, die vor allem im Kleinhirn durch eine B-Zell-Aggregation charakterisiert ist. Nachdem die MP4-immunisierten M{\"a}use im chronischen Stadium der EAE an f{\"u}nf aufeinanderfolgenden Tagen mit 10 mg/kg K{\"o}rpergewicht murinem Anti-CD52-spezifischem IgG2a-Isotypantik{\"o}rper bzw. murinem unspezifischem IgG2a-Isotyp-Kontroll-Antik{\"o}rper behandelt worden waren, wurde die Lymphozytendepletion im peripheren Blut durchflusszytometrisch ermittelt und deren Einfluss auf MP4-spezifische Antik{\"o}rper anhand eines indirekten Enzyme-linked Immunosorbent Assays (ELISAs) untersucht. Als Marker f{\"u}r Axonsch{\"a}den wurde im Serum vorhandenes phosphoryliertes Neurofilament-Heavy (pNF-H) mithilfe eines indirekten Sandwich-ELISAs quantitativ bestimmt. R{\"u}ckenmark und Kleinhirn wurden ultrastrukturell auf Ver{\"a}nderungen der Myelinisierung (mittels g-Ratio: Axondurchmesser geteilt durch Gesamtdurchmesser der Nervenfaser) und auf Axonpathologien (verringerter Abstand benachbarter Neurofilamente, axolytische Axone, axonaler Verlust) untersucht. Die Hirnatrophie wurde MRT-basiert gemessen und der klinische Verlauf t{\"a}glich evaluiert. Durch die Anti-CD52-Antik{\"o}rperbehandlung wurde die T- und B-Zellzahl zwar drastisch vermindert, die MP4-spezifische Antik{\"o}rperproduktion blieb davon jedoch unbeeintr{\"a}chtigt. Ein g{\"u}nstiger Effekt auf die De- und Remyelinisierung war nicht festzustellen. Das Hirnvolumen und die klinische Pr{\"a}sentation der M{\"a}use blieben ebenfalls unver{\"a}ndert. W{\"a}hrend kein Unterschied der pNF-H-Konzentration zu erkennen war, konnte ultrastrukturell jedoch ein geringerer Axonschaden nachgewiesen werden. Insgesamt legen diese Ergebnisse nahe, dass der Anti-CD52-Antik{\"o}rper im chronischen Verlauf der EAE/MS wenig Einfluss auf die neurodegenerativen Prozesse nimmt und die Regeneration nicht f{\"o}rdern kann. Die Ursache liegt vermutlich in der Undurchl{\"a}ssigkeit der Bluthirnschranke f{\"u}r Antik{\"o}rper sowie dem limitierten Verst{\"a}ndnis der Antik{\"o}rperwirkung im ZNS. Die vorliegende Studie regt somit zur Etablierung von ZNS-wirksamen Antik{\"o}rpern an und unterstreicht die Bedeutung der Entwicklung von selektiveren neuroprotektiven und remyelinisierungsf{\"o}rdernden Behandlungsans{\"a}tzen, die eine wertvolle Erg{\"a}nzung zur verlaufsmodifizierenden Therapie darstellen k{\"o}nnten.}, subject = {Multiple Sklerose}, language = {de} } @phdthesis{WeigelgebSchneider2022, author = {Weigel [geb. Schneider], Verena}, title = {Entwicklung eines \(in\) \(vitro\) Modells f{\"u}r Verbrennungen ersten Grades zur Testung einer zellbasierten Wundauflage}, doi = {10.25972/OPUS-26151}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-261514}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Mit j{\"a}hrlich circa 11 Millionen F{\"a}llen weltweit, stellen schwere Brandwunden bis heute einen großen Anteil an Verletzungen dar, die in Kliniken behandelt werden m{\"u}ssen. W{\"a}hrend leichte Verbrennungen meist problemlos heilen, bedarf die Behandlung tieferer Verbrennungen medizinischer Intervention. Zellbasierte Therapeutika zeigen hier bereits große Erfolge, aufgrund der eingeschr{\"a}nkten {\"U}bertragbarkeit von Ergebnissen aus Tiermodellen ist jedoch sowohl die Testung neuer Produkte, als auch die Erforschung der Wundheilung bei Brandwunden noch immer schwierig. Aufgrund dessen wurden in dieser Arbeit zwei Ziele verfolgt: Die Etablierung von Methoden, um ein zellbasiertes Therapeutikum produzieren zu k{\"o}nnen und die Entwicklung eines Modells zur Untersuchung von Verbrennungswunden. Zun{\"a}chst wurden hierf{\"u}r die Kulturbedingungen und -protokolle zur Isolation und Expansion von Keratinozyten so angepasst, dass sie g{\"a}ngigen Regularien zur Produktion medizinischer Produkte entsprechen. Hier zeigten die Zellen auch in anschließenden Analysen, dass charakteristische Merkmale nicht verloren hatten. Dar{\"u}ber hinaus gelang es, die Zellen mithilfe verschiedener protektiver Substanzen erfolgreich einzufrieren und zu konservieren. Des Weiteren konnte ein Modell etabliert werden, das eine Verbrennung ersten Grades widerspiegelt. {\"U}ber einen Zeitraum von zwei Wochen wurde seine Regeneration hinsichtlich verschiedener Aspekte, wie der Histomorphologie, dem Metabolismus und der Reepithelialisierungsrate, untersucht. Die Modelle zeigten hier viele Parallelen zur Wundheilung in vivo auf. Um die Eignung der Modelle zur Testung von Wirkstoffen zu ermitteln wurde außerdem eine Behandlung mit 5\% Dexpanthenol getestet. Sie resultierte in einer verbesserten Histomorphologie und einer erh{\"o}hten Anzahl an proliferativen Zellen in den Modellen, beschleunigte jedoch die Reepithelialisierung nicht. Zusammengefasst konnten in dieser Arbeit zun{\"a}chst Methoden etabliert werden, um ein medizinisches Produkt aus Keratinozyten herzustellen und zu charakterisieren. Außerdem wurde ein Modell entwickelt, anhand dessen die Wundheilung und Behandlung von Verbrennungen ersten Grades untersucht werden kann und welches als Basis zur Entwicklung von Modellen von tieferen Verbrennungen dienen kann.}, subject = {Tissue Engineering}, language = {de} } @phdthesis{Weidner2018, author = {Weidner, Magdalena Theodora}, title = {Brain serotonin throughout development - for better and for worse}, publisher = {Magdalena T. Weidner}, address = {Maastricht, the Netherlands}, isbn = {978-94-6233-940-8}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163345}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The work presented in this thesis covers the effects of early-life adversity in the context of altered serotonin (5-HT; 5-hydroxytryptamine) system functioning in mice. The main body is focussing on a screening approach identifying molecular processes, potentially involved in distinct behavioural manifestations that emerge from or are concomitant with early adversity and, with regard to some behavioural manifestations, dependent on the functioning of the 5-HT system.}, subject = {Gehirn}, language = {en} } @phdthesis{Engert2022, author = {Engert, Jonas}, title = {Untersuchung neuronaler Stammzellen des Colliculus inferior der Ratte im zeitlichen Verlauf}, doi = {10.25972/OPUS-28264}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-282642}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Neural stem cells (NSCs) have been recently identified in the inferior colliculus (IC). These cells are of particular interest, as no casual therapeutic options for impaired neural structures exist. This research project aims to evaluate the neurogenic potential in the rat IC from early postnatal days until adulthood. The IC of rats from postnatal day 6 up to 48 was examined by neurosphere assays and histological sections. In free-floating IC cell cultures, neurospheres formed from animals from early postnatal to adulthood. The amount of generated neurospheres decreased in older ages and increased with the number of cell line passages. Cells in the neurospheres and the histological sections stained positively with NSC markers (Doublecortin, Sox-2, Musashi-1, Nestin, and Atoh1). Dissociated single cells from the neurospheres differentiated and were stained positively for the neural lineage markers β-III-tubulin, glial fibrillary acidic protein, and myelin basic protein. In addition, NSC markers (Doublecortin, Sox-2, CDK5R1, and Ascl-1) were investigated by qRT-PCR. In conclusion, a neurogenic potential in the rat IC was detected and evaluated from early postnatal days until adulthood. The identification of NSCs in the rat IC and their age-specific characteristics contribute to a better understanding of the development and the plasticity of the auditory pathway and might be activated for therapeutic use.}, subject = {Colliculus inferior}, language = {de} } @phdthesis{Chowdhury2018, author = {Chowdhury, Suvagata Roy}, title = {The Role of MicroRNAs in \(Chlamydia\) Infection}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155866}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The obligate intracellular pathogen Chlamydia trachomatis is the causative agent of trachoma related blindness and the sexually transmitted pelvic inflammatory disease. Being an obligate intracellular pathogen, C. trachomatis has an intricate dependency on the survival of the host cell. This relationship is indispensible owing to the fact that the pathogen spends a considerable fraction of its biphasic lifecycle within a cytoplasmic vacuole inside the host cell, the so-called chlamydial inclusion. The cellular apoptotic-signalling network is governed by several finely tuned regulatory cascades composed of pro- and anti-apoptotic proteins that respond to changes in the cellular homeostasis. In order to facilitate its intracellular survival, Chlamydia has been known to inhibit the premature apoptosis of the host cell via the stabilization of several host anti-apoptotic proteins such as cIAP2 and Mcl-1. While the pro- and anti-apoptotic proteins are the major regulators of the host apoptotic signalling network, a class of the small non-coding RNAs called microRNAs (miRNAs) has increasingly gained focus as a new level of regulatory control over apoptosis. This work investigates the changes in the host miRNA expression profile post Chlamydia infection using a high throughput miRNA deep sequencing approach. Several miRNAs previously associated with the modulation for apoptotic signalling were differentially expressed upon Chlamydia infection in human endothelial cells. Of the differentially regulated miRNAs, miR-30c-5p was of particular interest since it had been previously shown to target the tumor suppressor protein p53. Our lab and others have previously demonstrated that Chlamydia can downregulate the levels of p53 by promoting its proteasomal degradation. This work demonstrates that Chlamydia infection promotes p53 downregulation by increasing the abundance of miR-30c-5p and a successful infection cycle is hindered by a loss of miR-30c-5p. Over the last decade, dedicated research aimed towards a better understanding of apoptotic stimuli has greatly improved our grasp on the subject. While extrinsic stress, deprivation of survival signals and DNA damage are regarded as major proponents of apoptotic induction, a significant responsibility lies with the mitochondrial network of the cell. Mitochondrial function and dynamics are crucial to cell fate determination and dysregulation of either is decisive for cell survival and pathogenesis of several diseases. The ability of the mitochondrial network to perform its essential tasks that include ATP synthesis, anti-oxidant defense, and calcium homeostasis amongst numerous other processes critical to cellular equilibrium is tied closely to the fission and fusion of individual mitochondrial fragments. It is, thus, 8 unsurprising that mitochondrial dynamics is closely linked to apoptosis. In fact, many of the proteins involved regulation of mitochondrial dynamics are also involved in apoptotic signalling. The mitochondrial fission regulator, Drp1 has previously been shown to be transcriptionally regulated by p53 and is negatively affected by a miR- 30c mediated inhibition of p53. Our investigation reveals a significant alteration in the mitochondrial dynamics of Chlamydia infected cells affected by the loss of Drp1. We show that loss of Drp1 upon chlamydial infection is mediated by the miR-30c-5p induced depletion of p53 and results in a hyper-fused architecture of the mitochondrial network. While it is widely accepted that Chlamydia depends on the host cell metabolism for its intracellular growth and development, the role of mitochondria in an infected cell, particularly with respect to its dynamic nature, has not been thoroughly investigated. This work attempts to illustrate the dependence of Chlamydia on miR-30c-5p induced changes in the mitochondrial architecture and highlight the importance of these modulations for chlamydial growth and development.}, subject = {Chlamydienkrankheit}, language = {en} } @phdthesis{Leimbach2017, author = {Leimbach, Andreas}, title = {Genomics of pathogenic and commensal \(Escherichia\) \(coli\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154539}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2017}, abstract = {High-throughput sequencing (HTS) has revolutionized bacterial genomics. Its unparalleled sensitivity has opened the door to analyzing bacterial evolution and population genomics, dispersion of mobile genetic elements (MGEs), and within-host adaptation of pathogens, such as Escherichia coli. One of the defining characteristics of intestinal pathogenic E. coli (IPEC) pathotypes is a specific repertoire of virulence factors (VFs). Many of these IPEC VFs are used as typing markers in public health laboratories to monitor outbreaks and guide treatment options. Instead, extraintestinal pathogenic E. coli (ExPEC) isolates are genotypically diverse and harbor a varied set of VFs -- the majority of which also function as fitness factors (FFs) for gastrointestinal colonization. The aim of this thesis was the genomic characterization of pathogenic and commensal E. coli with respect to their virulence- and antibiotic resistance-associated gene content as well as phylogenetic background. In order to conduct the comparative analyses, I created a database of E. coli VFs, ecoli_VF_collection, with a focus on ExPEC virulence-associated proteins (Leimbach, 2016b). Furthermore, I wrote a suite of scripts and pipelines, bac-genomics-scripts, that are useful for bacterial genomics (Leimbach, 2016a). This compilation includes tools for assembly and annotation as well as comparative genomics analyses, like multi-locus sequence typing (MLST), assignment of Clusters of Orthologous Groups (COG) categories, searching for protein homologs, detection of genomic regions of difference (RODs), and calculating pan-genome-wide association statistics. Using these tools we were able to determine the prevalence of 18 autotransporters (ATs) in a large, phylogenetically heterogeneous strain panel and demonstrate that many AT proteins are not associated with E. coli pathotypes. According to multivariate analyses and statistics the distribution of AT variants is instead significantly dependent on phylogenetic lineages. As a consequence, ATs are not suitable to serve as pathotype markers (Zude et al., 2014). During the German Shiga toxin-producing E. coli (STEC) outbreak in 2011, the largest to date, we were one of the teams capable of analyzing the genomic features of two isolates. Based on MLST and detection of orthologous proteins to known E. coli reference genomes the close phylogenetic relationship and overall genome similarity to enteroaggregative E. coli (EAEC) 55989 was revealed. In particular, we identified VFs of both STEC and EAEC pathotypes, most importantly the prophage-encoded Shiga toxin (Stx) and the pAA-type plasmid harboring aggregative adherence fimbriae. As a result, we could show that the epidemic was caused by an unusual hybrid pathotype of the O104:H4 serotype. Moreover, we detected the basis of the antibiotic multi-resistant phenotype on an extended-spectrum beta-lactamase (ESBL) plasmid through comparisons to reference plasmids. With this information we proposed an evolutionary horizontal gene transfer (HGT) model for the possible emergence of the pathogen (Brzuszkiewicz et al., 2011). Similarly to ExPEC, E. coli isolates of bovine mastitis are genotypically and phenotypically highly diverse and many studies struggled to determine a positive association of putative VFs. Instead the general E. coli pathogen-associated molecular pattern (PAMP), lipopolysaccharide (LPS), is implicated as a deciding factor for intramammary inflammation. Nevertheless, a mammary pathogenic E. coli (MPEC) pathotype was proposed presumably encompassing strains more adapted to elicit bovine mastitis with virulence traits differentiating them from commensals. We sequenced eight E. coli isolates from udder serous exudate and six fecal commensals (Leimbach et al., 2016). Two mastitis isolate genomes were closed to a finished-grade quality (Leimbach et al., 2015). The genomic sequence of mastitis-associated E. coli (MAEC) strain 1303 was used to elucidate the biosynthesis gene cluster of its O70 LPS O-antigen. We analyzed the phylogenetic genealogy of our strain panel plus eleven bovine-associated E. coli reference strains and found that commensal or MAEC could not be unambiguously allocated to specific phylogroups within a core genome tree of reference E. coli. A thorough gene content analysis could not identify functional convergence of either commensal or MAEC, instead both have only very few gene families enriched in either pathotype. Most importantly, gene content and ecoli_VF_collection analyses showed that no virulence determinants are significantly associated with MAEC in comparison to bovine fecal commensals, disproving the MPEC hypothesis. The genetic repertoire of bovine-associated E. coli, again, is dominated by phylogenetic background. This is also mostly the case for large virulence-associated E. coli gene cluster previously associated with mastitis. Correspondingly, MAEC are facultative and opportunistic pathogens recruited from the bovine commensal gastrointestinal microbiota (Leimbach et al., 2017). Thus, E. coli mastitis should be prevented rather than treated, as antibiotics and vaccines have not proven effective. Although traditional E. coli pathotypes serve a purpose for diagnostics and treatment, it is clear that the current typing system is an oversimplification of E. coli's genomic plasticity. Whole genome sequencing (WGS) revealed many nuances of pathogenic E. coli, including emerging hybrid or heteropathogenic pathotypes. Diagnostic and public health microbiology need to embrace the future by implementing HTS techniques to target patient care and infection control more efficiently.}, subject = {Escherichia coli}, language = {en} } @phdthesis{PradaSalcedo2018, author = {Prada Salcedo, Juan Pablo}, title = {Image Processing and other bioinformatic tools for Neurobiology}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-157721}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Neurobiology is widely supported by bioinformatics. Due to the big amount of data generated from the biological side a computational approach is required. This thesis presents four different cases of bioinformatic tools applied to the service of Neurobiology. The first two tools presented belong to the field of image processing. In the first case, we make use of an algorithm based on the wavelet transformation to assess calcium activity events in cultured neurons. We designed an open source tool to assist neurobiology researchers in the analysis of calcium imaging videos. Such analysis is usually done manually which is time consuming and highly subjective. Our tool speeds up the work and offers the possibility of an unbiased detection of the calcium events. Even more important is that our algorithm not only detects the neuron spiking activity but also local spontaneous activity which is normally discarded because it is considered irrelevant. We showed that this activity is determinant in the calcium dynamics in neurons and it is involved in important functions like signal modulation and memory and learning. The second project is a segmentation task. In our case we are interested in segmenting the neuron nuclei in electron microscopy images of c.elegans. Marking these structures is necessary in order to reconstruct the connectome of the organism. C.elegans is a great study case due to the simplicity of its nervous system (only 502 neurons). This worm, despite its simplicity has taught us a lot about neuronal mechanisms. There is still a lot of information we can extract from the c.elegans, therein lies the importance of reconstructing its connectome. There is a current version of the c.elegans connectome but it was done by hand and on a single subject which leaves a big room for errors. By automatizing the segmentation of the electron microscopy images we guarantee an unbiased approach and we will be able to verify the connectome on several subjects. For the third project we moved from image processing applications to biological modeling. Because of the high complexity of even small biological systems it is necessary to analyze them with the help of computational tools. The term in silico was coined to refer to such computational models of biological systems. We designed an in silico model of the TNF (Tumor necrosis factor) ligand and its two principal receptors. This biological system is of high relevance because it is involved in the inflammation process. Inflammation is of most importance as protection mechanism but it can also lead to complicated diseases (e.g. cancer). Chronic inflammation processes can be particularly dangerous in the brain. In order to better understand the dynamics that govern the TNF system we created a model using the BioNetGen language. This is a rule based language that allows one to simulate systems where multiple agents are governed by a single rule. Using our model we characterized the TNF system and hypothesized about the relation of the ligand with each of the two receptors. Our hypotheses can be later used to define drug targets in the system or possible treatments for chronic inflammation or lack of the inflammatory response. The final project deals with the protein folding problem. In our organism proteins are folded all the time, because only in their folded conformation are proteins capable of doing their job (with some very few exceptions). This folding process presents a great challenge for science because it has been shown to be an NP problem. NP means non deterministic Polynomial time problem. This basically means that this kind of problems cannot be efficiently solved. Nevertheless, somehow the body is capable of folding a protein in just milliseconds. This phenomenon puzzles not only biologists but also mathematicians. In mathematics NP problems have been studied for a long time and it is known that given the solution to one NP problem we could solve many of them (i.e. NP-complete problems). If we manage to understand how nature solves the protein folding problem then we might be able to apply this solution to many other problems. Our research intends to contribute to this discussion. Unfortunately, not to explain how nature solves the protein folding problem, but to explain that it does not solve the problem at all. This seems contradictory since I just mentioned that the body folds proteins all the time, but our hypothesis is that the organisms have learned to solve a simplified version of the NP problem. Nature does not solve the protein folding problem in its full complexity. It simply solves a small instance of the problem. An instance which is as simple as a convex optimization problem. We formulate the protein folding problem as an optimization problem to illustrate our claim and present some toy examples to illustrate the formulation. If our hypothesis is true, it means that protein folding is a simple problem. So we just need to understand and model the conditions of the vicinity inside the cell at the moment the folding process occurs. Once we understand this starting conformation and its influence in the folding process we will be able to design treatments for amyloid diseases such as Alzheimer's and Parkinson's. In summary this thesis project contributes to the neurobiology research field from four different fronts. Two are practical contributions with immediate benefits, such as the calcium imaging video analysis tool and the TNF in silico model. The neuron nuclei segmentation is a contribution for the near future. A step towards the full annotation of the c.elegans connectome and later for the reconstruction of the connectome of other species. And finally, the protein folding project is a first impulse to change the way we conceive the protein folding process in nature. We try to point future research in a novel direction, where the amino code is not the most relevant characteristic of the process but the conditions within the cell.}, subject = {Bildverarbeitung}, language = {en} } @phdthesis{Hampe2018, author = {Hampe, Irene Aurelia Ida}, title = {Analysis of the mechanism and the regulation of histatin 5 resistance in \(Candida\) \(albicans\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-159634}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Antimycotics such as fluconazole are frequently used to treat C. albicans infections of the oral mucosa. Prolonged treatment of the fungal infection with fluconazole pose a risk to resistance development. C. albicans can adapt to these stressful environmental changes by regulation of gene expression or by producing genetically altered variants that arise in the population. Adapted variants frequently carry activating mutations in zinc cluster transcription factors, which cause the upregulation of their target genes, including genes encoding efflux pumps that confer drug resistance. MDR1, regulated by the zinc cluster transcription factor Mrr1, as well as CDR1 and CDR2, regulated by the zinc cluster transcription factor Tac1, are well-known examples of genes encoding efflux pumps that extrude the antimycotic fluconazole from the fungal cell and thus contribute to the survival of the fungus. In this study, it was investigated if C. albicans can develop resistance to the antimicrobial peptide histatin 5, which serves as the first line of defence in the oral cavity of the human host. Recently, it was shown that C. albicans transports histatin 5 outside of the Candia cell via the efflux pump Flu1. As efflux pumps are often regulated by zinc cluster transcription factors, the Flu1 efflux pump could also be regulated by a zinc cluster transcription factor which could in a hyperactive form upregulate the expression of the efflux pump, resulting in increased export of histatin 5 and consequently in histatin 5 resistance. In order to find a zinc cluster transcription factor that upregulates FLU1 expression, a comprehensive library of C. albicans strains containing artificially activated forms of zinc cluster transcription factors was screened for suitable candidates. The screening was conducted on medium containing mycophenolic acid because mycophenolic acid is also a substrate of Flu1 and a strain expressing a hyperactive zinc cluster transcription factor that upregulates FLU1 expression should exhibit an easily recognisable mycophenolic acid-resistant phenotype. Further, FACS analysis, quantitative real-time RT-PCR analysis, broth microdilution assays as well as histatin 5 assays were conducted to analyse the mechanism and the regulation of histatin 5 resistance. Several zinc cluster transcription factors caused mycophenolic acid resistance and upregulated FLU1 expression. Of those, only hyperactive Mrr1 was able to confer increased histatin 5 resistance. Finding Mrr1 to confer histatin 5 resistance was highly interesting as fluconazole-resistant strains with naturally occurring Mrr1 gain of function mutations exist, which were isolated from HIV-infected patients with oral candidiasis. These Mrr1 gain of function mutations as well as artificially activated Mrr1 cause fluconazole resistance by upregulation of the efflux pump MDR1 and other target genes. In the course of the study, it was found that expression of different naturally occurring MRR1 gain-of-function mutations in the SC5314 wild type background caused increased FLU1 expression and increased histatin 5 resistance. The same was true for fluconazole-resistant clinical isolates with Mrr1 gain of function mutations, which also caused the overexpression of FLU1. Those cells were less efficiently killed by histatin 5 dependent on Mrr1. Surprisingly, FLU1 contributed only little to histatin 5 resistance, rather, overexpression of MDR1 mainly contributed to the Mrr1-mediated histatin 5 resistance, but also additional Mrr1-target genes were involved. These target genes are yet to be uncovered. Moreover, if a link between the yet unknown Mrr1-target genes contributing to fluconazole resistance and increased histatin 5 resistance can be drawn remains to be discovered upon finding of the responsible target genes. Collectively, this study contributes to the understanding of the impact of prolonged antifungal exposure on the interaction between host and fungus. Drug therapy can give rise to resistance evolution resulting in strains that have not only developed resistance to fluconazole but also to an innate host mechanism, which allows adaption to the host niche even in the absence of the drug.}, subject = {Histatin 5}, language = {en} }