@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{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{BenKraiem2023, author = {Ben-Kraiem, Adel}, title = {Temporal characterization of the blood nerve barrier and specialized pro resolving mediators as therapeutic targets in neuropathy}, doi = {10.25972/OPUS-32079}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-320797}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Abstract Neuropathic pain affects 6.9 to 10\% of the general population, arises from lesion or disease of the somatosensory nervous system and is still challenging to treat. Indeed, current treatments efficacy are relatively low and present strong side effects. To that extent, identifying new targets and developing new treatment strategies constitute a priority. The blood nerve barrier consists of the endoneurial micro-blood vessels and the perineurium sealed by tight junctions constituted of tight junction proteins such claudin-5 and claudin-1. As the functional blood nerve barrier allows nerve tissue protection from external elements and maintains homeostasis, a destabilization or a disruption leads to infiltration of immunocytes promoting neuroinflammation and increased inflammatory mediators that can sensitize nociceptors and enhance pain. Thus resealing the blood nerve barrier in case of neuropathic pain could be a possible treatment strategy. Specialised proresolving mediators such lipoxin A4 and resolvin D1 are small lipids that bind to receptors such the formylpeptide recptor 2 (FPR2) and resolve inflammation. Specially resolvin D1 as anti-inflammatory and analgesic properties. Thus using resolvin D1 or eventually other specialized proresolving mediators in neuropathic pain could reseal the blood nerve barrier and resolve neuropathic pain. The present work aimed to characterize the blood nerve barrier in a preclinical model of diabetic polyneuropathy and nerve injury (chronic constriction injury) and to identify specialized proresolving mediators that seal the blood nerve barrier and thereby alleviate neuropathic pain. In diabetic polyneuropathy, the blood nerve barrier is permeable only to small molecules, which is due to the loss of claudin-1 in the perineurium and a reduced number of blood vessel- associated macrophages. Interestingly, blood nerve barrier permeability did not occur until four to eight weeks after diabetes induction, whereas mechanical hyperalgesia was measurable as early as two weeks. This suggests a pain-maintaining rather than a pain-triggering role of the blood nerve barrier. In case of chronic constriction injury, a resolution process of both mechanical and thermal hyperalgesia occurs between three to six weeks after injury. Here, the blood nerve barrier is permeable to both small and large molecules from the beginning. The pain recovery process occurs primarily in parallel with the sealing of the endoneurial barrier to large molecules such as fibrinogen from the plasma and its degradation. Perineurium is still permeable nine weeks after injury. Metabolomic analyses show that especially precursors of Resolvin D1 as well as its receptor FPR2, are upregulated at the beginning of pain resolution. Application of resolvin D1 loaded nanoparticles or agonists of FPR2 at the injury site before the onset of pain resolution accelerates the process and fibrinogen is no longer detectable in the endoneurium. Depending on the nerve damage, the blood nerve barrier is affected to varying degrees. Direct mechanical trauma and the accompanying inflammation lead to a more pronounced and long-lasting permeability - independent hyperalgesia. Possibly permeability, at least for small molecules, is important for prolonged reparative processes. In the nerve, permeability of capillaries in particular depends not only on tight junctions but also on other cells: in addition to macrophages, pericytes could also have a sealing effect. Endoneurial fibrinogen triggers pain; the exact mechanism remains to be investigated. Resolvin-containing nanoparticles were particularly effective and could be used locally as they contain endogenous substances in non- toxic particles.}, language = {en} } @phdthesis{Breil2023, author = {Breil, Christina}, title = {Look at me and I will feel you: eye contact and social understandig}, doi = {10.25972/OPUS-27802}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-278021}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {One of the features that defines humans as extraordinarily social beings is their striking susceptibility to the gaze of others. The research reported in this dissertation was undertaken to advance our understanding of the role of gaze cues in low-level attentional and higher-order cognitive processes. In particular, effects of gaze were examined with regard to three aspects of human cognition: (1) social attention, (2) social interaction and (3) social understanding. Chapter 1 consists of three manuscripts that investigate the boundary conditions of attention capture by direct gaze and how gaze direction is integrated with facial context information. Manuscript 1 and 2 suggest two necessary requirements for attention capture by direct gaze: a meaningful holistic facial context and sharp foveal vision, respectively. Manuscript 3 shows approach/avoidance-congruency effects between gaze direction and emotion expression on attention. Chapter 2 of this dissertation explores the role of gaze in more naturalistic social scenarios. Manuscript 4 demonstrates that gaze behavior during a conversation shapes our perception of another person. Manuscript 5 builds on these findings by showing that these perceptions define our willingness to act in a prosocial way towards our interaction partner. Finally, chapter 3 adopts a broader perspective on social cognition research with a special focus on methodological aspects. Manuscript 6 is a review highlighting the significance of methodological aspects in social cognition research and stressing the importance of sophisticated decisions on task and stimulus materials. Manuscript 7 introduces a new instrument for the assessment of social understanding in adolescents. Initial application in a young sample group indicates that an understanding of another person's mental states is a capacity that is still developing throughout adolescence. Both manuscripts of this final chapter include eye tracking data that suggest a relationship between gaze behavior and social understanding, a finding that further emphasizes the complex and multifaceted nature of social cognition. I conclude from the findings of this dissertation that research can benefit from adopting a broad view in terms of methodological as well as temporal aspects in order to capture human social cognition in its entirety.}, subject = {Blick}, language = {en} } @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{Forster2023, author = {Forster, Andr{\´e}}, title = {Targeting Temporally Stable Vulnerability Factors in the Prediction of Long-Term Courses of Depression: Diagnostic Considerations and Therapeutic Protocols Based on Transcranial Ultrasonic Neuromodulation of Endophenotypes}, doi = {10.25972/OPUS-27906}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-279065}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Depressive disorders represent one of the main sources for the loss of healthy years of life. One of the reasons for this circumstance is the recurrent course of these disorders, which can be interrupted by current therapeutic approaches, especially in the shortterm, but seem to be maintained at least in part in the long-term. Subsequently, on one hand, this thesis deals with methodological measurement issues in the longitudinal prediction of depressive courses. On the other hand, it addresses two currently discussed neuroscience-based treatment approaches, which are investigated experimentally in a basic-psychological manner and reviewed in the light of their potential to translate results to the application in patient care. These two approaches each address potential mechanisms that may negatively impact long-term disease trajectories: First, stable endophenotypes for vulnerability factors that could regain control over the organism and reactivate maladaptive experiences, or behaviors with increasing temporal distance from therapeutic methods are focused on. In the studies presented, these were influenced by a recently rediscovered method of neuromodulation (transcranial low-intensity focused ultrasound) which is discussed in light of its unique capability to address even deepest, subcortical regions at a high spatial resolution. Lastly, as a second approach, an experimental design for the use of reconsolidation interference is presented, which could provide a first insight into the applicability of corresponding protocols in the field of depressive disorders and thus contribute to the modification, instead of inhibition, of already mentioned endophenotypes. In sum, methodological considerations for monitoring and predicting long-term courses of depression are deducted before two approaches are discussed that could potentially exert positive influences on the recurrent nature of depressive symptoms on their own, in combination with each other, or as augmentation for existing therapeutic procedures.}, subject = {Depression}, language = {en} } @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{Malkmus2023, author = {Malkmus, Christoph}, title = {Establishment of a 3D \(in\) \(vitro\) skin culture system for the obligatory human parasite \(Onchocerca\) \(volvulus\)}, doi = {10.25972/OPUS-31717}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-317171}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Onchocerciasis, the world's second-leading infectious cause of blindness in humans -prevalent in Sub-Saharan Africa - is caused by Onchocerca volvulus (O. volvulus), an obligatory human parasitic filarial worm. Commonly known as river blindness, onchocerciasis is being targeted for elimination through ivermectin-based mass drug administration programs. However, ivermectin does not kill adult parasites, which can live and reproduce for more than 15 years within the human host. These impediments heighten the need for a deeper understanding of parasite biology and parasite-human host interactions, coupled with research into the development of new tools - macrofilaricidal drugs, diagnostics, and vaccines. Humans are the only definitive host for O. volvulus. Hence, no small-animal models exist for propagating the full life cycle of O. volvulus, so the adult parasites must be obtained surgically from subcutaneous nodules. A two-dimensional (2D) culture system allows that O. volvulus larvae develop from the vector-derived infective stage larvae (L3) in vitro to the early pre-adult L5 stages. As problematic, the in vitro development of O. volvulus to adult worms has so far proved infeasible. We hypothesized that an increased biological complexity of a three-dimensional (3D) culture system will support the development of O. volvulus larvae in vitro. Thus, we aimed to translate crucial factors of the in vivo environment of the developing worms into a culture system based on human skin. The proposed tissue model should contain 1. skinspecific extracellular matrix, 2. skin-specific cells, and 3. enable a direct contact of larvae and tissue components. For the achievement, a novel adipose tissue model was developed and integrated to a multilayered skin tissue comprised of epidermis, dermis and subcutis. Challenges of the direct culture within a 3D tissue model hindered the application of the three-layered skin tissue. However, the indirect coculture of larvae and skin models supported the growth of fourth stage (L4) larvae in vitro. The direct culture of L4 and adipose tissue strongly improved the larvae survival. Furthermore, the results revealed important cues that might represent the initial encapsulation of the developing worm within nodular tissue. These results demonstrate that tissue engineered 3D tissues represent an appropriate in vitro environment for the maintenance and examination of O. volvulus larvae.}, subject = {Tissue Engineering}, language = {en} } @phdthesis{Gruendahl2023, author = {Gr{\"u}ndahl, Marthe Erda}, title = {From Lab to Life: Investigating the Role of Social Contact for Anxiety and Related Autonomic Responses}, doi = {10.25972/OPUS-31685}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-316859}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Social contact is an integral part of daily life. Its health-enhancing effects include reduced negative affective experiences of fear and anxiety, a phenomenon called social buffering. This dissertation studied different forms of social contact and their anxiety-buffering effects with diverse methodologies. The laboratory-based first study investigated minimal social contact in the context of pain relief learning. Results showed that the observed decreased autonomic and increased subjective fear responses following pain relief learning were independent of social influence. The minimalistic and controlled social setting may have prevented social buffering. Study 2 targeted social buffering in daily life using Ecological Momentary Assessment. We repeatedly assessed individuals' state anxiety, related cardiovascular responses, and aspects of social interactions with smartphones and portable sensors on five days. Analyses of over 1,500 social contacts revealed gender-specific effects, e.g., heart rate-reducing effects of familiarity in women, but not men. Study 3 examined anxiety, loneliness, and related social factors in the absence of social contact due to social distancing. We constructed and validated a scale measuring state and trait loneliness and isolation, and analysed its link to mental health. Results include a social buffering-like relation of lower anxiety with more trait sociability and sense of belonging. In sum, the studies showed no fear reduction by minimal social contact, but buffering effects relating to social and personal factors in more complex social situations. Anxiety responses during daily social contacts were lower with more familiar or opposite-gender interaction partners. During limited social contact, lower anxiety related to inter-individual differences in sociability, social belonging, and loneliness. By taking research from lab to life, this dissertation underlined the diverse nature of social contact and its relevance to mental health.}, subject = {Angst}, language = {en} } @phdthesis{Rumpf2023, author = {Rumpf, Florian}, title = {Optogenetic stimulation of AVP neurons in the anterior hypothalamus promotes wakefulness}, doi = {10.25972/OPUS-31549}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-315492}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The mammalian central clock, located in the suprachiasmatic nucleus (SCN) of the anterior hypothalamus, controls circadian rhythms in behaviour such as the sleep-wake cycle. It is made up of approximately 20,000 heterogeneous neurons that can be classified by their expression of neuropeptides. There are three major populations: AVP neurons (arginine vasopressin), VIP neurons (vasoactive intestinal peptide), and GRP neurons (gastrin releasing peptide). How these neuronal clusters form functional units to govern various aspects of rhythmic behavior is poorly understood. At a molecular level, biological clocks are represented by transcriptional-posttranslational feedback loops that induce circadian oscillations in the electrical activity of the SCN and hence correlate with behavioral circadian rhythms. In mammals, the sleep wake cycle can be accurately predicted by measuring electrical muscle and brain activity. To investigate the link between the electrical activity of heterogeneous neurons of the SCN and the sleep wake cycle, we optogenetically manipulated AVP neurons in vivo with SSFO (stabilized step function opsin) and simultaneously recorded an electroencephalogram (EEG) and electromyogram (EMG) in freely moving mice. SSFO-mediated stimulation of AVP positive neurons in the anterior hypothalamus increased the total amount of wakefulness during the hour of stimulation. Interestingly, this effect led to a rebound in sleep in the hour after stimulation. Markov chain sleep-stage transition analysis showed that the depolarization of AVP neurons through SSFO promotes the transition from all states to wakefulness. After the end of stimulation, a compensatory increase in transitions to NREM sleep was observed. Ex vivo, SSFO activation in AVP neurons causes depolarization and modifies the activity of AVP neurons. Therefore, the results of this thesis project suggest an essential role of AVP neurons as mediators between circadian rhythmicity and sleep-wake behaviour.}, subject = {Schlaf}, language = {en} } @phdthesis{Vogg2023, author = {Vogg, Nora Johanna}, title = {Mass spectrometry-based quantification of steroids for the diagnostic workup of adrenal tumors}, doi = {10.25972/OPUS-29343}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-293438}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Tumors of the adrenal gland belong to the most frequent neoplasms in humans with a prevalence of 3-10 \% in adults. The aim of the diagnostic workup is the identification of potentially hormone-secreting and / or malignant tumors, because most of these tumors will require surgical resection. Malignant adrenocortical carcinomas (ACC) are very rare and associated with a poor prognosis in advanced stages, therefore, an early and accurate diagnosis is crucial. Within this thesis, two liquid chromatography tandem mass spectrometry (LC-MS/MS) methods for the quantification of steroids in different biomaterials were developed to improve the diagnostic workup of adrenal tumors. First, an LC-MS/MS method for the simultaneous quantification of cortisol and dexamethasone in serum samples after dexamethasone suppression test (DST) was developed, validated, and applied to 400 clinical samples. Newly established method-specific threshold concentrations for cortisol and dexamethasone increased DST specificity from 67.5 \% to 92.4 \% while preserving 100 \% sensitivity. Second, an LC-MS/MS method for the quantification of eleven urinary steroids was developed and validated to improve the differentiation between ACC and adrenocortical adenomas (ACA). A decision tree requiring only two steroids was trained for classification and tested based on 24 h urine samples from 268 patients with adrenal tumor. Malignancy was excluded with a negative predictive value of 100 \% in an independent validation cohort of 84 samples of 24-h urine. A newly proposed simplified diagnostic workflow with urinary steroid profiling as first tier test could obviate additional adrenal-specific imaging in 42 of 64 patients with ACA. The new DST method is already in clinical use at the University Hospital W{\"u}rzburg, whereas the classification model based on urinary steroid profiling will require prospective validation in a larger cohort.}, subject = {Nebennierentumor}, 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{Berger2023, author = {Berger, Constantin}, title = {Influence of the pancreatic extracellular matrix on pancreatic differentiation of human induced pluripotent stem cells and establishment of 3D organ models}, doi = {10.25972/OPUS-24126}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-241268}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Der Diabetes mellitus bezeichnet eine bislang unheilbare, metabolische Erkrankung, die mit schwerwiegenden Folgeerkrankungen einhergeht. Unter den potentiellen Strategien zur Heilung von Diabetes mellitus stellt die in vitro Generierung adulter β-Zellen des endokrinen Pankreas aus humanen induziert pluripotenten Stammzellen (hiPS) einen vielversprechenden Ansatz dar. Zwar erm{\"o}glichen bisherige Protokolle die Herstellung von Zellen mit einem β-Zell-{\"a}hnlichen Charakter, jedoch zeigen diese eine zun{\"a}chst eingeschr{\"a}nkte Funktion, die sich erst im Verlauf einer vollst{\"a}ndigen, durch Transplantation induzierten, Reifung der Zellen, normalisiert. Vorangegangene Studien zeigen, dass sich die Extrazellularmatrix (EZM) von Geweben positiv auf das {\"U}berleben und die Funktion adulter, isolierter Langerhans-Inseln des Pankreas auswirkt. Vor diesem Hintergrund stellt sich die Frage, ob Einfl{\"u}sse der organspezifischen EZM die finale Reifung in vitro hergestellter β-Zellen herbeif{\"u}hren k{\"o}nnen. Um diese Hypothese zu testen, wurde im Rahmen der vorliegenden Studie die Wirkung der pankreatischen EZM auf die in vitro Differenzierung von hiPS zu endokrinen Zellen des Pankreas untersucht sowie die Eignung der pankreatischen EZM zur Etablierung eines Organmodells des endokrinen Pankreas erprobt. Hierzu wurde zun{\"a}chst eine pankreasspezifische EZM-Tr{\"a}gerstruktur (PanMa) durch Dezellularisierung von Pankreaten des Schweins mittels Natriumdesoxycholat hergestellt. Die generierte PanMa wurde anhand (immun-) histologischer F{\"a}rbungen, Rasterelektronen-mikroskopie, Feststellung des DNA-Gehalts sowie durch Versuche zur Perfusion und Wiederbesiedelung mit Endothelzellen eingehend charakterisiert. Zudem wurde auf Basis der ermittelten Daten ein Bewertungssystem (PancScore) zur standardisierten Herstellung der PanMa entwickelt. Als N{\"a}chstes wurde untersucht, ob die PanMa {\"u}ber gewebespezifische EZM-Merkmale verf{\"u}gt. Zu diesem Zweck wurden biophysikalische und strukturelle Eigenschaften wie Festigkeit, Porosit{\"a}t und Hygroskopie mittels rheologischer Messungen sowie Versuchen zur Teilchendiffusion und zum Wasserbindungsverhalten bestimmt und mit azellul{\"a}ren EZMs des D{\"u}nndarms (SISser) und der Lunge (LungMa) verglichen. Nach der eingehenden Analyse der PanMa wurde deren Effekt auf die Eigenschaften von Stammzellen sowie auf fr{\"u}he Stadien der Stammzellentwicklung untersucht. Hierzu wurde die PanMa als Tr{\"a}gerstruktur w{\"a}hrend der Erhaltung sowie der spontanen Differenzierung von hiPS verwendet und der Einfluss der PanMa anhand von Genexpressionsanalysen und immunhistochemischer F{\"a}rbungen analysiert. In einem n{\"a}chsten Schritt wurde die Wirkung der PanMa auf die Differenzierung von hiPS zu endokrinen Zellen des Pankreas untersucht. Hierf{\"u}r wurde die PanMa zum einen in fl{\"u}ssiger Form als Mediumzusatz sowie als solide Tr{\"a}gerstruktur w{\"a}hrend der Differenzierung von hiPS zu hormonexprimierenden Zellen (Rezania et al. 2012; Rezania et al. 2014) oder maturierenden β-Zellen verwendet (Rezania et al. 2014). Der Effekt der PanMa wurde anhand von Genexpressions-analysen, immunhistochemischer F{\"a}rbungen und Analysen zur Glukose-abh{\"a}ngigen Insulinsekretion untersucht. In einem letzten Teil der Studie wurde die Eignung der PanMa zur verl{\"a}ngerten Kultivierung von hiPS-abgeleiteten endokrinen Zellen des Pankreas im Hinblick auf die Etablierung eines Organmodells des endokrinen Pankreas getestet. Hierzu wurde die PanMa zu einem Hydrogel weiterverarbeitet, welches zur Einkapselung und Kultivierung von hiPS-abgeleiteten hormonexprimierenden Zellen eingesetzt wurde. Um die Auswirkungen der Hydrogel-Kultur nachzuvollziehen, wurden die kultivierten Zellen mittels Genexpression, immun-histochemischer F{\"a}rbungen und Analysen zur Glukose-abh{\"a}ngigen Insulinsekretion untersucht. Mittels Dezellularisierung porziner Pankreaten konnte eine zellfreie, pankreasspezifische EZM-Tr{\"a}gerstruktur mit geringen Restbest{\"a}nden an DNA sowie einer weitgehend erhaltenen Mikro- und Ultrastruktur mit typischen EZM-Komponenten wie Kollagen I, III und IV hergestellt werden. Im Rahmen der Besiedelung arterieller Gef{\"a}ße mit humanen Endothelzellen wurde die Zellkompatibilit{\"a}t der hergestellten PanMa sowie eine weitgehende Unversehrtheit der Gef{\"a}ßstrukturen nachgewiesen. Verglichen zu SISser und LungMa zeichnete sich die PanMa als eine relativ weiche, stark wasserbindende, faserbasierte Struktur aus. Weiterhin konnten Hinweise f{\"u}r einen Effekt der PanMa auf den Stammzellcharakter und die fr{\"u}he Entwicklung von hiPS beobachtet werden. Hierbei f{\"u}hrte die Erhaltung von hiPS auf der PanMa zu einer leicht ver{\"a}nderten Expression von Genen des Kernpluripotenznetzwerks sowie zu einem reduziertem NANOG-Proteinsignal. Einhergehend mit diesen Beobachtungen zeigten hiPS w{\"a}hrend spontaner Differenzierung auf der PanMa eine verst{\"a}rkte endodermale Entwicklung. Im Verlauf der pankreatischen Differenzierung f{\"u}hrte die Kultivierung auf der PanMa zu einer signifikant verringerten Expression von Glukagon und Somatostatin, w{\"a}hrend die Expression von Insulin unver{\"a}ndert blieb, was auf eine Verminderung endokriner α- und δ-Zellen hinweist. Diese Ver{\"a}nderung {\"a}ußerte sich jedoch nicht in einer verbesserten Glukose-abh{\"a}ngigen Insulinsekretion der generierten hormonexprimierenden Zellen. Unter Anwendung der PanMa als Hydrogel konnten hormonexprimierenden Zellen {\"u}ber einen verl{\"a}ngerten Zeitraum kultiviert werden. Nach 21 Tagen in Kultur zeigten die eingekapselten hormonexprimierenden Zellen eine unver{\"a}ndert hohe Viabilit{\"a}t, wiesen allerdings bereits eine erste ver{\"a}nderte Zellanordnung sowie eine leicht verminderte Glukose-abh{\"a}ngige Insulinsekretion auf. Zusammengefasst konnte in dieser Studie ein biologischer Effekt gewebespezifischer EZM-Merkmale auf die Differenzierung von hiPS nachgewiesen werden. Dar{\"u}ber hinaus weisen die Daten auf eine relevante Funktion der EZM im Rahmen der endokrinen Spezifizierung von hiPS w{\"a}hrend der pankreatischen Differenzierung hin. Diese Beobachtungen verdeutlichen die eminente Rolle der EZM in der Herstellung von funktionalen hiPS-abgeleiteten Zellen und pl{\"a}dieren f{\"u}r eine st{\"a}rkere Einbindung organspezifischer EZMs im Bereich des Tissue Engineering und der klinischen Translation in der Regenerativen Medizin.}, subject = {Bauchspeicheldr{\"u}se}, language = {en} } @phdthesis{Kunz2023, author = {Kunz, Marcel}, title = {Diffusion kinetics of organic compounds and water in plant cuticular model wax under the influence of diffusing barrier-modifying adjuvants}, doi = {10.25972/OPUS-27487}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-274874}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {To reach their target site, systemic pesticides must enter the plant from a spray droplet applied in the field. The uptake of an active ingredient (AI) takes place via the barrier-forming cuticular membrane, which is the outermost layer of the plant, separating it from the surrounding environment. Formulations are usually used which, in addition to the AI, also contain stabilizers and adjuvants. Adjuvants can either have surface-active properties or they act directly as barrier-modifying agents. The latter are grouped in the class of accelerating adjuvants, whereby individual variants may also have surface-active properties. The uptake of a pesticide from a spray droplet depends essentially on its permeability through the cuticular barrier. Permeability defines a combined parameter, which is the product of AI mobility and AI solubility within the cuticle. In recent decades, several tools have been developed that allowed the determination of individual parameters of organic compound penetration across the cuticular membrane. Nevertheless, earlier studies showed that mainly cuticular waxes are the barrier-determining component of the cuticular membrane and additionally, it was shown that mainly the very-long-chain aliphatic compounds (VLCAs) are responsible for establishing an effective barrier. However, the barrier-determining role of the individual VLCAs, being classified according to their respective functional groups, is still unknown. Therefore, the following objectives were pursued and achieved in this work: (1) A new ATR-FTIR-based approach was developed to measure the temperature-dependent real-time diffusion kinetics of organic models for active ingredients (AIs) in paraffin wax, exclusively consisting of very-long chain alkanes. (2) The developed ATR-FTIR approach was applied to determine the diffusion kinetics of self-accelerating adjuvants in cuticular model waxes of different VLCA composition. At the same time, wax-specific changes were recorded in the respective IR spectra, which provided information about the respective wax modification. (3) The ATR-FTIR method was used to characterize the diffusion kinetics, as well as to determine the wax-specific sorption capacities for an AI-modeling organic compound and water in cuticular model waxes after adjuvant treatment. Regarding the individual chemical compositions and structures, conclusions were drawn about the adjuvant-specific modes of action (MoA). In the first chapter, the ATR-FTIR based approach to determine organic compound diffusion kinetics in paraffin wax was successfully established. The diffusion kinetics of the AI modelling organic compounds heptyl parabene (HPB) and 4-cyanophenol (CNP) were recorded, comprising different lipophilicities and molecular volumes typical for AIs used in pesticide formulations. Derived diffusion coefficients ranged within 10-15 m2 s-1, thus being thoroughly higher than those obtained from previous experiments using an approach solely investigating desorption kinetics in reconstituted cuticular waxes. An ln-linear dependence between the diffusion coefficients and the applied diffusion temperature was demonstrated for the first time in cuticular model wax, from which activation energies were derived. The determined activation energies were 66.2 ± 7.4 kJ mol-1 and 56.4 ± 9.8 kJ mol-1, being in the expected range of already well-founded activation energies required for organic compound diffusion across cuticular membranes, which again confirmed the significant contribution of waxes to the cuticular barrier. Deviations from the assumed Fickian diffusion were attributed to co-occurring water diffusion and apparatus-specific properties. In the second and third chapter, mainly the diffusion kinetics of accelerating adjuvants in the cuticular model waxes candelilla wax and carnauba wax were investigated, and simultaneously recorded changes in the wax-specific portion of the IR spectrum were interpreted as indications of plasticization. For this purpose, the oil derivative methyl oleate, as well as the organophosphate ester TEHP and three non-ionic monodisperse alcohol ethoxylates (AEs) C12E2, C12E4 and C12E6 were selected. Strong dependence of diffusion on the respective principal components of the mainly aliphatic waxes was demonstrated. The diffusion kinetics of the investigated adjuvants were faster in the n-alkane dominated candelilla wax than in the alkyl ester dominated carnauba wax. Furthermore, the equilibrium absorptions, indicating equilibrium concentrations, were also higher in candelilla wax than in carnauba wax. It was concluded that alkyl ester dominated waxes feature higher resistance to diffusion of accelerating adjuvants than alkane dominated waxes with shorter average chain lengths due to their structural integrity. This was also found either concerning candelilla/policosanol (n-alcohol) or candelilla/rice bran wax (alkyl-esters) blends: with increasing alcohol concentration, the barrier function was decreased, whereas it was increased with increasing alkyl ester concentration. However, due to the high variability of the individual diffusion curves, only a trend could be assumed here, but significant differences were not shown. The variability itself was described in terms of fluctuating crystalline arrangements and partial phase separation of the respective wax mixtures, which had inevitable effects on the adjuvant diffusion. However, diffusion kinetics also strongly depended on the studied adjuvants. Significantly slower methyl oleate diffusion accompanied by a less pronounced reduction in orthorhombic crystallinity was found in carnauba wax than in candelilla wax, whereas TEHP diffusion was significantly less dependent on the respective wax structure and therefore induced considerable plasticization in both waxes. Of particular interest was the AE diffusion into both waxes. Differences in diffusion kinetics were also found here between candelilla blends and carnauba wax. However, these depended equally on the degree of ethoxylation of the respective AEs. The lipophilic C12E2 showed approximately Fickian diffusion kinetics in both waxes, accompanied by a drastic reduction in orthorhombic crystallinity, especially in candelilla wax, whereas the more hydrophilic C12E6 showed significantly retarded diffusion kinetics associated with a smaller effect on orthorhombic crystallinity. The individual diffusion kinetics of the investigated adjuvants sometimes showed drastic deviations from the Fickian diffusion model, indicating a self-accelerating effect. Hence, adjuvant diffusion kinetics were accompanied by a distinct initial lag phase, indicating a critical concentration in the wax necessary for effective penetration, leading to sigmoidal rather than to exponential diffusion kinetics. The last chapter dealt with the adjuvant-affected diffusion of the AI modelling CNP in candelilla and carnauba wax. Using ATR-FTIR, diffusion kinetics were recorded after adjuvant treatment, all of which were fully explicable based on the Fickian model, with high diffusion coefficients ranging from 10-14 to 10-13 m2 s-1. It is obvious that the diffusion coefficients presented in this work consistently demonstrated plasticization induced accelerated CNP mobilities. Furthermore, CNP equilibrium concentrations were derived, from which partition- and permeability coefficients could be determined. Significant differences between diffusion coefficients (mobility) and partition coefficients (solubility) were found on the one hand depending on the respective waxes, and on the other hand depending on treatment with respective adjuvants. Mobility was higher in candelilla wax than in carnauba wax only after methyl oleate treatment. Treatment with TEHP and AEs resulted in higher CNP mobility in the more polar alkyl ester dominated carnauba wax. The partition coefficients, on the other hand, were significantly lower after methyl oleate treatment in both candelilla and carnauba wax as followed by TEHP or AE treatment. Models were designed for the CNP penetration mode considering the respective adjuvants in both investigated waxes. Co-penetrating water, which is the main ingredient of spray formulations applied in the field, was likely the reason for the drastic differences in adjuvant efficacy. Especially the investigated AEs favored an enormous water uptake in both waxes with increasing ethoxylation level. Surprisingly, this effect was also found for the lipophilic TEHP in both waxes. This led to the assumption that the AI permeability is not exclusively determined by adjuvant induced plasticization, but also depends on a "secondary plasticization", induced by adjuvant-attracted co-penetrating water, consequently leading to swelling and drastic destabilization of the crystalline wax structure. The successful establishment of the presented ATR-FTIR method represents a milestone for the study of adjuvant and AI diffusion kinetics in cuticular waxes. In particular, the simultaneously detectable wax modification and, moreover, the determinable water uptake form a perfect basis to establish the ATR-FTIR system as a universal screening tool for wax-adjuvants-AI-water interaction in crop protection science.}, subject = {Pflanzen}, language = {en} } @phdthesis{Rizzo2023, author = {Rizzo, Giuseppe}, title = {Determinants of macrophage and neutrophil heterogeneity in cardiac repair after myocardial infarction}, doi = {10.25972/OPUS-31068}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-310680}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Current therapeutic strategies efficiently improve survival in patients after myocardial infarction (MI). Nevertheless, long-term consequences such as heart failure development, are still one of the leading causes of death worldwide. Inflammation is critically involved in the cardiac healing process after MI and has a dual role, contributing to both tissue healing and tissue damage. In the last decade, a lot of attention was given to targeting inflammation as a potential therapeutic approach in MI, but the poor understanding of inflammatory cell heterogeneity and function is a limit to the development of immune modulatory strategies. The recent development of tools to profile immune cells with high resolution has provided a unique opportunity to better understand immune cell heterogeneity and dynamics in the ischemic heart. In this thesis, we employed single-cell RNA-sequencing combined with detection of epitopes by sequencing (CITE-seq) to refine our understanding of neutrophils and monocytes/macrophages heterogeneity and dynamic after experimental myocardial infarction. Neutrophils rapidly invade the infarcted heart shortly after ischemic damage and have previously been proposed to display time-dependent functional heterogeneity. At the single-cell level, we observed dynamic transcriptional heterogeneity in neutrophil populations during the acute post-MI phase and defined previously unknown cardiac neutrophil states. In particular, we identified a locally acquired SiglecFhi neutrophil state that displayed higher ROS production and phagocytic ability compared to newly recruited neutrophils, suggesting the acquisition of specific function in the infarcted heart. These findings highlight the importance of the tissue microenvironment in shaping neutrophil response. From the macrophage perspective, we characterized MI-associated monocyte-derived macrophage subsets, two with a pro-inflammatory gene signature (MHCIIhiIl1βhi) and three Trem2hi macrophage populations with a lipid associated macrophage (LAM) signature, also expressing pro-fibrotic and tissue repair genes. Combined analysis of blood monocytes and cardiac monocyte/macrophages indicated that the Trem2hi LAM signature is acquired in the infarcted heart. We furthermore characterized the role of TREM2, a surface protein expressed mainly in macrophages and involved in macrophage survival and function, in the post-MI macrophage response and cardiac repair. Using TREM2 deficient mice, we demonstrate that acquisition of the LAM signature in cardiac macrophages after MI is partially dependent on TREM2. While their cardiac function was not affected, TREM2 deficient mice showed reduced collagen deposition in the heart after MI. Thus, our data in Trem2-deficient mice highlight the role of TREM2 in promoting a macrophage pro-fibrotic phenotype, in line with the pro-fibrotic/tissue repair gene signature of the Trem2hi LAM-signature genes. Overall, our data provide a high-resolution characterization of neutrophils and macrophage heterogeneity and dynamics in the ischemic heart and can be used as a valuable resource to investigate how these cells modulate the healing processes after MI. Furthermore, our work identified TREM2 as a regulator of macrophage phenotype in the infarcted heart}, subject = {Makrophage}, language = {en} } @phdthesis{Imam2023, author = {Imam, Nasir}, title = {Molecular basis of collybistin conformational activation}, doi = {10.25972/OPUS-31145}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311458}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The nervous system relies on an orchestrated assembly of complex cellular entities called neurons, which are specifically committed to information management and transmission. Inter-neuronal communication takes place via synapses, membrane-membrane junctions which ensure efficient signal transfer. Synaptic neurotransmission involves release of presynaptic neurotransmitters and their reception by cognate receptors at postsynaptic terminals. Inhibitory neurotransmission is primarily mediated by the release of neurotransmitters GABA (γ-Aminobutyric acid) and glycine, which are precisely sensed by GABA type-A receptors (GABAARs) and glycine receptors (GlyRs), respectively. GABAAR assembly and maintenance is coordinated by various postsynaptic neuronal factors including the scaffolding protein gephyrin, the neuronal adaptor collybistin (CB) and cell adhesion proteins of the neuroligin (NL) family, specifically NL2 and NL4. At inhibitory postsynaptic specializations, gephyrin has been hypothesized to form extended structures underneath the plasma membrane, where its interaction with the receptors leads to their stabilization and impedes their lateral movement. Gephyrin mutations have been associated with various brain disorders, including autism, schizophrenia, Alzheimer's disease, and epilepsy. Furthermore, gephyrin loss is lethal and causes mice to die within the first post-natal day. Gephyrin recruitment from intracellular deposits to postsynaptic membranes primarily relies on the adaptor protein CB. As a moonlighting protein, CB, a guanine nucleotide exchange factor (GEF), also catalyzes a nucleotide exchange reaction, thereby regenerating the GTP-bound state of the small GTPase Cdc42 from its GDP-bound form. The CB gene undergoes alternative splicing with the majority of CB splice variants featuring an N-terminal SH3 domain followed by tandem Dbl-homology (DH) and pleckstrin-homology (PH) domains. Previous studies demonstrated that the most widely expressed, SH3-domain containing splice variant (CB2SH3+) preferentially adopts a closed conformation, in which the N-terminally located SH3 domain forms intra-molecular interaction with the DH-PH domain tandem. Previous cell-based studies indicated that SH3 domain-encoding CB variants remain untargeted and colocalize with intracellular gephyrin deposits and hence require additional factors which interact with the SH3 domain, thus inducing an open or active conformation. The SH3 domain-deficient CB isoform (CB2SH3-), on the contrary, adopts an open conformation, which possess enhanced postsynaptic gephyrin-clustering and also effectively replenishes the GTP-bound small GTPase-Cdc42 from its GDP-bound state. Despite the fundamental role of CB as a neuronal adaptor protein maintaining the proper function of inhibitory GABAergic synapses, its interactions with the neuronal scaffolding protein gephyrin and other post synaptic neuronal factors remain poorly understood. Moreover, CB interaction studies with the small GTPase Cdc42 and TC10, a closely related member of Cdc42 subfamily, remains poorly characterized. Most importantly, the roles of the neuronal factors and small GTPases in CB conformational activation have not been elucidated. This PhD dissertation primarily focuses on delineating the molecular basis of the interactions between CB and postsynaptic neuronal factors. During the course of my PhD dissertation, I engineered a series of CB FRET (F{\"o}rster Resonance Energy Transfer) sensors to characterize the CB interaction with its binding partners along with outlining their role in CB conformational activation. Through the aid of these CB FRET sensors, I analyzed the gephyrin-CB interaction, which, due to technical limitations remained unaddressed for more than two decades (refer Chapter 2 for more details). Subsequently, I also unraveled the molecular basis of the interactions between CB and the neuronal cell adhesion factor neuroligin 2 (refer chapter 2) and the small GTPases Cdc42 and TC10 (refer chapter 3) and describe how these binding partners induce a conformational activation of CB. In summary, this PhD dissertation provides strong evidence of a closely knit CB communication network with gephyrin, neuroligin and the small GTPase TC10, wherein CB activation from closed/inactive to open/active states is effectively triggered by these ligands.}, language = {en} } @phdthesis{Aster2023, author = {Aster, Hans-Christoph}, title = {Characterization of subgroups in fibromyalgia syndrome}, doi = {10.25972/OPUS-31304}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-313049}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The present cumulative dissertation summarizes three clinical studies, which examine subgroups of patients within the fibromyalgia syndrome (FMS). FMS entails chronic pain and associated symptoms, and its pathophysiology is incompletely understood (1). Previous studies show that there is a subgroup of patients with FMS with objective histological pathology of the small nerve fibers of the peripheral nervous system (PNS). Another subgroup of FMS patients does not show any signs of pathological changes of the small nerve fibers. The aim of this dissertation was to compare FMS patients with healthy controls, and these two FMS subgroups for differences in the central nervous system (CNS) in order to explore possible interactions between PNS and the CNS. Regarding the CNS, differences of FMS patients with healthy controls have already been found in studies with small sample sizes, but no subgroups have yet been identified. Another aim of this thesis was to test whether the subgroups show a different response to different classes of pain medication. The methods used in this thesis are structural and functional magnetic resonance imaging (MRI), magnetic resonance diffusion imaging and magnetic resonance spectroscopy. For the evaluation of clinical symptoms, we used standardized questionnaires. The subgroups with and without pathologies of the PNS were determined by skin biopsies of the right thigh and lower leg based on the intraepidermal nerve fiber density (IENFD) of the small nerve fibers. 1) In the first MRI study, 43 female patients with the diagnosis of FMS and 40 healthy control subjects, matched in age and body mass index, were examined with different MRI sequences. Cortical thickness was investigated by structural T1 imaging, white matter integrity by diffusion tensor imaging and functional connectivity within neuronal networks by functional resting state MRI. Compared to the controls, FMS patients had a lower cortical volume in bilateral frontotemporoparietal regions and the left insula, but a higher cortical volume in the left pericalcarine cortex. Compared to the subgroup without PNS pathology, the subgroup with PNS pathology had lower cortical volume in both pericalcarine cortices. Diffusion tensor imaging revealed an increased fractional anisotropy (FA) of FMS patients in corticospinal pathways such as the corona radiata, but also in regions of the limbic systems such as the fornix and cingulum. Subgroup comparison again revealed lower mean FA values of the posterior thalamic radiation and the posterior limb of the left internal capsule in the subgroup with PNS pathology. In the functional connectivity analysis FMS patients, compared to controls, showed a hypoconnectivity between the right median frontal gyrus and the posterior cerebellum and the right crus cerebellum, respectively. In the subgroup comparisons, the subgroup with PNS pathology showed a hyperconnectivity between both inferior frontal gyri, the right posterior parietal cortex and the right angular gyrus. In summary, these results show that differences in brain morphology and functional connectivity exist between FMS patients with and without PNS pathology. These differences were not associated with symptom duration or severity and, in some cases, have not yet been described in the context of FMS. The differences in brain morphology and connectivity between subgroups could also lead to a differential response to treatment with centrally acting drugs. Further imaging studies with FMS patients should take into account this heterogeneity of FMS patient cohorts. 2) Following the results from the first MRI study, drug therapies of FMS patients and their treatment response were compared between PNS subgroups. As there is no licensed drug for FMS in Europe, the German S3 guideline recommends amitriptyline, duloxetine and pregabalin for temporary use. In order to examine the current drug use in FMS patients in Germany on a cross-sectional basis, 156 patients with FMS were systematically interviewed. The drugs most frequently used to treat pain in FMS were non-steroidal anti-inflammatory drugs (NSAIDs) (28.9\%), metamizole (15.4\%) and amitriptyline (8.8\%). Pain relief assessed by patients on a numerical rating scale from 0-10 averaged 2.2 points for NSAIDs, 2.0 for metamizole and 1.5 for amitriptyline. Drugs that were discontinued for lack of efficacy and not for side effects were acetaminophen (100\%), flupirtine (91.7\%), selective serotonin reuptake inhibitors (81.8\%), NSAIDs (83.7\%) and weak opioids (74.1\%). Patients were divided into subgroups with and without PNS pathology as determined by skin biopsies. We found no differences in drug use and effect between the subgroups. Taken together, these results show that many FMS patients take medication that is not in accordance with the guidelines. The reduction of symptoms was best achieved with metamizole and NSAIDs. Further longitudinal studies on medication in FMS are necessary to obtain clearer treatment recommendations. 3) Derived from previous pharmacological and imaging studies (with smaller case numbers), there is a hypothesis in the FMS literature that hyperreactivity of the insular cortex may have an impact on FMS. The hyperreactivity seems to be due to an increased concentration of the excitatory neurotransmitter glutamate in the insular cortex of FMS patients. The hypothesis is supported by magnetic resonance spectroscopy studies with small number of cases, as well as results from pharmacological studies with glutamate-inhibiting medication. Studies from animal models have also shown that an artificially induced increase in glutamate in the insular cortex can lead to reduced skin innervation. Therefore, the aim of this study was to compare glutamate and GABA concentrations in the insular cortex of FMS patients with those of healthy controls using magnetic resonance imaging. There was no significant difference of both neurotransmitters between the groups. In addition, there was no correlation between the neurotransmitter concentrations and the severity of clinical symptoms. There were also no differences in neurotransmitter concentrations between the subgroups with and without PNS pathology. In conclusion, our study could not show any evidence of a correlation of glutamate and GABA concentrations with the symptoms of FMS or the pathogenesis of subgroups with PNS pathologies.}, subject = {Fibromyalgie}, language = {en} } @phdthesis{Franzke2023, author = {Franzke, Myriam}, title = {Keep on track : The use of visual cues for orientation in monarch butterflies}, doi = {10.25972/OPUS-28470}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-284709}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The monarch butterfly (Danaus plexippus) performs one of the most astonishing behaviors in the animal kingdom: every fall millions of these butterflies leave their breeding grounds in North Amerika and migrate more than 4.000 km southwards until they reach their overwintering habitat in Central Mexico. To maintain their migratory direction over this enormous distance, the butterflies use a time-compensated sun compass. Beside this, skylight polarization, the Earth's magnetic field and specific mountain ranges seem to guide the butterflies as well the south. In contrast to this fascinating orientation ability, the behavior of the butterflies in their non-migratory state received less attention. Although they do not travel long distances, they still need to orient themselves to find food, mating partners or get away from competitors. The aim of the present doctoral thesis was to investigate use of visual cues for orientation in migrating as well as non-migrating monarch butterflies. For this, field experiments investigating the migration of the butterflies in Texas (USA) were combined with experiments testing the orientation performance of non-migratory butterflies in Germany. In the first project, I recorded the heading directions of tethered butterflies during their annual fall migration. In an outdoor flight simulator, the butterflies maintained a southwards direction as long as they had a view of the sun's position. Relocating the position of the sun by 180° using a mirror, revealed that the sun is the animals' main orientation reference. Furthermore, I demonstrated that when the sun is blocked and a green light stimulus (simulated sun) is introduced, the animals interpreted this stimulus as the 'real' sun. However, this cue was not sufficient to set the migratory direction when simulated as the only visual cue in indoor experiments. When I presented the butterflies a linear polarization pattern additionally to the simulated sun, the animals headed in the correct southerly direction showing that multiple skylight cues are required to guide the butterflies during their migration. In the second project, I, furthermore, demonstrated that non-migrating butterflies are able to maintain a constant direction with respect to a simulated sun. Interestingly, they ignored the spectral component of the stimulus and relied on the intensity instead. When a panoramic skyline was presented as the only orientation reference, the butterflies maintained their direction only for short time windows probably trying to stabilize their flight based on optic-flow information. Next, I investigated whether the butterflies combine celestial with local cues by simulating a sun stimulus together with a panoramic skyline. Under this conditions, the animals' directedness was increased demonstrating that they combine multiple visual cues for spatial orientation. Following up on the observation that a sun stimulus resulted in a different behavior than the panoramic skyline, I investigated in my third project which orientation strategies the butterflies use by presenting different simulated cues to them. While a bright stripe on a dark background elicited a strong attraction of the butterflies steering in the direction of the stimulus, the inverted version of the stimulus was used for flight stabilization. In contrast to this, the butterflies maintained arbitrary directions with a high directedness with respect to a simulated sun. In an ambiguous scenery with two identical stimuli (two bright stripes, two dark stripes, or two sun stimuli) set 180° apart, a constant flight course was only achieved when two sun stimuli were displayed suggesting an involvement of the animals' internal compass. In contrast, the butterflies used two dark stripes for flight stabilization and were alternatingly attracted by two bright stripes. This shows that monarch butterflies use stimulus-dependent orientation strategies and gives the first evidence for different neuronal pathways controlling the output behavior.}, subject = {Monarchfalter}, language = {en} } @phdthesis{Fasemore2023, author = {Fasemore, Akinyemi Mandela}, title = {Genomic and internet based analysis of \(Coxiella\) \(burnetii\)}, doi = {10.25972/OPUS-29663}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296639}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Coxiella burnetii, a Gram negative obligate intracellular bacterium, is the causative agent of Q fever. It has a world wide distribution and has been documented to be capable of causing infections in several domestic animals, livestock species, and human beings. Outbreaks of Q fever are still being observed in livestock across animal farms in Europe, and primary transmission to humans still oc- curs especially in animal handlers. Public health authorities in some countries like Germany are required by law to report human acute cases denoting the significance of the challenge posed by C. burnetii to public health. In this thesis, I have developed a platform alongside methods to address the challenges of genomic analyses of C. burnetii for typing purposes. Identification of C. burnetii isolates is an important task in the laboratory as well as in the clinics and genotyping is a reliable method to identify and characterize known and novel isolates. Therefore, I designed and implemented several methods to facilitate the genotyping analyses of C. burnetii genomes in silico via a web platform. As genotyping is a data intensive process, I also included additional features such as visualization methods and databases for interpretation and storage of obtained results. I also developed a method to profile the resistome of C. burnetii isolates using a machine learning approach. Data about antibiotic resistance in C. burnetii are scarce majorly due to its lifestyle and the difficulty of cultivation in laboratory media. Alternative methods that rely on homology identification of resistance genes are also inefficient in C. burnetii, hence, I opted for a novel approach that has been shown to be promising in other bacteria species. The applied method relied on an artificial neural network as well as amino acid composition of position specific scoring matrix profile for feature extraction. The resulting model achieved an accuracy of ≈ 0.96 on test data and the overall performance was significantly higher in comparison to existing models. Finally, I analyzed two new C. burnetii isolates obtained from an outbreak in Germany, I compared the genome to the RSA 493 reference isolate and found extensive deletions across the genome landscape. This work has provided a new digital infrastructure to analyze and character- ize C. burnetii genomes that was not in existence before and it has also made a significant contribution to the existing information about antibiotic resistance genes in C. burnetii.}, language = {en} } @phdthesis{Nguyen2023, author = {Nguyen, Tu Anh Thi}, title = {Neural coding of different visual cues in the monarch butterfly sun compass}, doi = {10.25972/OPUS-30380}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303807}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Monarch butterflies are famous for their annual long-distance migration. Decreasing temperatures and reduced daylight induce the migratory state in the autumn generation of monarch butterflies. Not only are they in a reproductive diapause, they also produce fat deposits to be prepared for the upcoming journey: Driven by their instinct to migrate, they depart from their eclosion grounds in the northern regions of the North American continent and start their southern journey to their hibernation spots in Central Mexico. The butterflies cover a distance of up to 4000 km across the United States. In the next spring, the same butterflies invert their preferred heading direction due to seasonal changes and start their northward spring migration. The spring migration is continued by three consecutive butterfly generations, until the animals repopulate the northern regions in North America as non-migratory monarch butterflies. The monarch butterflies' migratory state is genetically and epigenetically regulated, including the directed flight behavior. Therefore, the insect's internal compass system does not only have to encode the butterflies preferred, but also its current heading direction. However, the butterfly's internal heading representation has to be matched to external cues, to avoid departing from its initial flight path and increasing its risk of missing its desired destination. During the migratory flight, visual cues provide the butterflies with reliable orientation information. The butterflies refer to the sun as their main orientation cue. In addition to the sun, the butterflies likely use the polarization pattern of the sky for orientation. The sky compass signals are processed within a region in the brain, termed the central complex (CX). Previous research on the CX neural circuitry of the monarch butterflies demonstrated that tangential central complex neurons (TL) carry the visual input information into the CX and respond to a simulated sun and polarized light. However, whether these cells process additional visual cues like the panoramic skyline is still unknown. Furthermore, little is known about how the migratory state affects visual cue processing. In addition to this, most experiments studying the monarch butterfly CX focused on how neurons process single visual cues. However, how combined visual stimuli are processed in the CX is still unknown. This thesis is investigating the following questions: 1) How does the migratory state affect visual cue processing in the TL cells within the monarch butterfly brain? 2) How are multiple visual cues integrated in the TL cells? 3) How is compass information modulated in the CX? To study these questions, TL neurons from both animal groups (migratory and non-migratory) were electrophysiologically characterized using intracellular recordings while presenting different simulated celestial cues and visual sceneries. I showed that the TL neurons of migratory butterflies are more narrowly tuned to the sun, possibly helping them in keeping a directed flight course during migration. Furthermore, I found that TL cells encode a panoramic skyline, suggesting that the CX network combines celestial and terrestrial information. Experiments with combined celestial stimuli revealed that the TL cells combine both cue information linearly. However, if exposing the animals to a simulated visual scenery containing a panoramic skyline and a simulated sun, the single visual cues are weighted differently. These results indicate that the CX's input region can flexibly adapt to different visual cue conditions. Furthermore, I characterize a previously unknown neuron in the monarch butterfly CX which responds to celestial stimuli and connects the CX with other brain neuropiles. How this cell type affects heading direction encoding has yet to be determined.}, subject = {Monarchfalter}, language = {en} } @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{Yuan2023, author = {Yuan, Xidi}, title = {Aging and inflammation in the peripheral nervous system}, doi = {10.25972/OPUS-23737}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-237378}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Aging is known to be a risk factor for structural abnormalities and functional decline in the nervous system. Characterizing age-related changes is important to identify putative pathways to overcome deleterious effects and improve life quality for the elderly. In this study, the peripheral nervous system of 24-month-old aged C57BL/6 mice has been investigated and compared to 12-month-old adult mice. Aged mice showed pathological alterations in their peripheral nerves similar to nerve biopsies from elderly human individuals, with nerve fibers showing demyelination and axonal damage. Such changes were lacking in nerves of adult 12-month-old mice and adult, non-aged humans. Moreover, neuromuscular junctions of 24-month-old mice showed increased denervation compared to adult mice. These alterations were accompanied by elevated numbers of macrophages in the peripheral nerves of aged mice. The neuroinflammatory conditions were associated with impaired myelin integrity and with a decline of nerve conduction properties and muscle strength in aged mice. To determine the pathological impact of macrophages in the aging mice, macrophage depletion was performed in mice by oral administration of CSF-1R specific kinase (c-FMS) inhibitor PLX5622 (300 mg/kg body weight), which reduced the number of macrophages in the peripheral nerves by 70\%. The treated mice showed attenuated demyelination, less muscle denervation and preserved muscle strength. This indicates that macrophage-driven inflammation in the peripheral nerves is partially responsible for the age-related neuropathy in mice. Based on previous observations that systemic inflammation can accelerate disease progression in mouse models of neurodegenerative diseases, it was hypothesized that systemic inflammation can exacerbate the peripheral neuropathy found in aged mice. To investigate this hypothesis, aged C57BL/6 mice were intraperitoneally injected with a single dose of lipopolysaccharide (LPS; 500 μg/kg body weight) to induce systemic inflammation by mimicking bacterial infection, mostly via activation of Toll-like receptors (TLRs). Altered endoneurial macrophage activation, highlighted by Trem2 downregulation, was found in LPS injected aged mice one month after injection. This was accompanied by a so far rarely observed form of axonal perturbation, i.e., the occurrence of "dark axons" characterized by a damaged cytoskeleton and an increased overall electron density of the axoplasm. At the same time, however, LPS injection reduced demyelination and muscle denervation in aged mice. Interestingly, TREM2 deficiency in aged mice led to similar changes to LPS injection. This suggests that LPS injection likely mitigates aging-related demyelination and muscle denervation via Trem2 downregulation. Taken together, this study reveals the role of macrophage-driven inflammation as a pathogenic mediator in age-related peripheral neuropathy, and that targeting macrophages might be an option to mitigate peripheral neuropathies in aging individuals. Furthermore, this study shows that systemic inflammation may be an ambivalent modifier of age-related nerve damage, leading to a distinct type of axonal perturbation, but in addition to functionally counteracting, dampened demyelination and muscle denervation. Translationally, it is plausible to assume that tipping the balance of macrophage polarization to one direction or the other may determine the functional outcome in the aging peripheral nervous system of the elderly.}, subject = {Maus}, language = {en} } @phdthesis{Fuhr2023, author = {Fuhr, Viktoria}, title = {Target Identification and Validation in Ibrutinib-treated Mantle Cell Lymphoma}, doi = {10.25972/OPUS-31059}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-310595}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Ibrutinib serves as an efficient second-line therapy in relapsed/refractory mantle cell lymphoma. However, resistance to the BTK inhibitor results in a poor prognosis for patients. Since the mechanisms leading to resistance in initially responding tumor cells are poorly understood, this work aimed to decipher acquired features in ibrutinib-surviving cells of a sensitive mantle cell lymphoma cell line and evaluate these potential therapeutic targets in ibrutinib-treated mantle cell lymphoma. Time-resolved single-cell RNA sequencing was performed to track the transcriptomic evolution of REC-1 cells across 6 and 48 hours of treatment. Single-cell analysis uncovered a subpopulation of REC-1 with potentially greater aggressiveness and survival advantage by benefiting from interaction with the tumor microenvironment. Upregulation of B-cell receptor genes, elevated surface antigen expression of CD52 and metabolic rewiring to higher dependence on oxidative phosphorylation were identified as further potential resistance features of ibrutinib-surviving cells. RNA sequencing after prolonged incubation corroborated the increase in CD52 and oxidative phosphorylation as dominant characteristics of the cells surviving the 4-day treatment, highlighting their potential as therapeutic targets in combination with ibrutinib treatment. Concomitant use of ibrutinib and the oxidative phosphorylation inhibitor IACS-010759 increased toxicity compared to ibrutinib monotherapy due to higher apoptosis and greater inhibition of proliferation. For anti-CD52 therapy, a consecutive approach with ibrutinib pretreatment followed by incubation of surviving cells with a CD52 monoclonal antibody and human serum yielded a synergistic effect, as ibrutinib-surviving mantle cell lymphoma cells were rapidly depleted by complement-dependent cytotoxicity. Regarding the effects on primary tumor cells from mantle cell lymphoma patients, ibrutinib induced upregulation of CD52 in some cases, and increased toxicity of anti-CD52 therapy was observed in ibrutinib-sensitive patient samples after pretreatment with the BTK inhibitor. The likely favorable in vivo efficacy of an anti-CD52 therapy might therefore be restricted to a subgroup of mantle cell lymphoma patients, also in view of the associated side effects. Given the need for new therapeutic options in mantle cell lymphoma to overcome resistance to ibrutinib, this work highlights the potentially beneficial use of an oxidative phosphorylation inhibitor as add-on therapy. In addition, the findings suggest to further assess the value of anti-CD52 therapy as consolidation to ibrutinib in ibrutinib-sensitive patients with elevated CD52 surface levels on tumor cells to target resistant clones and minimize risk of minimal residual disease and relapse.}, subject = {B-Zell-Lymphom}, language = {en} } @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} } @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{Hanselmann2023, author = {Hanselmann, Steffen}, title = {PRC1 serves as a microtubule-bundling protein and is a potential therapeutic target for lung cancer}, doi = {10.25972/OPUS-26631}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-266314}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Protein regulator of cytokinesis 1 (PRC1) is a microtubule-associated protein with essential roles in mitosis and cytokinesis. Furthermore, the protein is highly expressed in several cancer types which is correlated with aneuploidy and worse patient outcome. In this study it was investigated, whether PRC1 is a potential target for lung cancer as well as its possible nuclear role. Elevated PRC1 expression was cell cycle-dependent with increasing levels from S-phase to G2/M-phase of the cell cycle. Thereby, PRC1 localized at the nucleus during interphase and at the central spindle and midbody during mitosis and cytokinesis. Genome-wide expression profiling by RNA sequencing of ectopically expressed PRC1 resulted in activation of the p53 pathway. A mutant version of PRC1, that is unable to enter the nucleus, induced the same gene sets as wildtype PRC1, suggesting that PRC1 has no nuclear-specific functions in lung cancer cells. Finally, PRC1 overexpression leads to proliferation defects, multi-nucleation, and enlargement of cells which was directly linked to microtubule-bundling within the cytoplasm. For analysis of the requirement of PRC1 in lung cancer, different inducible cell lines were generated to deplete the protein by RNA interference (RNAi) in vitro. PRC1 depletion caused proliferation defects and cytokinesis failures with increased numbers of bi- and multi-nucleated cells compared to non-induced lung cancer cells. Importantly, effects in control cells were less severe as in lung cancer cells. Finally, p53 wildtype lung cancer cells became senescent, whereas p53 mutant cells became apoptotic upon PRC1 depletion. PRC1 is also required for tumorigenesis in vivo, which was shown by using a mouse model for non-small cell lung cancer driven by oncogenic K-RAS and loss of p53. Here, lung tumor area, tumor number, and high-grade tumors were significantly reduced in PRC1 depleted conditions by RNAi. In this study, it is shown that PRC1 serves as a microtubule-bundling protein with essential roles in mitosis and cytokinesis. Expression of the protein needs to be tightly regulated to allow unperturbed proliferation of lung cancer cells. It is suggested that besides phosphorylation of PRC1, the nuclear localization might be a protective mechanism for the cells to prevent perinuclear microtubule-bundling. In conclusion, PRC1 could be a potential target of lung cancer as mono therapy or in combination with a chemotherapeutic agent, like cisplatin, which enhanced the negative effects on proliferation of lung cancer cells in vitro.}, language = {en} } @phdthesis{Kade2023, author = {Kade, Juliane Carolin}, title = {Expanding the Processability of Polymers for a High-Resolution 3D Printing Technology}, doi = {10.25972/OPUS-27005}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-270057}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {This thesis identifies how the printing conditions for a high-resolution additive manufacturing technique, melt electrowriting (MEW), needs to be adjusted to process electroactive polymers (EAPs) into microfibers. Using EAPs based on poly(vinylidene difluoride) (PVDF), their ability to be MEW-processed is studied and expands the list of processable materials for this technology.}, subject = {Polymere}, language = {en} } @phdthesis{Ponath2023, author = {Ponath, Falk Fred Finn}, title = {Investigating the molecular biology of \(Fusobacterium\) \(nucleatum\)}, doi = {10.25972/OPUS-30351}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303516}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The anaerobe Fusobacterium nucleatum (F. nucleatum) is an important member of the oral microbiome but can also colonize different tissues of the human body. In particular, its association with multiple human cancers has drawn much attention. This association has prompted growing interest into the interaction of F. nucleatum with cancer, with studies focusing primarily on the host cells. At the same time, F. nucleatum itself remains poorly understood, which includes its transcriptomic architecture but also gene regulation such as global stress responses that typically enable survival of bacteria in new environments. An important aspect of such regulatory networks is the post-transcriptional regulation, which is entirely unknown in F. nucleatum. This paucity extents to any knowledge on small regulatory RNAs (sRNAs), despite their important role as post-transcriptional regulators of the bacterial physiology. Investigating the above stated aspects is further complicated by the fact that F. nucleatum is phylogenetically distant from all other bacteria, displays very limited genetic tractability and lacks genetic tools for dissecting gene function. This leaves many open questions on basic gene regulation in F. nucleatum, such as if the bacterium combines transcriptional and post-transcriptional regulation in its adaptation to a changing environment. To begin answering this question, this works elucidated the transcriptomic landscape of F. nucleatum by performing differential RNA-seq (dRNA-seq). Conducted for five representative strains of all F. nucleatum subspecies and the closely related F. periodonticum, the analysis globally uncovered transcriptional start sites (TSS), 5'untranslated regions (UTRs) and improved the existing annotation. Importantly, the dRNA-seq analysis also identified a conserved suite of sRNAs specific to Fusobacterium. The development of five genetic tools enabled further investigations of gene functions in F. nucleatum. These include vectors that enable the expression of different fluorescent proteins, inducible gene expression and scarless gene deletion in addition to transcriptional and translational reporter systems. These tools enabled the dissection of a Sigma E response and uncovered several commonalities with its counterpart in the phylogenetically distant Proteobacteria. The similarities include the upregulation of genes involved in membrane homeostasis but also a Simga E-dependent regulatory sRNA. Surprisingly, oxygen was found to activated Sigma E in F. nucleatum contrasting the typical role of the factor in envelope stress. The non-coding Sigma E-dependent sRNA, named FoxI, was shown to repress the translation of several envelope proteins which represented yet another parallel to the envelope stress response in Proteobacteria. Overall, this work sheds light on the RNA landscape of the cancer-associated bacterium leading to the discovery of a conserved global stress response consisting of a coding and a non-coding arm. The development of new genetic tools not only aided the latter discovery but also provides the means for further dissecting the molecular and infection biology of this enigmatic bacterium.}, language = {en} } @phdthesis{Aigner2023, author = {Aigner, Max}, title = {Establishing successful protocols and imaging pipelines for Expansion Microscopy in murine blood platelets}, doi = {10.25972/OPUS-30900}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-309003}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Platelets play an important role in the body, since they are part of the hemostasis system, preventing and stopping blood loss. Nevertheless, when platelet or coagulation system function are impaired, uncontrolled bleedings but also irreversible vessel occlusion followed by ischemic tissue damage can occur. Therefore, understanding platelet function and activation, mechanisms which are controlled by a variety of platelet membrane receptors and other factors is important to advance out knowledge of hemostasis and platelet malfunction. For a complete picture of platelet function and their modulating behavior it is desired to be able to quantify receptor distributions and interactions of these densely packed molecular ensembles in the membrane. This challenges scientists for several reasons. Most importantly, platelets are microscopically small objects, challenging the spatial resolution of conventional light microscopy. Moreover, platelet receptors are highly abundant on the membrane so even super-resolution microscopy struggles with quantitative receptor imaging on platelets. With Expansion microscopy (ExM), a new super-resolution technique was introduced, allowing resolutions to achieve super-resolution without using a super-resolution microscope, but by combining a conventional confocal microscopy with a highly processed sample that has been expanded physically. In this doctoral thesis, I evaluated the potential of this technique for super-resolution platelet imaging by optimizing the sample preparation process and establishing an imaging and image processing pipeline for dual-color 3D images of different membrane receptors. The analysis of receptor colocalization using ExM demonstrated a clear superiority compared to conventional microscopy. Furthermore, I identified a library of fluorescently labeled antibodies against different platelet receptors compatible with ExM and showed the possibility of staining membrane receptors and parts of the cytoskeleton at the same time.}, subject = {Mikroskopie}, language = {en} } @phdthesis{Rutschmann2023, author = {Rutschmann, Benjamin}, title = {Occurrence and population density of wild-living honey bees in Europe and the impact of different habitat types on their foraging and overwintering success}, doi = {10.25972/OPUS-28673}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-286732}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The original habitat of native European honey bees (\(Apis\) \(mellifera\)) is forest, but currently there is a lack of data about the occurrence of wild honey bee populations in Europe. Prior to being kept by humans in hives, honey bees nested as wild species in hollow trees in temperate forests. However, in the 20th century, intensification of silviculture and agriculture with accompanying losses of nesting sites and depletion of food resources caused population declines in Europe. When the varroa mite (Varroa destructor), an invasive ectoparasite from Asia, was introduced in the late 1970s, wild honey bees were thought to be eradicated in Europe. Nevertheless, sporadic, mostly anecdotal, reports from ornithologists or forest ecologists indicated that honey bee colonies still occupy European forest areas. In my thesis I hypothesize that near-natural deciduous forests may provide sufficient large networks of nesting sites representing refugia for wild-living honey bees. Using two special search techniques, i.e. the tracking of flight routes of honey bee foragers (the "beelining" method) and the inspection of known cavity trees, I collected for the first time data on the occurrence and density of wild-living honey bees in forest areas in Germany (CHAPTER 3). I found wild-living honey bee colonies in the Hainich national park at low densities in two succeeding years. In another forest region, I checked known habitat trees containing black woodpecker cavities for occupation by wild-living honey bee colonies. It turned out that honey bees regularly use these cavities and occur in similar densities in both studied forest regions, independent of the applied detection method. Extrapolating these densities to all German forest areas, I estimate several thousand wild-living colonies in Germany that potentially interact in different ways with the forest environment. I conclude that honey bees regularly colonize forest areas in Germany and that networks of mapped woodpecker cavities offer unique possibilities to study the ecology of wild-living honey bees over several years. While their population status is ambiguous and the density of colonies low, the fact that honey bees can still be found in forests poses questions about food supply in forest environments. Consequently, I investigated the suitability of woodlands as a honey bee foraging habitat (CHAPTER 4). As their native habitat, forests are assumed to provide important pollen and nectar sources for honey bee colonies. However, resource supply might be spatially and temporally restricted and landscape-scale studies in European forest regions are lacking. Therefore, I set up twelve honey bee colonies in observation hives at locations with varying degree of forest cover. Capitalizing on the unique communication behaviour, the waggle dance, I examined the foraging distances and habitat preferences of honey bees over almost an entire foraging season. Moreover, by connecting this decoded dance information with colony weight recordings, I could draw conclusions about the contribution of the different habitat types to honey yield. Foraging distances generally increased with the amount of forest in the surrounding landscape. Yet, forest cover did not have an effect on colony weight. Compared to expectations based on the proportions of different habitats in the surroundings, colonies foraged more frequently in cropland and grasslands than in deciduous and coniferous forests, especially in late summer when pollen foraging in the forest is most difficult. In contrast, colonies used forests for nectar/honeydew foraging in early summer during times of colony weight gain emphasizing forests as a temporarily significant source of carbohydrates. Importantly, my study shows that the ecological and economic value of managed forest as habitat for honey bees and other wild pollinators can be significantly increased by the continuous provision of floral resources, especially for pollen foraging. The density of these wild-living honey bee colonies and their survival is driven by several factors that vary locally, making it crucial to compare results in different regions. Therefore, I investigated a wild-living honey bee population in Galicia in north-western Spain, where colonies were observed to reside in hollow electric poles (CHAPTER 5). The observed colony density only in these poles was almost twice as high as in German forest areas, suggesting generally more suitable resource conditions for the bees in Galicia. Based on morphometric analyses of their wing venation patterns, I assigned the colonies to the native evolutionary lineage (M-lineage) where the particularly threatened subspecies \(Apis\) \(mellifera\) \(iberiensis\) also belongs to. Averaged over two consecutive years, almost half of the colonies survived winter (23 out of 52). Interestingly, semi-natural areas both increased abundance and subsequent colony survival. Colonies surrounded by more semi-natural habitat (and therefore less intensive cropland) had an elevated overwintering probability, indicating that colonies need a certain amount of semi-natural habitat in the landscape to survive. Due to their ease of access these power poles in Galicia are, ideally suited to assess the population demography of wild-living Galician honey bee colonies through a long-term monitoring. In a nutshell, my thesis indicates that honey bees in Europe always existed in the wild. I performed the first survey of wild-living bee density yet done in Germany and Spain. My thesis identifies the landscape as a major factor that compromises winter survival and reports the first data on overwintering rates of wild-living honey bees in Europe. Besides, I established methods to efficiently detect wild-living honey bees in different habitat. While colonies can be found all over Europe, their survival and viability depend on unpolluted, flower rich habitats. The protection of near-natural habitat and of nesting sites is of paramount importance for the conservation of wild-living honey bees in Europe.  }, subject = {Biene}, language = {en} } @phdthesis{Solvie2023, author = {Solvie, Daniel Alexander}, title = {Molecular Mechanisms of MYC as Stress Resilience Factor}, doi = {10.25972/OPUS-30539}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-305398}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Cancer is one of the leading causes of death worldwide. The underlying tumorigenesis is driven by the accumulation of alterations in the genome, eventually disabling tumor suppressors and activating proto-oncogenes. The MYC family of proto-oncogenes shows a strong deregulation in the majority of tumor entities. However, the exact mechanisms that contribute to MYC-driven oncogenesis remain largely unknown. Over the past decades, the influence of the MYC protein on transcription became increasingly apparent and was thoroughly investigated. Additionally, in recent years several publications provided evidence for so far unreported functions of MYC that are independent of a mere regulation of target genes. These findings suggest an additional role of MYC in the maintenance of genomic stability and this role is strengthened by key findings presented in this thesis. In the first part, I present data revealing a pathway that allows MYC to couple transcription elongation and DNA double-strand break repair, preventing genomic instability of MYC-driven tumor cells. This pathway is driven by a rapid transfer of the PAF1 complex from MYC onto RNAPII, a process that is mediated by HUWE1. The transfer controls MYC-dependent transcription elongation and, simultaneously, the remodeling of chromatin structure by ubiquitylation of histone H2B. These regions of open chromatin favor not only elongation but also DNA double-strand break repair. In the second part, I analyze the ability of MYC proteins to form multimeric structures in response to perturbation of transcription and replication. The process of multimerization is also referred to as phase transition. The observed multimeric structures are located proximal to stalled replication forks and recruit factors of the DNA-damage response and transcription termination machinery. Further, I identified the HUWE1-dependent ubiquitylation of MYC as an essential step in this phase transition. Cells lacking the ability to form multimers display genomic instability and ultimately undergo apoptosis in response to replication stress. Both mechanisms present MYC as a stress resilience factor under conditions that are characterized by a high level of transcriptional and replicational stress. This increased resilience ensures oncogenic proliferation. Therefore, targeting MYC's ability to limit genomic instability by uncoupling transcription elongation and DNA repair or disrupting its ability to multimerize presents a therapeutic window in MYC-dependent tumors.}, subject = {MYC}, language = {en} } @phdthesis{Saulin2023, author = {Saulin, Anne Christin}, title = {Sustainability of empathy as driver for prosocial behavior and social closeness: insights from computational modelling and functional magnetic resonance imaging}, doi = {10.25972/OPUS-30555}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-305550}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Empathy, the act of sharing another person's affective state, is a ubiquitous driver for helping others and feeling close to them. These experiences are integral parts of human behavior and society. The studies presented in this dissertation aimed to investigate the sustainability and stability of social closeness and prosocial decision-making driven by empathy and other social motives. In this vein, four studies were conducted in which behavioral and neural indicators of empathy sustainability were identified using model-based functional magnetic resonance imaging (fMRI). Applying reinforcement learning, drift-diffusion modelling (DDM), and fMRI, the first two studies were designed to investigate the formation and sustainability of empathy-related social closeness (study 1) and examined how sustainably empathy led to prosocial behavior (study 2). Using DDM and fMRI, the last two studies investigated how empathy combined with reciprocity, the social norm to return a favor, on the one hand and empathy combined with the motive of outcome maximization on the other hand altered the behavioral and neural social decision process. The results showed that empathy-related social closeness and prosocial decision tendencies persisted even if empathy was rarely reinforced. The sustainability of these empathy effects was related to recalibration of the empathy-related social closeness learning signal (study 1) and the maintenance of a prosocial decision bias (study 2). The findings of study 3 showed that empathy boosted the processing of reciprocity-based social decisions, but not vice versa. Study 4 revealed that empathy-related decisions were modulated by the motive of outcome maximization, depending on individual differences in state empathy. Together, the studies strongly support the concept of empathy as a sustainable driver of social closeness and prosocial behavior.}, subject = {Einf{\"u}hlung }, language = {en} } @phdthesis{Sauerwein2023, author = {Sauerwein, Till}, title = {Implementation and application of bioinformatical software for the analysis of dual RNA sequencing data of host and pathogen during infection}, doi = {10.25972/OPUS-30307}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303075}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Since the advent of high-throughput sequencing technologies in the mid-2010s, RNA se- quencing (RNA-seq) has been established as the method of choice for studying gene expression. In comparison to microarray-based methods, which have mainly been used to study gene expression before the rise of RNA-seq, RNA-seq is able to profile the entire transcriptome of an organism without the need to predefine genes of interest. Today, a wide variety of RNA-seq methods and protocols exist, including dual RNA sequenc- ing (dual RNA-seq) and multi RNA sequencing (multi RNA-seq). Dual RNA-seq and multi RNA-seq simultaneously investigate the transcriptomes of two or more species, re- spectively. Therefore, the total RNA of all interacting species is sequenced together and only separated in silico. Compared to conventional RNA-seq, which can only investi- gate one species at a time, dual RNA-seq and multi RNA-seq analyses can connect the transcriptome changes of the species being investigated and thus give a clearer picture of the interspecies interactions. Dual RNA-seq and multi RNA-seq have been applied to a variety of host-pathogen, mutualistic and commensal interaction systems. We applied dual RNA-seq to a host-pathogen system of human mast cells and Staphylo- coccus aureus (S. aureus). S. aureus, a commensal gram-positive bacterium, can become an opportunistic pathogen and infect skin lesions of atopic dermatitis (AD) patients. Among the first immune cells S. aureus encounters are mast cells, which have previously been shown to be able to kill the bacteria by discharging antimicrobial products and re- leasing extracellular traps made of protein and deoxyribonucleic acid (DNA). However, S. aureus is known to evade the host's immune response by internalizing within mast cells. Our dual RNA-seq analysis of different infection settings revealed that mast cells and S. aureus need physical contact to influence each other's gene expression. We could show that S. aureus cells internalizing within mast cells undergo profound transcriptome changes to adjust their metabolism to survive in the intracellular niche. On the host side, we found out that infected mast cells elicit a type-I interferon (IFN-I) response in an autocrine manner and in a paracrine manner to non-infected bystander-cells. Our study provides the first evidence that mast cells are capable to produce IFN-I upon infection with a bacterial pathogen.}, subject = {Biologie}, language = {en} } @phdthesis{Schulte2023, author = {Schulte, Annemarie}, title = {\(In\) \(vitro\) reprogramming of glial cells from adult dorsal root ganglia into nociceptor-like neurons}, doi = {10.25972/OPUS-30311}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303110}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Plexus injury often occurs after motor vehicle accidents and results in lifelong disability with severe neuropathic pain. Surgical treatment can partially restore motor functions, but sensory loss and neuropathic pain persist. Regenerative medicine concepts, such as cell replacement therapies for restoring dorsal root ganglia (DRG) function, set high expectations. However, up to now, it is unclear which DRG cell types are affected by nerve injury and can be targeted in regenerative medicine approaches. This study followed the hypothesis that satellite glial cells (SGCs) might be a suitable endogenous cell source for regenerative medicine concepts in the DRG. SGCs originate from the same neural crest-derived cell lineage as sensory neurons, making them attractive for neural repair strategies in the peripheral nervous system. Our hypothesis was investigated on three levels of experimentation. First, we asked whether adult SGCs have the potential of sensory neuron precursors and can be reprogrammed into sensory neurons in vitro. We found that adult mouse DRG harbor SGC-like cells that can still dedifferentiate into progenitor-like cells. Surprisingly, expression of the early developmental transcription factors Neurog1 and Neurog2 was sufficient to induce neuronal and glial cell phenotypes. In the presence of nerve growth factor, induced neurons developed a nociceptor-like phenotype expressing functional nociceptor markers, such as the ion channels TrpA1, TrpV1 and NaV1.9. In a second set of experiments, we used a rat model for peripheral nerve injury to look for changes in the DRG cell composition. Using an unbiased deep learning-based approach for cell analysis, we found that cellular plasticity responses after nerve injury activate SGCs in the whole DRG. However, neither injury-induced neuronal death nor gliosis was observed. Finally, we asked whether a severe nerve injury changed the cell composition in the human DRG. For this, a cohort of 13 patients with brachial plexus injury was investigated. Surprisingly, in about half of all patients, the injury-affected DRG showed no characteristic DRG tissue. The complete entity of neurons, satellite cells, and axons was lost and fully replaced by mesodermal/connective tissue. In the other half of the patients, the basic cellular entity of the DRG was well preserved. Objective deep learning-based analysis of large-scale bioimages of the "intact" DRG showed no loss of neurons and no signs of gliosis. This study suggests that concepts for regenerative medicine for restoring DRG function need at least two translational research directions: reafferentation of existing DRG units or full replacement of the entire multicellular DRG structure. For DRG replacement, SGCs of the adult DRG are an attractive endogenous cell source, as the multicellular DRG units could possibly be rebuilt by transdifferentiating neural crest-derived sensory progenitor cells into peripheral sensory neurons and glial cells using Neurog1 and Neurog2.}, subject = {Spinalganglion}, language = {en} } @phdthesis{FetivaMora2023, author = {Fetiva Mora, Maria Camila}, title = {Changes in chromatin accessibility by oncogenic YAP and its relevance for regulation of cell cycle gene expression and cell migration}, doi = {10.25972/OPUS-30291}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-302910}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Various types of cancer involve aberrant cell cycle regulation. Among the pathways responsible for tumor growth, the YAP oncogene, a key downstream effector of the Hippo pathway, is responsible for oncogenic processes including cell proliferation, and metastasis by controlling the expression of cell cycle genes. In turn, the MMB multiprotein complex (which is formed when B-MYB binds to the MuvB core) is a master regulator of mitotic gene expression, which has also been associated with cancer. Previously, our laboratory identified a novel crosstalk between the MMB-complex and YAP. By binding to enhancers of MMB target genes and promoting B-MYB binding to promoters, YAP and MMB co-regulate a set of mitotic and cytokinetic target genes which promote cell proliferation. This doctoral thesis addresses the mechanisms of YAP and MMB mediated transcription, and it characterizes the role of YAP regulated enhancers in transcription of cell cycle genes. The results reported in this thesis indicate that expression of constitutively active, oncogenic YAP5SA leads to widespread changes in chromatin accessibility in untransformed human MCF10A cells. ATAC-seq identified that newly accessible and active regions include YAP-bound enhancers, while the MMB-bound promoters were found to be already accessible and remain open during YAP induction. By means of CRISPR-interference (CRISPRi) and chromatin immuniprecipitation (ChIP), we identified a role of YAP-bound enhancers in recruitment of CDK7 to MMB-regulated promoters and in RNA Pol II driven transcriptional initiation and elongation of G2/M genes. Moreover, by interfering with the YAP-B-MYB protein interaction, we can show that binding of YAP to B-MYB is also critical for the initiation of transcription at MMB-regulated genes. Unexpectedly, overexpression of YAP5SA also leads to less accessible chromatin regions or chromatin closing. Motif analysis revealed that the newly closed regions contain binding motifs for the p53 family of transcription factors. Interestingly, chromatin closing by YAP is linked to the reduced expression and loss of chromatin-binding of the p53 family member Np63. Furthermore, I demonstrate that downregulation of Np63 following expression of YAP is a key step in driving cellular migration. Together, the findings of this thesis provide insights into the role of YAP in the chromatin changes that contribute to the oncogenic activities of YAP. The overexpression of YAP5SA not only leads to the opening of chromatin at YAP-bound enhancers which together with the MMB complex stimulate the expression of G2/M genes, but also promotes the closing of chromatin at ∆Np63 -bound regions in order to lead to cell migration.}, subject = {Chromatin}, language = {en} } @phdthesis{Hamann2023, author = {Hamann, Catharina Sophia}, title = {Fear and anxiety disorders - interaction of AVP and OXT brain systems with the serotonergic system}, doi = {10.25972/OPUS-30333}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303338}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Anxiety disorders pose a great burden onto society and economy and can have devastating consequences for affected individuals. Treatment options are still limited to psychopharmacotherapy originally developed for the treatment of depression and behavioral therapy. A combination of genetic traits together with aversive events is most likely the cause of these diseases. Gene x environment studies are trying to find a link between genetic traits and specific negative circumstances. In a first study, we focused on social anxiety disorder (SAD), which is the second most-common anxiety disorder after specific phobias. We used a social fear conditioning (SFC) paradigm, which is able to mimic the disease in a mouse model. We wanted to investigate protein levels, as well as mRNA expression of immediate early genes (IEGs), to determine brain areas affected by the paradigm. We also included genes of the vasopressin (AVP)-, oxytocin (OXT)-, neuropeptide Y (NPY)-, and the serotonin system, to investigate the effects of SFC on neurotransmitter gene expression levels in brain regions related to social as well as fear-related behavior. AVP and OXT regulate a lot of different social and anxiety-related behaviors, both positive and negative. Finding a link between different neurotransmitter systems in the development of anxiety disorders could help to identify potential targets for new treatment approaches, which are desperately needed, because the rate of patients not responding to available treatment is very high. We were able to show altered gene expression of the IEGs cFos and Fosl2, as well as a change in number and density of cFOS-positive cells in the dorsal hippocampus, indicating an influence of SFC on neuronal activity. Our results reveal a possible involvement of anterior dentate gyrus (DG), as well as cornu ammonis area 1 (CA1) and CA3 in the dorsal hippocampus during the expression of social fear. Contrary to our hypothesis, we were not able to see changes in neuronal activity through expression changes of IEGs in the amygdala. Significant higher IEG immunoreactivity and gene expression in the dorsal hippocampus of animals without fear conditioning (SFC-), compared to animals with fear conditioning (SFC+), indicate an involvement of different hippocampal regions in two possible scenarios. Either as elevated gene expression in SFC- animals compared to SFC+ animals or as reduction in SFC+ animals compared to SFC- animals. However, this question cannot be answered without an additional control of basal IEG-activity without social interaction. The NPY system in general and the neuropeptide y receptor type 2 in particular seem to be involved in regulating the response to social fear, mostly through the septum region. In addition to that, a possible role for the induction of social fear response could be identified in the serotonergic system and especially the serotonin receptor 2a of the PVN. In a second study we focused on changes in the serotonergic system. A polymorphism in the human serotonin transporter (5-HTT) gene is associated with higher risks for the development of anxiety disorders. This makes the 5-HTT a widely used target to study possible causes and the development of anxiety disorders. In mice, a genetically induced knockout of the 5-Htt gene is associated with increased anxiety-like behavior. High amounts of stress during pregnancy, also known as prenatal stress, significantly increase the risk to develop psychiatric disorders for the unborn child. We utilized a prenatal stress paradigm in mice heterozygous for the 5-Htt gene. Some of the animals which had been subjected to prenatal stress showed noticeably "unsocial" interaction behavior towards conspecifics. Again, we were searching for links between the serotonergic system and AVP- and OXT systems. Through quantitative gene expression analysis, we were able to show that both AVP and OXT neuromodulator systems are affected through prenatal stress in female mice, but not in male mice. The 5-Htt genotype seems to be only slightly influential to AVP, OXT or any other neurotransmitter system investigated. Gene expression of AVP and OXT brain systems is highly influenced through the estrous cycle stages of female mice. Additionally, we analyzed the AVP and OXT neuropeptide levels of mice with different 5-Htt genotypes and in both sexes, in order to see whether the production of AVP and OXT is influenced by 5-Htt genotype. On neuropeptide level, we were able to identify a sex difference for vasopressin-immunoreactive (ir) cells in the PVN, with male mice harboring significantly more positive cells than female mice.}, subject = {Serotonin}, language = {en} } @phdthesis{Nordblom2023, author = {Nordblom, Noah Frieder}, title = {Synthese und Evaluation von Gephyrinsonden f{\"u}r hochaufl{\"o}sende Mikroskopieverfahren}, doi = {10.25972/OPUS-30230}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-302300}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {This decade saw the development of new high-end light microscopy approaches. These technologies are increasingly used to expand our understanding of cellular function and the molecular mechanisms of life and disease. The precision of state-of-the-art super resolution microscopy is limited by the properties of the applied fluorescent label. Here I describe the synthesis and evaluation of new functional fluorescent probes that specifically stain gephyrin, universal marker of the neuronal inhibitory post-synapse. Selected probe precursor peptides were synthesised using solid phase peptide synthesis and conjugated with selected super resolution capable fluorescent dyes. Identity and purity were defined using chromatography and mass spectrometric methods. To probe the target specificity of the resulting probe variants in cellular context, a high-throughput assay was established. The established semi-automated and parallel workflow was used for the evaluation of three selected probes by defining their co-localization with the expressed fluorescent target protein. My work provided NN1Dc and established the probe as a visualisation tool for essentially background-free visualisation of the synaptic marker protein gephyrin in a cellular context. Furthermore, NN1DA became part of a toolbox for studying the inhibitory synapse ultrastructure and brain connectivity and turned out useful for the development of a label-free, high-throughput protein interaction quantification assay.}, subject = {Fluoreszenzmikroskopie}, language = {en} } @phdthesis{Portmann2023, author = {Portmann, Johannes}, title = {Accelerated inversion recovery MRI of the myocardium using spiral acquisition}, doi = {10.25972/OPUS-30282}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-302822}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {This work deals with the acceleration of cardiovascular MRI for the assessment of functional information in steady-state contrast and for viability assessment during the inversion recovery of the magnetization. Two approaches are introduced and discussed in detail. MOCO-MAP uses an exponential model to recover dynamic image data, IR-CRISPI, with its low-rank plus sparse reconstruction, is related to compressed sensing. MOCO-MAP is a successor to model-based acceleration of parametermapping (MAP) for the application in the myocardial region. To this end, it was augmented with a motion correction (MOCO) step to allow exponential fitting the signal of a still object in temporal direction. Iteratively, this introduction of prior physical knowledge together with the enforcement of consistency with the measured data can be used to reconstruct an image series from distinctly shorter sampling time than the standard exam (< 3 s opposed to about 10 s). Results show feasibility of the method as well as detectability of delayed enhancement in the myocardium, but also significant discrepancies when imaging cardiac function and artifacts caused already by minor inaccuracy of the motion correction. IR-CRISPI was developed from CRISPI, which is a real-time protocol specifically designed for functional evaluation of image data in steady-state contrast. With a reconstruction based on the separate calculation of low-rank and sparse part, it employs a softer constraint than the strict exponential model, which was possible due to sufficient temporal sampling density via spiral acquisition. The low-rank plus sparse reconstruction is fit for the use on dynamic and on inversion recovery data. Thus, motion correction is rendered unnecessary with it. IR-CRISPI was equipped with noise suppression via spatial wavelet filtering. A study comprising 10 patients with cardiac disease show medical applicability. A comparison with performed traditional reference exams offer insight into diagnostic benefits. Especially regarding patients with difficulty to hold their breath, the real-time manner of the IR-CRISPI acquisition provides a valuable alternative and an increase in robustness. In conclusion, especially with IR-CRISPI in free breathing, a major acceleration of the cardiovascular MR exam could be realized. In an acquisition of less than 100 s, it not only includes the information of two traditional protocols (cine and LGE), which take up more than 9.6 min, but also allows adjustment of TI in retrospect and yields lower artifact level with similar image quality.}, subject = {Kernspintomografie}, language = {en} } @phdthesis{Lueffe2023, author = {L{\"u}ffe, Teresa Magdalena}, title = {Behavioral and pharmacological validation of genetic zebrafish models for ADHD}, doi = {10.25972/OPUS-25716}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-257168}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Attention-deficit/hyperactivity disorder (ADHD) is the most prevalent neurodevelopmental disorder described in psychiatry today. ADHD arises during early childhood and is characterized by an age-inappropriate level of inattention, hyperactivity, impulsivity, and partially emotional dysregulation. Besides, substantial psychiatric comorbidity further broadens the symptomatic spectrum. Despite advances in ADHD research by genetic- and imaging studies, the etiopathogenesis of ADHD remains largely unclear. Twin studies suggest a heritability of 70-80 \% that, based on genome-wide investigations, is assumed to be polygenic and a mixed composite of small and large, common and rare genetic variants. In recent years the number of genetic risk candidates is continuously increased. However, for most, a biological link to neuropathology and symptomatology of the patient is still missing. Uncovering this link is vital for a better understanding of the disorder, the identification of new treatment targets, and therefore the development of a more targeted and possibly personalized therapy. The present thesis addresses the issue for the ADHD risk candidates GRM8, FOXP2, and GAD1. By establishing loss of function zebrafish models, using CRISPR/Cas9 derived mutagenesis and antisense oligonucleotides, and studying them for morphological, functional, and behavioral alterations, it provides novel insights into the candidate's contribution to neuropathology and ADHD associated phenotypes. Using locomotor activity as behavioral read-out, the present work identified a genetic and functional implication of Grm8a, Grm8b, Foxp2, and Gad1b in ADHD associated hyperactivity. Further, it provides substantial evidence that the function of Grm8a, Grm8b, Foxp2, and Gad1b in activity regulation involves GABAergic signaling. Preliminary indications suggest that the three candidates interfere with GABAergic signaling in the ventral forebrain/striatum. However, according to present and previous data, via different biological mechanisms such as GABA synthesis, transmitter release regulation, synapse formation and/or transcriptional regulation of synaptic components. Intriguingly, this work further demonstrates that the activity regulating circuit, affected upon Foxp2 and Gad1b loss of function, is involved in the therapeutic effect mechanism of methylphenidate. Altogether, the present thesis identified altered GABAergic signaling in activity regulating circuits in, presumably, the ventral forebrain as neuropathological underpinning of ADHD associated hyperactivity. Further, it demonstrates altered GABAergic signaling as mechanistic link between the genetic disruption of Grm8a, Grm8b, Foxp2, and Gad1b and ADHD symptomatology like hyperactivity. Thus, this thesis highlights GABAergic signaling in activity regulating circuits and, in this context, Grm8a, Grm8b, Foxp2, and Gad1b as exciting targets for future investigations on ADHD etiopathogenesis and the development of novel therapeutic interventions for ADHD related hyperactivity. Additionally, thigmotaxis measurements suggest Grm8a, Grm8b, and Gad1b as interesting candidates for prospective studies on comorbid anxiety in ADHD. Furthermore, expression analysis in foxp2 mutants demonstrates Foxp2 as regulator of ADHD associated gene sets and neurodevelopmental disorder (NDD) overarching genetic and functional networks with possible implications for ADHD polygenicity and comorbidity. Finally, with the characterization of gene expression patterns and the generation and validation of genetic zebrafish models for Grm8a, Grm8b, Foxp2, and Gad1b, the present thesis laid the groundwork for future research efforts, for instance, the identification of the functional circuit(s) and biological mechanism(s) by which Grm8a, Grm8b, Foxp2, and Gad1b loss of function interfere with GABAergic signaling and ultimately induce hyperactivity.}, language = {en} } @phdthesis{Deng2023, author = {Deng, Chunchu}, title = {Dynamic remodeling of endoplasmic reticulum and ribosomes in axon terminals of wildtype and Spinal Muscular Atrophy motoneurons}, doi = {10.25972/OPUS-26495}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-264954}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {In highly polarized neurons, endoplasmic reticulum (ER) forms a dynamic and continuous network in axons that plays important roles in lipid synthesis, Ca2+ homeostasis and the maintenance of synapses. However, the mechanisms underlying the regulation of axonal ER dynamics and its function in regulation of local translation still remain elusive. In the course of my thesis, I investigated the fast dynamic movements of ER and ribosomes in the growth cone of wildtype motoneurons as well as motoneurons from a mouse model of Spinal Muscular Atrophy (SMA), in response to Brain-derived neurotrophic factor (BDNF) stimulation. Live cell imaging data show that ER extends into axonal growth cone filopodia along actin filaments and disruption of actin cytoskeleton by cytochalasin D treatment impairs the dynamic movement of ER in the axonal filopodia. In contrast to filopodia, ER movements in the growth cone core seem to depend on coordinated actions of the actin and microtubule cytoskeleton. Myosin VI is especially required for ER movements into filopodia and drebrin A mediates actin/microtubule coordinated ER dynamics. Furthermore, we found that BDNF/TrkB signaling induces assembly of 80S ribosomes in growth cones on a time scale of seconds. Activated ribosomes relocate to the presynaptic ER and undergo local translation. These findings describe the dynamic interaction between ER and ribosomes during local translation and identify a novel potential function for the presynaptic ER in intra-axonal synthesis of transmembrane proteins such as the α-1β subunit of N-type Ca2+ channels in motoneurons. In addition, we demonstrate that in Smn-deficient motoneurons, ER dynamic movements are impaired in axonal growth cones that seems to be due to impaired actin cytoskeleton. Interestingly, ribosomes fail to undergo rapid structural changes in Smn-deficient growth cones and do not associate to ER in response to BDNF. Thus, aberrant ER dynamics and ribosome response to extracellular stimuli could affect axonal growth and presynaptic function and maintenance, thereby contributing to the pathology of SMA.}, subject = {Motoneuron}, language = {en} } @phdthesis{Hapke2023, author = {Hapke, Nils}, title = {Cardiac antigen derived T cell epitopes in the frame of myocardial infarction}, doi = {10.25972/OPUS-30196}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-301963}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Cardiovascular disease and the acute consequence of myocardial infarc- tion remain one of the most important causes of morbidity and mortality in all western societies. While much progress has been made in mitigating the acute, life-threatening ischemia caused by infarction, heart failure of the damaged my- ocardium remains prevalent. There is mounting evidence for the role of T cells in the healing process after myocardial infarction, but relevant autoantigens, which might trigger and regulate adaptive immune involvement have not been discov- ered in patients. In this work, we discovered an autoantigenic epitope in the adrenergic receptor beta 1, which is highly expressed in the heart. This autoantigenic epitope causes a pro-inflammatory immune reaction in T cells isolated from pa- tients after myocardial infarction (MI) but not in control patients. This immune reaction was only observed in a subset of MI patients, which carry at least one allele of the HLA-DRB1*13 family. Interestingly, HLA-DRB1*13 was more com- monly expressed in patients in the MI group than in the control group. Taken together, our data suggests antigen-specific priming of T cells in MI patients, which leads to a pro-inflammatory phenotype. The primed T cells react to a cardiac derived autoantigen ex vivo and are likely to exhibit a similar phenotype in vivo. This immune phenotype was only observed in a certain sub- set of patients sharing a common HLA-allele, which was more commonly ex- pressed in MI patients, suggesting a possible role as a risk factor for cardiovas- cular disease. While our results are observational and do not have enough power to show strong clinical associations, our discoveries provide an essential tool to further our understanding of involvement of the immune system in cardiovascu- lar disease. We describe the first cardiac autoantigen in the clinical context of MI and provide an important basis for further translational and clinical research in cardiac autoimmunity.}, subject = {Immunologie}, language = {en} } @phdthesis{Engelmann2023, author = {Engelmann, Daria Marie}, title = {Regulation of Mammalian Phosphoglycolate Phosphatase}, doi = {10.25972/OPUS-19957}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199577}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Mammalian phoshoglycolate phosphatase (PGP, also known as AUM) belongs to the ubiquitous HAD superfamily of phosphatases. As several other members of HAD phosphatases, the Mg2+-dependent dephosphorylation is conducted via a nucleophilic attack from a conserved aspartate residue in the catalytic cleft. The protein structure of PGP could not yet be solved entirely. Only a hybrid consisting of the PGP cap and the PDXP core (pyridoxal phosphatase, closest enzyme paralog) was crystallizable so far. PGP is able to efficiently dephosphorylate 2-phosphoglycolate, 2-phospho-L-lactate, 4-phospho-D-erythronate, and glycerol-3-phosphate in vitro which makes them likely physiological substrates. The first three substrates can be derived from metabolic side reactions (during glycolysis) and inhibit key enzymes in glycolysis and pentose phosphate pathway, the latter is situated at the intersection between glycolysis and lipogenesis. 2-phosphoglycolate can also be released in the context of repair of oxidative DNA damage. The activity of purified PGP can be reversibly inhibited by oxidation - physiologically likely in association with epidermal growth factor (EGF) signal transduction. In fact, an association between persistently lacking PGP activity (via downregulation) and the presence of hyperphosphorylated proteins after EGF stimulation has been identified. Reversible oxidation and transient inactivation of PGP may be particularly important for short-term and feedback regulatory mechanisms (as part of the EGF signaling). Furthermore, cellular proliferation in PGP downregulated cells is constantly reduced. Whole-body PGP inactivation in mice is embryonically lethal. Despite the many well-known features and functions, the knowledge about PGP is still incomplete. In the present work the influence of reactive oxygen species (ROS) on PGP activity in cells und a possible connection between oxidative stress and the proliferation deficit of PGP downregulated cells was investigated. For the experiments, a spermatogonial cell line was used (due to the high PGP expression in testis). PGP activity can be reversibly inhibited in cellular lysates by H2O2 (as a ROS representative). Reversible oxidation could thus indeed be physiologically important. More oxidative DNA damage (by bleomycin) showed no PGP-dependent effects here. EGF stimulation (as an inducer of transient and well-controlled ROS production), low concentrations of menadione (as an oxidant) and N-acetylcysteine (as an antioxidant) were able to approximate the proliferation rate in PGP downregulated cells to that of control cells. The redox regulation of PGP could thus have an influence on cellular proliferation as a feedback mechanism - a mechanism that could not take place in PGP downregulated cells. However, the connections are probably even more complex and cannot be elucidated by a sole examination of the proliferation rate. The present results can thus only be regarded as preliminary experiments. For a better understanding of the features and functions of PGP, this work then focused on specific regulation of enzyme activity by pharmacologically applicable small molecules. Four potent inhibitors had previously been identified in a screening campaign. In this work, three of these four inhibiting compounds could be further characterized in experiments with highly purified, recombinant murine and human PGP. Compounds \#2 and \#9 showed competitive inhibition properties with a markedly rising KM value with little or no change in vmax. The results were consistent for all tested protein variants: the murine and the human PGP as well as a PGP/PDXP hybrid protein. Compound \#1 was the most potent and interesting PGP-inhibitory molecule: less change in KM and a constant decrease in vmax as well as a lower impact on the PGP/PDXP hybrid hint at a mixed mode of inhibition as a combination of competitive and non-competitive inhibition. The characterization of the potential inhibitors can serve as a basis for further structural analysis and studies on the complex physiological role of PGP.}, subject = {Phosphoglykolatphosphatase}, language = {en} } @phdthesis{Schwarzmeier2023, author = {Schwarzmeier, Hanna}, title = {From fear extinction to exposure therapy: neural mechanisms and moderators of extinction}, doi = {10.25972/OPUS-22330}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-223304}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Emotional-associative learning processes such as fear conditioning and extinction are highly relevant to not only the development and maintenance of anxiety disorders (ADs), but also to their treatment. Extinction, as the laboratory analogue to behavioral exposure, is assumed a core process underlying the treatment of ADs. Although exposure-based treatments are highly effective for the average patient suffering from an AD, there remains a gap in treatment efficacy with over one third of patients failing to achieve clinically significant symptom relief. There is ergo a pressing need for intensified research regarding the underlying neural mechanisms of aberrant emotional-associative learning processes and the neurobiological moderators of treatment (non-)response in ADs. The current thesis focuses on different applications of the fundamental principles of fear conditioning and extinction by using two example cases of ADs from two different multicenter trials. First, we targeted alterations in fear acquisition, extinction, and its recall as a function of psychopathology in panic disorder (PD) patients compared to healthy subjects using fMRI. Second, exposure-based therapy and pre-treatment patient characteristics exerting a moderating influence on this essential learning process later on (i.e. treatment outcome) were examined using multimodal functional and structural neuroimaging in spider phobia. We observed aberrations in emotional-associative learning processes in PD patients compared to healthy subjects indicated by an accelerated fear acquisition and an attenuated extinction recall. Furthermore, pre-treatment differences related to defensive, regulatory, attentional, and perceptual processes may exert a moderating influence on treatment outcome to behavioral exposure in spider phobia. Although the current results need further replication, on an integrative meta level, results point to a hyperactive defensive network system and deficient emotion regulation processes (including extinction processes) and top-down control in ADs. This speaks in favor of transdiagnostic deficits in important functional domains in ADs. Deficits in transdiagnostic domains such as emotion regulation processes could be targeted by enhancing extinction learning or by means of promising tools like neurofeedback. The detection of pre-treatment clinical response moderators, for instance via machine learning frameworks, may help in supporting clinical decision making on individually tailored treatment approaches or, respectively, to avoid ineffective treatment and its related financial costs. In the long run, the identification of neurobiological markers which are capable of detecting non-responders a priori represents an ultimate goal.}, subject = {Extinktion}, language = {en} } @phdthesis{Wendlinger2023, author = {Wendlinger, Simone Alice}, title = {Function of Peripheral Blood Eosinophils in Melanoma}, publisher = {Cancers (Basel)}, doi = {10.25972/OPUS-30119}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-301194}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Despite accounting for only a small proportion of all skin cancers, malignant melanoma displays a serious health risk with increasing incidence and high mortality rate. Fortunately, advances in the treatment of malignant melanoma now prolong survival and enhance response and treatment efficacy. Established biomarkers help evaluate disease progression and facilitate choosing appropriate and individual treatment options. However, the need for easily accessible and reliable biomarkers is rising to predict patient-specific clinical outcome. Eosinophil infiltration into the tumor and high peripheral eosinophil counts prior and during treatment have been associated with better response in patients for various cancer entities, including melanoma. An analysis of a heterogeneous study cohort reported high serum ECP levels in non-responders. Hence, eosinophil frequency and serum ECP as a soluble eosinophil-secreted mediator were suggested as prognostic biomarkers in melanoma. We examined whether melanoma patients treated with first-line targeted therapy could also benefit from the effects of eosinophils. In total, 243 blood and serum samples from patients with advanced melanoma were prospectively and retrospectively collected before and after drug initiation. To link eosinophil function to improved clinical outcome, soluble serum markers and peripheral blood counts were used for correlative studies using a homogeneous study cohort. In addition, functional and phenotypical characterizations provided insights into the expression profile and activity of freshly isolated eosinophils, including comparisons between patients and healthy donors. Our data showed a significant correlation between high pre-treatment blood eosinophil counts and improved response to targeted therapy and by trend to combinatorial immunotherapy in patients with metastatic melanoma. In accordance with previous studies our results links eosinophil blood counts to better response in melanoma patients. High pre-treatment ECP serum concentration correlated with response to immunotherapy but not to targeted therapy. Eosinophils from healthy donors and patients showed functional and phenotypical similarities. Functional assays revealed a strong cytotoxic potential of blood eosinophils towards melanoma cells in vitro, inducing apoptosis and necrosis. In addition, in vitro cytotoxicity was an active process of peripheral eosinophils and melanoma cells with bidirectional features and required close cell-cell interaction. The extent of cytotoxicity was dose-dependent and showed susceptibility to changes in physical factors like adherence. Importantly, we provide evidence of an additive tumoricidal function of eosinophils and combinatorial targeted therapy in vitro. In summary, we give valuable insights into the complex and treatment-dependent role of eosinophils in melanoma. As a result, our data support the suggestion of eosinophils and their secreted mediators as potential prognostic biomarkers. It will take additional studies to examine the molecular mechanisms that underlie our findings.}, subject = {Melanom}, language = {en} } @phdthesis{Maier2023, author = {Maier, Sophia Edith}, title = {Mapping membrane receptor distribution on resting platelets combining Expansion Microscopy and fluorescence confocal microscopy}, doi = {10.25972/OPUS-30031}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-300317}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Stroke and myocardial infarction are the most prominent and severe consequences of pathological thrombus formation. For prevention and/or treatment of thrombotic events there is a variety of anti-coagulation and antiplatelet medication that all have one side effect in common: the increased risk of bleeding. To design drugs that only intervene in the unwanted aggregation process but do not disturb general hemostasis, it is crucial to decipher the exact clotting pathway which has not been fully understood yet. Platelet membrane receptors play a vital role in the clotting pathway and, thus, the aim of this work is to establish a method to elucidate the interactions, clustering, and reorganization of involved membrane receptors such as GPIIb/IIIa and GPIX as part of the GPIb-IX-V complex. The special challenges regarding visualizing membrane receptor interactions on blood platelets are the high abundancy of the first and the small size of the latter (1—3µm of diameter). The resolution limit of conventional fluorescence microscopy and even super-resolution approaches prevents the successful differentiation of densely packed receptors from one another. Here, this issue is approached with the combination of a recently developed technique called Expansion Microscopy (ExM). The image resolution of a conventional fluorescence microscope is enhanced by simply enlarging the sample physically and thus pulling the receptors apart from each other. This method requires a complex sample preparation and holds lots of obstacles such as variable or anisotropic expansion and low images contrast. To increase ExM accuracy and sensitivity for interrogating blood platelets, it needs optimized sample preparation as well as image analysis pipelines which are the main part of this thesis. The colocalization results show that either fourfold or tenfold expanded, resting platelets allow a clear distinction between dependent, clustered, and independent receptor organizations compared to unexpanded platelets.Combining dual-color Expansion and confocal fluorescence microscopy enables to image in the nanometer range identifying GPIIb/IIIa clustering in resting platelets - a pattern that may play a key role in the clotting pathway}, language = {en} } @phdthesis{Hennlein2023, author = {Hennlein, Luisa}, title = {Plastin 3 rescues defective cell surface translocation and activation of TrkB in mouse models for spinal muscular atrophy}, publisher = {Journal of Cell Biology}, doi = {10.25972/OPUS-29879}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298793}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Spinal muscular atrophy (SMA) is a genetic pediatric condition that affects lower motoneurons leading to their degeneration and muscle weakness. It is caused by homozygous loss or mutations in the Survival Motor Neuron 1 (SMN1) gene; however, the pathomechanism leading to motoneuron degeneration is not fully resolved. Cultured embryonic SMA motoneurons display axon elongation and differentiation defects accompanied by collapsed growth cones with a disturbed actin cytoskeleton. Intriguingly, motoneurons cultured from mice deficient for the Tropomyosin-kinase receptor B (TrkB), exhibit similar pathological features. Thus, the question arises whether SMA motoneurons suffer from defective Brain-derived neurotrophic factor (BDNF)/TrkB signaling and whether there is a link to the disturbed actin cytoskeleton. In the recent years, modifier genes such as Plastin 3 (PLS3) were shown to beneficially interfere with SMA pathology. Nevertheless, the mechanism of how the actin-bundler PLS3 counteracts SMN deficiency is not well understood. In this study, we investigated TrkB localization and its activation in cultured SMA motoneurons and neuromuscular junctions (NMJs). While TrkB levels are only mildly affected locally in axon terminals, BDNF-mediated TrkB phosphorylation was massively disturbed. The activity-dependent TrkB translocation to the cell surface and its activation via BDNF were shown to be Pls3-dependent processes, that can be abolished by knockdown of Pls3. In contrast, PLS3 overexpression in SMA motoneurons rescued the defects on morphological and functional level. In particular, the relocation of TrkB to the cell surface after BDNF-induced internalization is disturbed in SMA, which is based on an actin-dependent TrkB translocation defect from intracellular stores. Lastly, AAV9-mediated PLS3 overexpression in vivo in neonatal SMA mice provided further evidence for the capacity of PLS3 to modulate actin dynamics necessary for accurate BDNF/TrkB signaling. In conclusion, we provide a novel role for PLS3 in mediating proper alignment of transmembrane proteins as prerequisite for their appropriate functioning. Hence, PLS3 is required for a key process indispensable for the development and function of motoneurons even beyond the context of SMA.}, subject = {Spinale Muskelatrophie}, language = {en} } @phdthesis{Jaud2023, author = {Jaud, Tobias Armin}, title = {Application based personalized food choices and health sustainment: scientific background and investigation of biomarkers in human tissue specimens}, doi = {10.25972/OPUS-29864}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298646}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Dietary fatty acids serve as objective biomarkers for the estimation of habitual diet mainly because biomarkers are free of memory bias or inaccuracies of food databases. The aim of the present work encompassed the implementation of a gas chromatographical method coupled with a mass spectrometrical and flame-ionization detector for analysis of fatty acid biomarkers in human biospecimens, their analytical determination and statistical evaluation in two different study populations and different biospecimens as well as the elaboration of adverse reactions to food ingredients with special focus on food allergies and food intolerances in the context of a possible implementation into an application for consumer health. The first aim was the identification of potential influence of fatty acid biomarkers on desaturase and elongase indexes (Δ9DI, Δ6DI, Δ5DI and ELOVLI5), which are factors in type 2 diabetes risk, in breast adipose tissue from healthy women. Influence of further variables on respective indexes was also investigated. 40 samples were investigated and potential variables were either collected by questionnaire or determined. Principle component analysis was applied for fatty acid biomarkers (PCdiet1, PCdiet2 and PCdiet3 representative for the dietary intake of vegetable oils/nuts, fish and partially hydrogenated vegetable oils), endogenous estrogens (PCE1) and oxysterols (PCOxy1). Multiple linear regression models were applied. Δ9DI and Δ6DI were influenced non-significantly and significantly negatively by PCdiet2 supporting a putative beneficial effect of vegetable oils and nuts on type 2 diabetes risk factors. ELOVLI5 and Δ5DI were influenced significantly and non-significantly positively by PCdiet1 supporting a putative beneficial effect of fish consumption on type 2 diabetes risk factors. On the other hand, PCdiet1 also significantly and non-significantly positively influenced Δ9DI and Δ6DI supporting a putative adverse effect of fish biomarkers on type 2 diabetes risk factors. The opposing influences of PCdiet1 suggesting an ambivalent role of dietary intake of fish on investigated indexes. Δ6DI was significantly positively influenced by PCdiet3 and number of pregnancies supporting a putative adverse effect of partially hydrogenated vegetable oils and pregnancies on type 2 diabetes risk factors. Lifestyle factors like smoking significantly and non-significantly influenced Δ9DI and Δ6DI putatively adversely. Δ5DI was influenced significantly positively by estrogen active drugs suggesting a putative beneficial effect on type 2 diabetes risk factors. It must be considered that a variation coefficient of up to 0.44 only explained 44\% of variance of the respective indexes, suggesting other influencing factors might play a role. The second aim was the implementation of a gas chromatographical method coupled with a mass spectrometrical and flame-ionization detector for analysis of fatty acid biomarkers in human biospecimens. The method was optimized for separation and detection of 40 fatty acids. Mean recovery for tridecanoic acid was x(tridecanoic acid) = 90.51\% and for nonadecanoic acid x(nonadecanoic acid) = 96.21\%. Thus, there was no significant loss of fatty acids with shorter and longer carbon chains over the extraction process to be expected. Limit of detections were calculated in adipose tissue samples and ranged from 0.007 to 0.077\% of the proportion of the respective fatty acid to total fatty acids. The third aim was the investigation if differentiation between breast glandular and adipose tissue had a relevant impact on the analysis of dietary fatty acid biomarkers or if contamination of breast glandular with breast adipose tissue and vice versa was neglectable for the analysis of dietary fatty acid biomarkers. No statistical significant differences were observed for all investigated fatty acid biomarkers (pentadecanoic-, heptadecanoic-, trans palmitoleic-, eicosapentaenoic-, docosahexaenoic-, linoleic and α-linolenic acid) between breast glandular and adipose tissue. Thus, differentiation between breast glandular and adipose tissue seems not to be necessary for the analysis of fatty acids serving as biomarkers for the intake of specific food groups. Potential influence of mixed breast tissue on fatty acid biomarkers analysis seems to be neglectable. The fourth aim was the determination of fatty acid biomarkers in adipose tissue in another study population from healthy participants. 27 adipose tissue samples were analyzed. Milk and ruminant fat biomarkers exhibited proportions of 0.47\% for pentadecanoic acid, 0.34\% for heptadecanoic acid and 0.25\% for trans palmitoleic acid. Fish fatty acid biomarkers revealed proportions of 0.034\% for eicosapentaenoic acid and 0.061\% for docosahexaenoic acid. The mean proportion of vegetable oils and nuts biomarkers were 9.58\% for linoleic acid and 0.48\% for α-linolenic acid in all adipose tissues. Principle component analysis was applied for the fatty acid biomarkers to provide objective markers of habitual diet for this study population. PCdiet1 was mainly characterized by pentadecanoic acid, heptadecanoic acid and trans palmitoleic acid and therefore served as a principle component for the dietary intake of milk and ruminant fat. PCdiet2 and PCdiet3 only exhibited pattern for ω3 and ω6 fatty acids but not for dietary intake of specific food groups and could therefore not used as objective marker. PCdiet1, 2 and 3 explained 82.76\% of variance. The last aim of this thesis was the elaboration of adverse reactions to food ingredients with special focus on food allergies and food intolerances in the context of a possible implementation into an application for consumer health. Scientific information on adverse reactions to food ingredients and trigger substances was provided in this thesis and possible implementation strategies were evaluated. For food allergens, which have regulatory requirements in the context of labelling, a strategy was elaborated, where it is necessary to provide information on the list of ingredients, the nexus 'contain' and the respective food allergen as well as information on the name of the product. For food intolerances, which do not have regulatory requirements, limits were shown in the context of the application. If the elaborated food intolerances shall be implemented into the application, a professional dietary concept has to be developed for every food intolerance because of the complexity of the implementation.}, subject = {Lebensmittelchemie}, language = {en} } @phdthesis{Haspert2023, author = {Haspert, Valentina}, title = {Improving acute pain management with emotion regulation strategies: A comparison of acceptance, distraction, and reappraisal}, doi = {10.25972/OPUS-29866}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298666}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {Pain conditions and chronic pain disorders are among the leading reasons for seeking medical help and immensely burden patients and the healthcare system. Therefore, research on the underlying mechanisms of pain processing and modulation is necessary and warranted. One crucial part of this pain research includes identifying resilience factors that protect from chronic pain development and enhance its treatment. The ability to use emotion regulation strategies has been suggested to serve as a resilience factor, facilitating pain regulation and management. Acceptance has been discussed as a promising pain regulation strategy, but results in this domain have been mixed so far. Moreover, the allocation of acceptance in Gross's (1998) process model of emotion regulation has been under debate. Thus, comparing acceptance with the already established strategies of distraction and reappraisal could provide insights into underlying mechanisms. This dissertation project consisted of three successive experimental studies which aimed to investigate these strategies by applying different modalities of individually adjusted pain stimuli of varying durations. In the first study (N = 29), we introduced a within-subjects design where participants were asked to either accept (acceptance condition) or react to the short heat pain stimuli (10 s) without using any pain regulation strategies (control condition). In the second study (N = 36), we extended the design of study 1 by additionally applying brief, electrical pain stimuli (20 ms) and including the new experimental condition distraction, where participants should distract themselves from the pain experience by imagining a neutral situation. In the third study (N = 121), all three strategies, acceptance, distraction, and reappraisal were compared with each other and additionally with a neutral control condition in a mixed design. Participants were randomly assigned to one of three strategy groups, including a control condition and a strategy condition. All participants received short heat pain stimuli of 10 s, alternating with tonic heat pain stimuli of 3 minutes. In the reappraisal condition, participants were instructed to imagine the pain having a positive outcome or valence. The self-reported pain intensity, unpleasantness, and regulation ratings were measured in all studies. We further recorded the autonomic measures heart rate and skin conductance continuously and assessed the habitual emotion regulation styles and pain-related trait factors via questionnaires. Results revealed that the strategies acceptance, distraction, and reappraisal significantly reduced the self-reported electrical and heat pain stimulation with both durations compared to a neutral control condition. Additionally, regulatory efforts with acceptance in study 2 and with all strategies in study 3 were reflected by a decreased skin conductance level compared to the control condition. However, there were no significant differences between the strategies for any of the assessed variables. These findings implicate similar mechanisms underlying all three strategies, which led to the proposition of an extended process model of emotion regulation. We identified another sequence in the emotion-generative process and suggest that acceptance can flexibly affect at least four sequences in the process. Correlation analyses further indicated that the emotion regulation style did not affect regulatory success, suggesting that pain regulation strategies can be learned effectively irrespective of habitual tendencies. Moreover, we found indications that trait factors such as optimism and resilience facilitated pain regulation, especially with acceptance. Conclusively, we propose that acceptance could be flexibly used by adapting to different circumstances. The habitual use of acceptance could therefore be considered a resilience factor. Thus, acceptance appears to be a promising and versatile strategy to prevent the development of and improve the treatment of various chronic pain disorders. Future studies should further examine factors and circumstances that support effective pain regulation with acceptance.}, subject = {Schmerzforschung}, language = {en} } @phdthesis{Weigl2023, author = {Weigl, Franziska}, title = {Correlation of FluidFM® Technology and Fluorescence Microscopy for the Visualization of Cellular Detachment Steps}, doi = {10.25972/OPUS-29876}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298763}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {This thesis aimed the development of a correlated device which combines FluidFM® with Fluorescence Microscopy (FL) (FL-FluidFM®) and enables the simultaneous quantification of adhesion forces and fluorescent visualization of mature cells. The implementation of a PIFOC was crucial to achieve a high-resolution as well as a stable but dynamic focus level. The functionality of SCFS after hardware modification was verified by comparing two force-curves, both showing the typical force progression and measured with the optimized and conventional hardware, respectively. Then, the integration of FL was examined by detaching fluorescently labeled REF52 cells. The fluorescence illumination of the cytoskeleton showed the expected characteristic force profile and no evidence of interference effects. Afterwards a corresponding correlative data analysis was addressed including manual force step fitting, the identification of visualized cellular unbinding, and a time-dependent correlation. This procedure revealed a link between the area of cytoskeletal unbinding and force-jumps. This was followed by a comparison of the detachment characteristics of intercellular connected HUVECs and individual REF52 cells. HUVECs showed maximum detachment forces in the same order of magnitude as the ones of single REF52 cells. This contrasted with the expected strong cohesiveness of endothelial cells and indicated a lack of cell-cell contact formation. The latter was confirmed by a comparison of HUVECs, primary HBMVECs, and immortalized EA.hy926 cells fluorescently labeled for two marker proteins of intercellular junctions. This unveiled that both the previous cultivation duration and the cell type have a major impact on the development of intercellular junctions. In summary, the correlative FL FluidFM® represents a powerful novel approach, which enables a truly contemporaneous performance and, thus, has the potential to reveal new insights into the mechanobiological properties of cell adhesion.}, language = {en} } @phdthesis{Forster2023, author = {Forster, Leonard}, title = {Hyaluronic acid based Bioinks for Biofabrication of Mesenchymal Stem Cells}, doi = {10.25972/OPUS-29860}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298603}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {As a major component of the articular cartilage extracellular matrix, hyaluronic acid is a widely used biomaterial in regenerative medicine and tissue engineering. According to its well-known interaction with multiple chondrocyte surface receptors which positively affects many cellular pathways, some approaches by combining mesenchymal stem cells and hyaluronic acid-based hydrogels are already driven in the field of cartilage regeneration and fat tissue. Nevertheless, a still remaining major problem is the development of the ideal matrix for this purpose. To generate a hydrogel for the use as a matrix, hyaluronic acid must be chemically modified, either derivatized or crosslinked and the resulting hydrogel is mostly shaped by the mold it is casted in whereas the stem cells are embedded during or after the gelation procedure which does not allow for the generation of zonal hierarchies, cell density or material gradients. This thesis focuses on the synthesis of different hyaluronic acid derivatives and poly(ethylene glycol) crosslinkers and the development of different hydrogel and bioink compositions that allow for adjustment of the printability, integration of growth factors, but also for the material and biological hydrogel, respectively bioink properties.}, language = {en} } @phdthesis{Bangalore2022, author = {Bangalore, Disha Mohan}, title = {Mechanistic studies of protein-DNA interactions by single molecule atomic force microscopy}, doi = {10.25972/OPUS-25204}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-252047}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Protein-DNA interactions are central to many biological processes and form the bedrock of gene transcription, DNA replication, and DNA repair processes. Many proteins recognize specific sequences in DNA- a restriction enzyme must only cut at the correct sequence and a transcription factor should bind at its consensus sequence. Some proteins are designed to bind to specific structural or chemical features in DNA, such as DNA repair proteins and some DNA modifying enzymes. Target-specific DNA binding proteins initially bind to non-specific DNA and then search for their target sites through different types of diffusion mechanisms. Atomic force microscopy (AFM) is a single-molecule technique that is specifically well-suited to resolve the distinct states of target-specific as well as nonspecific protein-DNA interactions that are vital for a deeper insight into the target site search mechanisms of these enzymes. In this thesis, protein systems involved in epigenetic regulation, base excision repair (BER), and transcription are investigated by single-molecule AFM analyses complemented by biochemical and biophysical experiments. The first chapter of this thesis narrates the establishment of a novel, user-unbiased MatLab-based tool for automated DNA bend angle measurements on AFM data. This tool has then been employed to study the initial lesion detection step of several DNA glycosylases. These results promoted a model describing the altered plasticities of DNA at the target lesions of DNA glycosylases as the fundamental mechanism for their enhanced efficiency of lesion detection. In the second chapter of this thesis, the novel automated tool has been further extended to provide protein binding positions on the DNA along with corresponding DNA bend angles and applied to the study of DNMT3A DNA methyltransferase. These AFM studies revealed preferential co-methylation at specific, defined distances between two CpG sites by the enzyme and when combined with biochemical analyses and structural modelling supported novel modes of CpG co-methylation by DNMT3A. In the third chapter of this thesis, the role of 8-oxo-guanine glycosylase (hOGG1) in Myc-mediated transcription initiation has been investigated. AFM analyses revealed that in the presence of oxidative damage in DNA, Myc is recruited to its target site (E-box) by hOGG1 through direct protein-protein interactions, specifically under oxidizing conditions. Intriguingly, oxidation of hOGG1 was further observed to result in dimerization of hOGG1, which may also play a role in the mechanism of transcription regulation by hOGG1 under oxidative stress.}, subject = {Transcription}, language = {en} } @phdthesis{Zoran2022, author = {Zoran, Tamara}, title = {Multilevel analysis of the human immune response to \(Aspergillus\) \(fumigatus\) infection: Characteristic molecular signatures and individual risk factors}, doi = {10.25972/OPUS-29851}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-298512}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Although the field of fungal infections advanced tremendously, diagnosis of invasive pulmonary aspergillosis (IPA) in immunocompromised patients continues to be a challenge. Since IPA is a multifactorial disease, investigation from different aspects may provide new insights, helpful for improving IPA diagnosis. This work aimed to characterize the human immune response to Aspergillus fumigatus in a multilevel manner to identify characteristic molecular candidates and risk factors indicating IPA, which may in the future support already established diagnostic assays. We combined in vitro studies using myeloid cells infected with A. fumigatus and longitudinal case-control studies investigating patients post allogeneic stem cell transplantation (alloSCT) suffering from IPA and their match controls. Characteristic miRNA and mRNA signatures indicating A. fumigatus-infected monocyte-derived dendritic cells (moDCs) demonstrated the potential to differentiate between A. fumigatus and Escherichia coli infection. Transcriptome and protein profiling of alloSCT patients suffering from IPA and their matched controls revealed a distinctive IPA signature consisting of MMP1 induction and LGAL2 repression in combination with elevated IL-8 and caspase-3 levels. Both, in vitro and case-control studies, suggested cytokines, matrix-metallopeptidases and galectins are important in the immune response to A. fumigatus. Identified IPA characteristic molecular candidates are involved in numerous processes, thus a combination of these in a distinctive signature may increase the specificity. Finally, low monocyte counts, severe GvHD of the gut (grade ≥ 2) and etanercept administration were significantly associated with IPA diagnosis post alloSCT. Etanercept in monocyte-derived macrophages (MDM) infected with A. fumigatus downregulates genes involved in the NF-κB and TNF-α pathway and affects the secretion of CXCL10. Taken together, identified characteristic molecular signatures and risk factors indicating IPA may in the future in combination with established fungal biomarkers overcome current diagnostic challenges and help to establish tailored antifungal therapy. Therefore, further multicentre studies are encouraged to evaluate reported findings.}, subject = {Aspergillus fumigatus}, language = {en} } @phdthesis{Palmisano2022, author = {Palmisano, Chiara}, title = {Supraspinal Locomotor Network Derangements: A Multimodal Approach}, doi = {10.25972/OPUS-26644}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-266442}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Parkinson's Disease (PD) constitutes a major healthcare burden in Europe. Accounting for aging alone, ~700,000 PD cases are predicted by 2040. This represents an approximately 56\% increase in the PD population between 2005 and 2040, with a consequent rise in annual disease-related medical costs. Gait and balance disorders are a major problem for patients with PD and their caregivers, mainly because to their correlation with falls. Falls occur as a result of a complex interaction of risk factors. Among them, Freezing of Gait (FoG) is a peculiar gait derangement characterized by a sudden and episodic inability to produce effective stepping, causing falls, mobility restrictions, poor quality of life, and increased morbidity and mortality. Between 50-70\% of PD patients have FoG and/or falls after a disease duration of 10 years, only partially and inconsistently improved by dopaminergic treatment and Deep Brain Stimulation (DBS). Treatment-induced worsening has been also observed under certain conditions. Effective treatments for gait disturbances in PD are lacking, probably because of the still poor understanding of the supraspinal locomotor network. In my thesis, I wanted to expand our knowledge of the supraspinal locomotor network and in particular the contribution of the basal ganglia to the control of locomotion. I believe this is a key step towards new preventive and personalized therapies for postural and gait problems in patients with PD and related disorders. In addition to patients with PD, my studies also included people affected by Progressive Supranuclear Palsy (PSP). PSP is a rare primary progressive parkinsonism characterized at a very early disease stage by poor balance control and frequent backwards falls, thus providing an in vivo model of dysfunctional locomotor control. I focused my attention on one of the most common motor transitions in daily living, the initiation of gait (GI). GI is an interesting motor task and a relevant paradigm to address balance and gait impairments in patients with movement disorders, as it is associated with FoG and high risk of falls. It combines a preparatory (i.e., the Anticipatory Postural Adjustments [APA]) and execution phase (the stepping) and allows the study of movement scaling and timing as an expression of muscular synergies, which follow precise and online feedback information processing and integration into established feedforward patterns of motor control. By applying a multimodal approach that combines biomechanical assessments and neuroimaging investigations, my work unveiled the fundamental contribution of striatal dopamine to GI in patients with PD. Results in patients with PSP further supported the fundamental role of the striatum in GI execution, revealing correlations between the metabolic intake of the left caudate nucleus with diverse GI measurements. This study also unveiled the interplay of additional brain areas in the motor control of GI, namely the Thalamus, the Supplementary Motor Area (SMA), and the Cingulate cortex. Involvement of cortical areas was also suggested by the analysis of GI in patients with PD and FoG. Indeed, I found major alterations in the preparatory phase of GI in these patients, possibly resulting from FoG-related deficits of the SMA. Alterations of the weight shifting preceding the stepping phase were also particularly important in PD patients with FoG, thus suggesting specific difficulties in the integration of somatosensory information at a cortical level. Of note, all patients with PD showed preserved movement timing of GI, possibly suggesting preserved and compensatory activity of the cerebellum. Postural abnormalities (i.e., increased trunk and thigh flexion) showed no relationship with GI, ruling out an adaptation of the motor pattern to the altered postural condition. In a group of PD patients implanted with DBS, I further explored the pathophysiological functioning of the locomotor network by analysing the timely activity of the Subthalamic Nucleus (STN) during static and dynamic balance control (i.e., standing and walking). For this study, I used novel DBS devices capable of delivering stimulation and simultaneously recording Local Field Potentials (LFP) of the implanted nucleus months and years after surgery. I showed a gait-related frequency shift in the STN activity of PD patients, possibly conveying cortical (feedforward) and cerebellar (feedback) information to mesencephalic locomotor areas. Based on this result, I identified for each patient a Maximally Informative Frequency (MIF) whose power changes can reliably classify standing and walking conditions. The MIF is a promising input signal for new DBS devices that can monitor LFP power modulations to timely adjust the stimulation delivery based on the ongoing motor task (e.g., gait) performed by the patient (adaptive DBS). Altogether my achievements allowed to define the role of different cortical and subcortical brain areas in locomotor control, paving the way for a better understanding of the pathophysiological dynamics of the supraspinal locomotor network and the development of tailored therapies for gait disturbances and falls prevention in PD and related disorders.}, language = {en} } @phdthesis{Knoepper2022, author = {Kn{\"o}pper, Konrad}, title = {Lymph node heterogeneity is imprinted by unconventional T cells that are organized in functional units}, doi = {10.25972/OPUS-29694}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296949}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {The immune system has the function to defend organisms against a variety of pathogens and malignancies. To perform this task, different parts of the immune system work in concert and influence each other to balance and optimize its functional output upon activation. One aspect that determines this output and ultimately the outcome of the infection is the tissue context in which the activation takes place. As such, it has been shown that dendritic cells can relay information from the infection sites to draining lymph nodes. This way, the ensuing adaptive immune response that is initiated by dendritic cells, is optimized to the tissue context in which the infection needs to be cleared. Here, we set out to investigate whether unconventional T cells (UTC) could have a similar function in directing a site-specific immune response. Using flow cytometry, scRNA-sequencing and functional assays we demonstrated that UTC indeed drive a characteristic immune response in lymph nodes depending on the drained tissues. This function of UTC was directly connected to their lymphatic migration from tissues to draining lymph nodes reminiscent of dendritic cells. Besides these tissue-derived UTC that migrated via the lymph, we further identified circulatory UTC that migrated between lymph nodes via the blood. Functional characterization of UTC following bacterial infection in wt and single TCR-based lineage deficient mice that lacked subgroups of UTC further revealed that both tissue-derived and circulatory UTC were organized in functional units independent of their TCR-based lineage-affiliation (MAIT, NKT, gd T cells). Specific reporter mouse models revealed that UTC within the same functional unit were also located in the same microanatomical areas of lymph nodes, further supporting their shared function. Our data show that the numbers and function of UTC were compensated in single TCR-based lineage deficient mice that lacked subgroups of UTC. Taken together, our results characterize the transcriptional landscape and migrational behavior of UTC in different lymph nodes. UTC contribute to a functional heterogeneity of lymph nodes, which in turn guides optimized, site-specific immune responses. Additionally, we propose the classification of UTC within functional units independent of their TCR-based lineage. These results add significantly to our understanding of UTC biology and have direct clinical implications. We hope that our data will guide targeted vaccination approaches and cell-based therapies to optimize immune responses against pathogens and cancer.}, language = {en} } @phdthesis{Ku2022, author = {Ku, Hsing-Ping}, title = {Cadherin-13 Deficiency Impacts Murine Serotonergic Circuitries and Cognitive Functions}, doi = {10.25972/OPUS-25144}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-251446}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Cadherin-13 (CDH13) is a member of the cadherin superfamily that lacks the typical transmembrane domain for classical cadherins and is instead attached to the cell membrane with a GPI-anchor. Over the years, numerous genome-wide association (GWA) studies have identified CDH13 as a risk factor for neurodevelopmental disorders, including attention- deficit/hyperactivity disorder (ADHD) and autism spectrum disorder. Further evidence using cultured cells and animal models has shown that CDH13 plays important roles in cell migration, neurite outgrowth and synaptic function of the central nervous system. Research in our laboratory demonstrated that the CDH13 deficiency resulted in increased cell density of serotonergic neurons of the dorsal raphe (DR) in developing and mature mouse brains as well as serotonergic hyperinnervation in the developing prefrontal cortex, one of the target areas of DR serotonergic neurons. In this study, the role of CDH13 was further explored using constitutive and serotonergic system-specific CDH13-deficient mouse models. Within the adult DR structure, the increased density of DR serotonergic neurons was found to be topographically restricted to the ventral and lateral-wing, but not dorsal, clusters of DR. Furthermore, serotonergic hyperinnervation was observed in the target region of DR serotonergic projection neurons in the lateral wings. Unexpectedly, these alterations were not observed in postnatal day 14 brains of CDH13-deficient mice. Additionally, behavioral assessments revealed cognitive deficits in terms of compromised learning and memory ability as well as impulsive-like behaviors in CDH13-deficient mice, indicating that the absence of CDH13 in the serotonergic system alone was sufficient to impact cognitive functions and behavioral competency. Lastly, in order to examine the organization of serotonergic circuitries systematically and to tackle limitations of conventional immunofluorescence, a pipeline of the whole-mount immunostaining in combination with the iDISCO+ based rapid tissue clearing techniques was established. This will facilitate future research of brain neurotransmitter systems at circuitry and/or whole-brain levels and provide an excellent alternative for visualizing detailed and comprehensive information about a biological system in its original space. In summary, this study provided new evidence of CDH13's contribution to proper brain development and cognitive function in mice, thereby offering insights into further advancement of therapeutic approaches for neurodevelopmental disorders.}, language = {en} } @phdthesis{Reinhart2022, author = {Reinhart, Michael Christian}, title = {Enhancing mucosal B cell responses with all-\(trans\) retinoic acid}, doi = {10.25972/OPUS-29292}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-292920}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Diarrheal diseases are a major cause of death in developing countries. Vaccinating against the causative pathogens could reduce mortality and morbidity in these countries. Unfortunately, only for some of the most common enteral pathogens are vaccines available. Some of these available vaccines have limitations in terms of effectiveness and duration of protection. There is therefore an urgent need to develop new vaccine strategies that can generate protection against enteral pathogens. The presence of all-trans retinoic acid (ATRA) during lymphocyte maturation is known to imprint a phenotype on lymphocytes that enables them to home to the intestines. Additionally, ATRA is known to play a role in B cell class switch to IgA, which is the dominant immunoglobulin in the intestines. The aim of this study was therefore to investigate whether the addition of all-trans retinoic acid (ATRA) or a retinoic acid receptor agonist (AM80) to a parenteral vaccination could provide protection at the intestinal mucosa against enteric pathogens. C57BL/6 mice received s.c. priming and boosting immunizations with Ovalbumin followed by several s.c. injections with either ATRA, AM80 or the respective solvent as control substance. Feces, serum, saliva and vaginal lavage samples were collected and analyzed by ELISA for detection and relative quantification of antigen-specific antibodies. B cell populations in the draining lymph nodes were investigated after immunization using flow-cytometry. Antigen-specific antibodies producing cells were visualized in the small intestine of vaccinated animals using two-photon microscopy. Animals that were vaccinated and were exposed to AM80, and to a lesser extent ATRA exposed mice, had higher serum, fecal, saliva and vaginal lavage antigen-specific IgA titers when compared to animals that were vaccinated but did not receive ATRA/AM80. Antigen-specific IgG titers were not altered in any of the investigated tissues. In the draining lymph nodes, IgA+ and IgG+ B cells were increased after vaccination and AM80 exposure at several time points within 14 days after vaccination. Antigen-specific IgA+ cells were found in the small intestine of immunized and AM80-exposed but not control substance-exposed mice. These results suggest that the addition of ATRA or AM80 to parenteral vaccine formulations increases the abundance of antigen-specific antibodies at mucosal surfaces, and therefore have the potential to generate protective antibody titers at those mucosal surfaces.}, subject = {Impfung}, language = {en} } @phdthesis{Chithelen2022, author = {Chithelen, Janice}, title = {Targeting viral and host factors to optimize anti-measles virus therapy}, doi = {10.25972/OPUS-29305}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-293059}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Measles is an ancient disease with historical records as early as the 9th century. Extensive study as well as advances in scientific knowledge of virology have led to identification of the viral pathogen and subsequent development of an effective vaccine leading to global efforts towards measles elimination. In 2018, around 140,000 deaths were reported due to measles with incomplete vaccine coverage being one of the leading causes of resurgence. Measles is highly contagious and often regarded as a childhood illness. However, measles is associated with a number of complications and persistent infections like subacute sclerosing panencephalitis (SSPE), which have brought into focus the need for specific anti-viral therapies. The aim of this study was to target host and viral factors to optimize anti-measles virus therapy. Our approach was to test a panel of compounds known to inhibit host cell functions or viral factors for their antiviral effect on measles replication. Primary human lymphocytes, persistently infected NT2 cells and post-mitotic neurons were used as in vitro model systems of acute, persistent and neuronal infection respectively to test the inhibitors. Using the inhibitors Ceranib-2 and SKI-II to target the sphingolipid metabolism enzymes acid ceramidase and sphingosine kinase in infected human primary lymphocytes, we observed a decreased protein translational capacity mediated by mTORC1, EIF4E and ribosomal protein S6 phosphorylation that probably contributes to the antiviral effect. In the persistently infected neural NT2 cells and post-mitotic neurons derived from LUHMES cells, we observed effective infection inhibition and viral clearance upon treatment with a small non-nucleoside inhibitor (ERDRP-0519) specifically targeting the Morbillivirus large polymerase. Other inhibitors such as Ribavirin and Favipiravir were less effective. To conclude, 1) we identified a mTOR associated protein translation axis associated with the sphingolipid metabolism, which affects measles virus replication and 2) In vitro persistently infected neuronal and post-mitotic neuron models were successfully used as a rapid method to test antivirals against measles virus.}, language = {en} } @phdthesis{Grob2022, author = {Grob, Robin}, title = {The Function of Learning Walks of \({Cataglyphis Ants}\): Behavioral and Neuronal Analyses}, doi = {10.25972/OPUS-29017}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-290173}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Humans and animals alike use the sun, the moon, and the stars to guide their ways. However, the position of celestial cues changes depending on daytime, season, and place on earth. To use these celestial cues for reliable navigation, the rotation of the sky has to be compensated. While humans invented complicated mechanisms like the Antikythera mechanism to keep track of celestial movements, animals can only rely on their brains. The desert ant Cataglyphis is a prime example of an animal using celestial cues for navigation. Using the sun and the related skylight polarization pattern as a compass, and a step integrator for distance measurements, it can determine a vector always pointing homewards. This mechanism is called path integration. Since the sun's position and, therefore, also the polarization pattern changes throughout the day, Cataglyphis have to correct this movement. If they did not compensate for time, the ants' compass would direct them in different directions in the morning and the evening. Thus, the ants have to learn the solar ephemeris before their far-reaching foraging trips. To do so, Cataglyphis ants perform a well-structured learning-walk behavior during the transition phase from indoor worker to outdoor forager. While walking in small loops around the nest entrance, the ants repeatedly stop their forward movements to perform turns. These can be small walked circles (voltes) or tight turns about the ants' body axes (pirouettes). During pirouettes, the ants gaze back to their nest entrance during stopping phases. These look backs provide a behavioral read-out for the state of the path integrator. The ants "tell" the observer where they think their nest is, by looking back to it. Pirouettes are only performed by Cataglyphis ants inhabiting an environment with a prominent visual panorama. This indicates, that pirouettes are performed to learn the visual panorama. Voltes, on the other hand, might be used for calibrating the celestial compass of the ants. In my doctoral thesis, I employed a wide range of state-of-the-art techniques from different disciplines in biology to gain a deeper understanding of how navigational information is acquired, memorized, used, and calibrated during the transition phase from interior worker to outdoor forager. I could show, that celestial orientation cues that provide the main compass during foraging, do not guide the ants during the look-backbehavior of initial learning walks. Instead Cataglyphis nodus relies on the earth's magnetic field as a compass during this early learning phase. While not guiding the ants during their first walks outside of the nest, excluding the ants from perceiving the natural polarization pattern of the skylight has significant consequences on learning-related plasticity in the ants' brain. Only if the ants are able to perform their learning-walk behavior under a skylight polarization pattern that changes throughout the day, plastic neuronal changes in high-order integration centers are induced. Especially the mushroom bogy collar, a center for learning and memory, and the central complex, a center for orientation and motor control, showed an increase in volume after learning walks. This underlines the importance of learning walks for calibrating the celestial compass. The magnetic compass might provide the necessary stable reference system for the ants to calibrate their celestial compass and learn the position of landmark information. In the ant brain, visual information from the polarization-sensitive ocelli converge in tight apposition with neuronal afferents of the mechanosensitive Johnston's organ in the ant's antennae. This makes the ants' antennae an interesting candidate for studying the sensory bases of compass calibration in Cataglyphis ants. The brain of the desert navigators is well adapted to successfully accomplish their navigational needs. Females (gynes and workers) have voluminous mushroom bodies, and the synaptic complexity to store large amount of view-based navigational information, which they acquire during initial learning walks. The male Cataglyphis brain is better suited for innate behaviors that support finding a mate. The results of my thesis show that the well adapted brain of C. nodus ants undergoes massive structural changes during leaning walks, dependent on a changing celestial polarization pattern. This underlies the essential role of learning walks in the calibration of orientation systems in desert ants.}, subject = {Cataglyphis}, language = {en} } @phdthesis{Kurz2022, author = {Kurz, Hendrikje}, title = {Regulation of ion conductance and cAMP/cGMP concentration in megakaryocytes by light}, doi = {10.25972/OPUS-21694}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216947}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Platelets play an essential role in haemostasis. Through granule secretion of second wave mediators and aggregation, they secure vascular integrity. Due to incorrect activation, platelet aggregation and subsequent thrombus formation can cause blood vessel occlusion, leading to ischemia. Patients with defects in platelet production have a low platelet count (thrombocytopenia), which can cause an increased bleeding risk. In vitro platelet generation is still in its development phase. So far, no convincing results have been obtained. For this reason, the health care system still depends on blood donors. Platelets are produced by bone marrow megakaryocytes (MKs), which extend long cytoplasmic protrusions, designated proplatelets, into sinusoidal blood vessels. Due to shear forces, platelets are then released into the bloodstream. The molecular mechanisms underlying platelet production are still not fully understood. However, a more detailed insight of this biological process is necessary to improve the in vitro generation of platelets and to optimise treatment regimens of patients. Optogenetics is defined as "light-modulation of cellular activity or of animal behaviour by gene transfer of photo-sensitive proteins". Optogenetics has had a big impact on neuroscience over the last decade. The use of channelrhodopsin 2 (ChR2), a light-sensitive cation channel, made it possible to stimulate neurons precisely and minimally invasive for the first time. Recent developments in the field of optogenetics intend to address a broader scope of cellular and molecular biology. The aim of this thesis is to establish optogenetics in the field of MK research in order to precisely control and manipulate MK differentiation. An existing "optogenetic toolbox" was used, which made it possible to light-modulate the cellular concentration of specific signalling molecules and ion conductance in MKs. Expression of the bacterial photoactivated adenylyl cyclase (bPAC) resulted in a significant increase in cAMP concentration after 5 minutes of illumination. Similarly, intracellular cGMP concentrations in MKs expressing photoactivated guanylyl cyclase (BeCyclop) were elevated. Furthermore, proplatelet formation of MKs expressing the light-sensitive ion channels ChR2 and anion channelrhodopsin (ACR) was altered in a light-dependent manner. These results show that MK physiology can be modified by optogenetic approaches. This might help shed new light on the underlying mechanisms of thrombopoiesis.}, subject = {Optogenetik}, language = {en} } @phdthesis{Heib2022, author = {Heib, Tobias}, title = {The role of Rho GTPases in megakaryopoiesis and thrombopoiesis}, doi = {10.25972/OPUS-21664}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216645}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Platelets, derived from megakaryocytes (MKs) in the bone marrow (BM), are small, anucleated cells that circulate in the bloodstream and are critical for thrombosis and hemostasis. Megakaryo- and subsequent thrombopoiesis are highly orchestrated processes involving the differentiation and maturation of MKs from hematopoietic stem cells (HSCs), after which MKs are able to release platelets into the bloodstream, a process termed proplatelet formation (PPF). Here, the MK penetrates the endothelial lining and releases cytoplasmic portions (proplatelets) into the blood stream, which finally mature into platelets within the ciruculation. PPF requires an extensive crosstalk as well as a tight regulation of the MK cytoskeleton, in which small GTPases of the Rho family, such as RhoA and Cdc42 are critically involved and play opposing roles. MK and platelet specific Cdc42 or RhoA-deficiency in mice results in macrothrombocytopenia. Moreover, RhoA deficient mice displayed a frequent mislocalization of entire MKs into BM sinusoids, a finding that was reverted upon concomitant lack of Cdc42 but accompanied by an aggravated macrothrombocytopenia. Whether receptors are involved in the process of transendothelial MK migration, however, remained unclear. In the first part of this thesis, a centrifugation-based method ('spin isolation') to harvest murine BM cells was established, which not only reduces experimental time, costs and animals but is also highly suitable for studies on primary and in vitro cultured BM-derived cells. The spin isolation was used particularly for MK studies during the course of the thesis. In the second part of this thesis, a MK- and platelet-specific RhoA/Cdc42 double-deficiency was shown to result in reduced expression of a variety of MK-specific glycoproteins and cytoskeletal regulators of importance during MK maturation and PPF, a phenotype culminating in virtually abolished platelet biogenesis. We thus uncovered that RhoA/Cdc42-regulated gene expression is a prerequisite for cytoplasmic MK maturation, but dispensable for endomitosis. In the third part of this thesis we analyzed mice double-deficient in RhoA and prominent MK receptors which are potentially involved in the regulation of PPF in the BM environment. We were able to show that integrins as well as the inhibitory receptor G6b-B are dispensable for transendothelial migration of RhoA-deficient MKs. Surprisingly however, the myelofibrosis and concomitant osteosclerosis observed in G6b-B single-deficient mice was attenuated in RhoA/G6b B double-deficient mice, thus implying an important role of RhoA during myelofibrotic disease progression. BM transplantation experiments furthermore revealed that not only the macrothrombocytopenia but also the transmigration of RhoA-deficient MKs is due to cell-intrinsic defects and not related to possible Pf4-Cre off-target effects in non-hematopoietic cells. In the last part of this study we demonstrated that the new approach for MK- and platelet-specific gene ablatation using Gp1ba-Cre deleter mice is associated with intrinsic MK defects and in addition results in insufficient depletion of RhoA compared to the Pf4-Cre model, positioning the latter still as the gold standard for studying MK biology.}, subject = {Megakaryozyt}, language = {en} } @phdthesis{Gross2022, author = {Gross, Carina}, title = {The role of platelets in hepatic ischemia reperfusion injury in mice}, doi = {10.25972/OPUS-21618}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216180}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Platelets are the second most abundant blood cells and their main function is maintenance of vascular integrity. In addition, platelets are increasingly recognized as cells with immune functions, as they participate in the recruitment of immune cells and modulate the progression and severity of an immune response. So-called lipid mediators, which are - besides other cells - released by activated platelets, influence the immune response. LTB4 is one of these potent lipid mediators and is able to activate neutrophils and induce their infiltration into injured tissue. In order to investigate the involvement of platelets in inflammatory processes, a murine model of hepatic ischemia reperfusion injury as well as confocal intravital microscopy of the liver were established. Both methods were used to analyze the influence of platelets on the inflammation that follows sterile liver inflammation. We found platelet function to be unaltered after three hours of reperfusion and platelet aggregation to be irrelevant for the outcome of hepatic ischemia reperfusion injury. However, a strong impact of the GPIb-vWF axis could be observed, as antibody mediated blockade of GPIb as well as vWF-deficiency significantly reduced liver damage markers and decreased neutrophil infiltration. GPIb-IL-4R mice were used to exclude the possibility that the protective effects of the anti-GPIbα antibody treatment (p0p/B) results from something else than blocking GPIbα. Furthermore, the slope of neutrophil infiltration was decreased in p0p/B-treated mice, leading to overall decreased neutrophil numbers in the liver after three hours of reperfusion. Blockade of the integrin αIIbβ3, however, showed no reduction in neutrophil infiltration into the post-ischemic liver, in line with unaltered liver damage. To study the role of leukotriene B4, conditional and constitutive knockout mice for the LTA4 hydrolase, which catalyzes the last step in LTB4 synthesis, were generated. Lta4h deficiency did not affect general platelet functionality in hemostasis and thrombosis. Interestingly, Lta4h-/- mice were not protected from cellular damage following hepatic ischemia, despite lower neutrophil numbers in the post-ischemic liver. Intravital microscopy of the pancreas was established and revealed increased CD4+ T cell numbers in GPVI-deficient animals compared to WT controls in line with the pre-diabetic phenotype of Gp6-/- mice that was revealed in Grzegorz Sumara's group. Furthermore, platelet 'behavior' in pancreatic islets was observed following glucose injection. We found a high number of platelets adherent to islet sinusoids under basal conditions and no rolling/decelerating of platelets following glucose injection. This was accompanied by temporary sinusoidal constriction and stop of the blood flow. This phenomenon was not observed in control settings (injection of PBS, insulin or L-glucose). In a side project, which was carried out jointly with Tobias Heib, a side by side comparison of the classical syringe-based flushing and the centrifugation-based spinning method to isolate murine bone marrow was conducted. Flow cytometry revealed no differences in the distribution of hematopoietic stem cells and immune cells and functional analysis with primary and cultured megakaryocytes (MKs) showed comparable results in all conducted assays. Thus, our data demonstrated that the faster and more efficient spinning method can be used for the isolation of bone marrow cells.}, language = {en} } @phdthesis{İşbilir2022, author = {İ{\c{s}}bilir, Ali}, title = {Localization and Trafficking of CXCR4 and CXCR7}, doi = {10.25972/OPUS-24937}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-249378}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {G protein-coupled receptors (GPCRs) constitute the largest class of membrane proteins, and are the master components that translate extracellular stimulus into intracellular signaling, which in turn modulates key physiological and pathophysiological processes. Research within the last three decades suggests that many GPCRs can form complexes with each other via mechanisms that are yet unexplored. Despite a number of functional evidence in favor of GPCR dimers and oligomers, the existence of such complexes remains controversial, as different methods suggest diverse quaternary organizations for individual receptors. Among various methods, high resolution fluorescence microscopy and imagebased fluorescence spectroscopy are state-of-the-art tools to quantify membrane protein oligomerization with high precision. This thesis work describes the use of single molecule fluorescence microscopy and implementation of two confocal microscopy based fluorescence fluctuation spectroscopy based methods for characterizing the quaternary organization of two class A GPCRs that are important clinical targets: the C-X-C type chemokine receptor 4 (CXCR4) and 7 (CXCR7), or recently named as the atypical chemokine receptor 3 (ACKR3). The first part of the results describe that CXCR4 protomers are mainly organized as monomeric entities that can form transient dimers at very low expression levels allowing single molecule resolution. The second part describes the establishment and use of spatial and temporal brightness methods that are based on fluorescence fluctuation spectroscopy. Results from this part suggests that ACKR3 forms clusters and surface localized monomers, while CXCR4 forms increasing amount of dimers as a function of receptor density in cells. Moreover, CXCR4 dimerization can be modulated by its ligands as well as receptor conformations in distinct manners. Further results suggest that antagonists of CXCR4 display distinct binding modes, and the binding mode influences the oligomerization and the basal activity of the receptor: While the ligands that bind to a "minor" subpocket suppress both dimerization and constitutive activity, ligands that bind to a distinct, "major" subpocket only act as neutral antagonists on the receptor, and do not modulate neither the quaternary organization nor the basal signaling of CXCR4. Together, these results link CXCR4 dimerization to its density and to its activity, which may represent a new strategy to target CXCR4.}, subject = {G-Protein gekoppelter Rezeptor}, language = {en} } @phdthesis{Ryma2022, author = {Ryma, Matthias}, title = {Exploiting the Thermoresponsive Properties of Poly(2-oxazoline)s for Biofabrication}, doi = {10.25972/OPUS-24746}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-247462}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {In this thesis, non-modified POx, namely PnPrOx and PcycloPrOx, with an LCST in the physiological range between 20 and 37°C have been utilized as materials for three different biofabrication approaches. Their thermoresponsive behavior and processability were exploited to establish an easy-to-apply coating for cell sheet engineering, a novel method to create biomimetic scaffolds based on aligned fibrils via Melt Electrowriting (MEW) and the application of melt electrowritten sacrificial scaffolds for microchannel creation for hydrogels. Chapter 3 describes the establishment of a thermoresponsive coating for tissue culture plates. Here, PnPrOx was simply dissolved in water and dried in well plates and petri dishes in an oven. PnPrOx adsorbed to the surface, and the addition of warm media generated a cell culture compatible coating. It was shown that different cell types were able to attach and proliferate. After confluency, temperature reduction led to the detachment of cell sheets. Compared to standard procedures for surface coating, the thermoresponsive polymer is not bound covalently to the surface and therefore does not require specialized equipment and chemical knowledge. However, it should be noted that the detachment of the cell layer requires the dissolution of the PnPrOx-coating, leading to possible polymer contamination. Although it is only a small amount of polymer dissolved in the media, the detached cell sheets need to be washed by media exchange for further processing if required. ...}, subject = {Thermoresponsive Polymere}, language = {en} } @article{RossowVeitlVorlovaetal.2018, author = {Rossow, Leonie and Veitl, Simona and Vorlov{\´a}, Sandra and Wax, Jacqueline K. and Kuhn, Anja E. and Maltzahn, Verena and Upcin, Berin and Karl, Franziska and Hoffmann, Helene and G{\"a}tzner, Sabine and Kallius, Matthias and Nandigama, Rajender and Scheld, Daniela and Irmak, Ster and Herterich, Sabine and Zernecke, Alma and Erg{\"u}n, S{\"u}leyman and Henke, Erik}, title = {LOX-catalyzed collagen stabilization is a proximal cause for intrinsic resistance to chemotherapy}, series = {Oncogene}, volume = {37}, journal = {Oncogene}, doi = {10.1038/s41388-018-0320-2}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-227008}, pages = {4921-4940}, year = {2018}, abstract = {The potential of altering the tumor ECM to improve drug response remains fairly unexplored. To identify targets for modification of the ECM aiming to improve drug response and overcome resistance, we analyzed expression data sets from pre-treatment patient cohorts. Cross-evaluation identified a subset of chemoresistant tumors characterized by increased expression of collagens and collagen-stabilizing enzymes. We demonstrate that strong collagen expression and stabilization sets off a vicious circle of self-propagating hypoxia, malignant signaling, and aberrant angiogenesis that can be broken by an appropriate auxiliary intervention: Interfering with collagen stabilization by inhibition of lysyl oxidases significantly enhanced response to chemotherapy in various tumor models, even in metastatic disease. Inhibition of collagen stabilization by itself can reduce or enhance tumor growth depending on the tumor type. The mechanistical basis for this behavior is the dependence of the individual tumor on nutritional supply on one hand and on high tissue stiffness for FAK signaling on the other.}, language = {en} } @phdthesis{Lewerentz2022, author = {Lewerentz, Anne F.}, title = {Spatiotemporal dynamics of freshwater macrophytes in Bavarian lakes under environmental change}, doi = {10.25972/OPUS-28770}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287700}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Macrophytes are key components of freshwater ecosystems because they provide habitat, food, and improve the water quality. Macrophyte are vulnerable to environmental change as their physiological processes depend on changing environmental factors, which themselves vary within a geographical region and along lake depth. Their spatial distribution is not well understood and their importance is publicly little-known. In this thesis, I have investigated the spatiotemporal dynamics of freshwater macrophytes in Bavarian lakes to understand their diversity pattern along different scales and to predict and communicate potential consequences of global change on their richness. In the introduction (Chapter 1), I provide an overview of the current scientific knowledge of the species richness patterns of macrophytes in freshwater lakes, the influences of climate and land-use change on macrophyte growth, and different modelling approaches of macrophytes. The main part of the thesis starts with a study about submerged and emergent macrophyte species richness in natural and artificial lakes of Bavaria (Chapter 2). By analysing publicly available monitoring data, I have found a higher species richness of submerged macrophytes in natural lakes than in artificial lakes. Furthermore, I showed that the richness of submerged species is better explained by physio-chemical lake parameters than the richness of emergent species. In Chapter 3, I considered that submerged macrophytes grow along a depth gradient that provides a sharp environmental gradient on a short spatial scale. This study is the first comparative assessment of the depth diversity gradient (DDG) of macrophytes. I have found a hump-shaped pattern of different diversity components. Generalised additive mixed-effect models indicate that the shape of the DDG is influenced mainly by light quality, light quantity, layering depth, and lake area. I could not identify a general trend of the DDG within recent years, but single lakes show trends leading into different directions. In Chapter 4, I used a mechanistic eco-physiological model to explore changes in the distribution of macrophyte species richness under different scenarios of environmental conditions across lakes and with depths. I could replicate the hump-shaped pattern of potential species richness along depth. Rising temperature leads to increased species richness in all lake types, and depths. The effect of turbidity and nutrient change depends on depth and lake type. Traits that characterise "loser species" under increased turbidity and nutrients are a high light consumption and a high sensibility to disturbances. "Winner species" can be identified by a high biomass production. In Chapter 5, I discuss the image problem of macrophytes. Unawareness, ignorance, and the poor accessibility of macrophytes can lead to conflicts of use. I assumed that an increased engagement and education could counteract this. Because computer games can transfer knowledge interactively while creating an immersive experience, I present in the chapter an interactive single-player game for children. Finally, I discuss the findings of this thesis in the light of their implications for ecological theory, their implications for conservation, and future research ideas (Chapter 6). The findings help to understand the regional distribution and the drivers of macrophyte species richness. By applying eco-physiological models, multiple environmental shaping factors for species richness were tested and scenarios of climate and land-use change were explored.}, subject = {{\"O}kologie}, language = {en} } @phdthesis{Djaković2022, author = {Djaković, Lara}, title = {The HSV-1 ICP22 protein selectively impairs histone repositioning upon Pol II transcription downstream of genes}, doi = {10.25972/OPUS-24670}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-246709}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Herpes Simplex Virus type 1 (HSV-1) is an ubiquitous neurotropic human pathogen that infects a large majority of the world's population. It is the causative agent of the common cold sore but also responsible for life-threatening infections (e.g., encephalitis), particularly in immunocompromised individuals and neonates. Like other herpesviruses, HSV-1 takes over the cellular RNA machinery to facilitate productive infection while efficiently shutting down host gene expression by targeting multiple steps of RNA metabolism. The two viral proteins, vhs and ICP27, play a crucial role in this process. Delivered by the tegument of the incoming virus, the virion host shut-off (vhs) endonuclease rapidly starts cleaving both cellular and viral mRNAs. With the onset of viral gene expression, the HSV-1 immediate-early protein ICP27 promotes the expression of viral early and late genes through various mechanisms, including mRNA processing, export, and translation. Prior research by the D{\"o}lken lab demonstrated that lytic HSV-1 infection results in the disruption of transcription termination (DoTT) of most cellular genes by the viral ICP27 protein. This significantly contributes to HSV-1 induced host shut-off. DoTT results in transcription for tens of thousands of nucleotides beyond poly(A) sites and into downstream genes. Interestingly, this was found to be accompanied by a dramatic increase in chromatin accessibility downstream of the affected poly(A) sites. This is consistent with the formation of extensive downstream open chromatin regions (dOCR) and indicative of impaired histone repositioning in the wake of RNA polymerase II (Pol II) downstream of the affected poly(A) sites. In my PhD thesis, I demonstrate that dOCR formation is dependent on the viral ICP22 protein when poly(A) read-through transcription is triggered by the ectopic expression of ICP27 or salt stress. I show that dOCR formation occurs when a high level of transcriptional activity arises downstream of genes due to the HSV-1-induced DoTT. To investigate whether histone composition is affected downstream of genes, I established the ChIPmentation approach to study associated changes and the influence of DoTT and dOCR formation on major histone modification marks. In HSV-1 WT infection, dOCR formation was reflected in alterations of canonical H1 histone downstream of affected genes, which was absent in ICP22 infection. To elucidate the underlying molecular mechanism, two major histone chaperones SPT6 and FACT (SPT16 and SSRP1), which govern histone repositioning and may thus play a role in H1 homeostasis, were extensively studied. Both histone chaperones have been recently shown to be recruited to the viral genome by interactions with ICP22 protein. To investigate whether the depletion of SSRP1 or SPT6 would complement the loss of ICP22 to induce dOCR, T-HF cells with doxycycline-inducible knock-down of either of the two factors were generated. ATAC-seq analysis revealed that the interaction between the two histone chaperones and ICP22 is not involved in HSV-1-induced dOCR formation, suggesting the involvement of other proteins. In summary, this work sheds new light on a fundamental molecular mechanism of the cellular transcriptional machinery that is manipulated by the concerted actions of the two HSV-1 immediate-early proteins ICP22 and ICP27.}, subject = {HSV-1}, language = {en} } @phdthesis{Bergmann2022, author = {Bergmann, Tim Jonas}, title = {Pathways in uremic cardiomyopathy - the intracellular orchestrator PGC-1α in cell culture and in a mouse model of uremia}, doi = {10.25972/OPUS-28706}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287061}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {For the past 20 years, chronic kidney disease (CKD) has remained one of the major causes of death worldwide. Cardiovascular events account for approximately 50\% of deaths in CKD patients, underscoring the clinical relevance of the observed cardiac changes. These changes define uremic cardiomyopathy (UCM) and include left-ventricular hypertrophy (LVH), LV dilatation, and LV systolic and diastolic dysfunction. LVH is seen as the primary manifestation of UCM and is caused by a multitude of different systems including in-creased pre- and afterload and the renin-angiotensin system (RAS). More recent studies found that myocardial dysfunction is apparent before changes in the ventricular geome-try, like hypertrophy, occur to the uremic heart. This leads to the conclusion that LVH is not the cause of cardiac dysfunction, but one of the alterations caused by factors related to the uremic state itself. Among these factors that are independent of pressure and vol-ume overload, are cardiotonic steroids as well as the parathyroid hormone and the endo-thelin (ET-1) system. But we suggest a different substance to play an important role in UCM: Urea. Patients in end-stage renal disease (ESRD) display increased oxidative stress and urea has been found to increase levels of oxidative stress, at least in endothelial cells. Therefore, we investigated the effect that elevated urea levels, as seen in patients undergoing dialysis, have on cardiomyocytes. As the oxidative stress in a cell is regulated by mitochondrial processes, we suspected the mitochondrial orchestrator PGC-1α to play an important role. The uremic heart is in a state of elevated oxidative stress. This has been presented by multiple authors before. By conducting immunofluorescent staining for reactive oxygen species (ROS), we tried to replicate their findings and illustrate elevated levels of ROS. As the fluorescence analysis did not bear significant results, we approached oxidative stress from a different angle: Via mass spectrometry, we looked at the amino acids methionine, cysteine and betaine which are highly involved in sustaining the oxidative balance in the cell. Our findings in the media of urea-treated HL-1 cells lead us to the conclusion, that these cardiomyocytes were in a state of low antioxidative resources. Next, to find the intracellular mechanisms that connect uremia to oxidative stress and compromised energetics, we investigated possible downstream effectors of uremia. The urea-treated cardiomyocytes exhibited significant alterations regarding upstream effec-tors of PGC-1α: The protein kinases Akt and Erk were expressed and phosphorylated dif-ferently in a western blot analysis of uremic h9c2 cells and in mice with induced kidney failure. To combine these findings regarding the protein kinases Akt and Erk and oxidative stress, the Erk/p38 pathways seems conclusive (figure 20). This pathway links uremia and oxidative stress to intracellular effectors that have been found to influence the develop-ment of uremic cardiomyopathy. Another life-threatening alteration in uremic cardiomyopathy is a corrupted cardiac func-tion. The myocardium of uremic patients has shown to be more susceptible to ischemic damage and most patients receiving dialysis experience repeated episodes of intradialytic impairments in cardiac function. The urea-treated cardiomyocytes had a significantly higher oxygen consumption rate due to an inefficiently increased metabolism, most likely caused by an increased level of uncoupling. Taken together, the results of this study indicate that urea by itself plays a role in the de-velopment of uremic cardiomyopathy. So-called high-physiologic levels of urea have led to a mitochondrial inefficiency and an increase of oxidative stress in cardiomyocytes. The protein kinases Akt and Erk may work as effectors of urea to induce these changes via the Erk/p38 pathway. It seems very likely that the mitochondrial changes are mediated by the mitochondrial orchestrator PGC-1α. These observations might lead to further studies in-vestigating urea levels in dialysis patients. In the future, these might lead to a change of practice regarding tolerated urea levels in dialysis and help reduce the cardiac mortality of patients with chronic kidney disease.}, subject = {Ur{\"a}mie}, language = {en} } @phdthesis{Mainz2022, author = {Mainz, Laura}, title = {Cellular metabolism as target for cancer therapy}, doi = {10.25972/OPUS-21148}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-211480}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Due to a usually late diagnosis, drug resistance and early metastases, pancreatic ductal adenocarcinoma (PDAC) is the seventh leading cause of global cancer deaths. Thus, there is an urgent need to develop new therapeutic concepts. Two different approaches have in recent years become the focus of intense research: (1) targeting cancer-associated metabolic rearrangements, and (2) targeting genetic vulnerabilities with combination therapy. Both concepts potentially have advantages such as increased efficacy, which decreases the likelihood of therapy-resistance, and reduced side effects, that are often associated with high concentrations of chemotherapeutic drugs. Autophagy is an evolutionary conserved signalling pathway that regulates cellular homeostasis. Regarding cancer, autophagy can either promote or suppress tumor growth. However, mouse models that allow genetic regulation of autophagy in established tumor tissue are not yet established. Therefore, we analysed new inducible shRNA mouse models targeting Atg5 or Atg7 with regard to functionality and toxicity. Both, shRNA Atg5- and shRNA Atg7-mediated knockdown anteceded functional autophagy impairment, and revealed unexpected profound phenotypic differences. Knockdown of Atg5 neither impaired the animal nor caused any grossly or microscopically detectable organ damage, whereas knockdown of Atg7 caused pancreatic destruction and eventually death. It is currently unclear whether mice died as a result of exocrine or endocrine collapse or due to a combination of both. The presented mouse models are highly potent RNAi mice that allow widespread and regulable inhibition of autophagy upon administration of doxycycline and provide a valuable and versatile toolbox for future autophagy and cancer research. In PDAC, argininosuccinate synthase 1 (ASS1) deficiency has been associated with higher recurrence rates, shorter disease-free survival, and shorter overall survival. During cancer development, rate-limiting enzymes of de novo arginine synthesis, like ASS1 or OTC, are downregulated via epigenetic silencing of their respective promotor. Known as 'arginine auxotrophy', loss of these essential enzymes results in dependence on extracellular arginine. Based on this assumption, sensitivity of various cell lines to arginine deprivation was reported. However, the underlying mechanism is still unclear and the anti-tumor effects of the monotherapy are not sufficient to completely abrogate cancer cells. Therefore, the effects of arginine deprivation via rhArgI-PEG5000 were investigated in murine and human PDAC cells. In this study, we highlighted that arginine deprivation induced profound alterations such as autophagosome accumulation, induction of senescence and the ISR in pancreatic cancer cells. These alterations are potential genetic vulnerabilities that can be targeted by additional means to induce tumor cell death.}, language = {en} } @phdthesis{Liaqat2022, author = {Liaqat, Anam}, title = {Artificial Evolution of Nucleic Acid Catalysts and their Use for Studying RNA}, doi = {10.25972/OPUS-28311}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-283111}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {RNA molecules play diverse roles in biological systems. Post-transcriptional RNA modifications and dynamic structures enhance the functional diversity of RNA. A prerequisite for studying their biological significance is the availability of reliable methods for the detection of RNA modifications and structures. Several promising approaches have been developed in the last few decades; however, efficient, and versatile tools are still required to study the dynamic features of RNA. This thesis focuses on the development of nucleic acid catalysts as a tool to address the current needs in studying RNA. The major part of this thesis aimed at the development of deoxyribozymes as a tool for the detection of RNA modifications. Using in vitro selection from a random DNA library, we found deoxyribozymes that are sensitive to N 6 -isopentenyladenosine (i6A), a native tRNA modification and structural analogue of m6A. The in vitro evolution identified three classes of DNA enzymes: AA, AB08, and AC17 DNAzymes that showed distinct response to i6A modification and showed strong discrimination between structural analogues, i.e., m6A and i6A. In the continuation of the project, we attempted to develop RNA-cleaving deoxyribozymes that differentially respond to monomethylated cytidine isomers, 3-methylcytidine (m3C), N4 - methylcytidine (m4C), and 5-methylcytidine (m5C). Several deoxyribozymes were identified from in vitro selection, which are selective for a specific methylated cytidine isomer. The characterization of AL112, AM101, AN05, and AK104 catalysts confirmed the successful evolution of modification-specific and general deoxyribozymes that showed a broad substrate scope. In order to accelerate the DNAzymes discovery, a high throughput sequencing method (DZ-seq) was established that directly quantifies the RNA cleavage activity and cleavage site from deep sequencing data. The libraries contained information about cleavage status, cleavage site and sequence of deoxyribozymes and RNA substrate. The fraction cleaved (FC) data obtained from Dz-seq was validated for a subset of deoxyribozmes using conventional gel based kinetic assay and showed a good linear correlation (R2 = 0.91). Dz-seq possesses a great potential for the discovery of novel deoxyribozymes for the analysis of various RNA modifications in the future. The second objective of the current study was the development of structure-specific RNA labeling ribozymes. Here, we attempted to develop ribozymes that targets RNA of interest by structure-specific interaction rather than base-pairing and focused on a specific RNA G-quadruplex as the target. Two subsequent selection experiments led to the identification of the adenylyltransferase ribozymes AO10.2 and AR9. The partial characterization of these catalysts showed that A010.2 was unable to recognize intact BCL2 structure, but it turned out as the first reported trans-active ribozyme that efficiently labeled uridine in a defined substrate RNA hybridized to the ribozyme. The other ribozyme AR9 was shown to serve as a trans-active, self-labeling ribozyme that catalyzed adenylyl transferase reaction in the presence of the intact BCL2 sequence. Based on these preliminary findings, we envision that AR9 could potentially serve as a reporter RNA by self-labeling in the presence of an RNA G-quadruplex. However, both AO10.2 and AR9 still require more detailed characterization for their potential applications.}, language = {en} } @phdthesis{Sahiti2022, author = {Sahiti, Floran}, title = {Myocardial Work - Application and Clinical Characterization of a New Echocardiographic Tool}, doi = {10.25972/OPUS-28226}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-282261}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {1 Summary Left ventricular (LV) ejection fraction (EF) and global longitudinal strain (GLS) are the most commonly used measures of LV function. Yet, they are highly dependent on loading conditions since higher afterload yields lower systolic deformation and thereby a lower LVEF and GLS - despite presumably unchanged LV myocardial contractile strength. Invasive pressure-volume loop measurements represent the reference standard to assess LV function, also considering loading conditions. However, this procedure cannot be used in serial investigations or large sample populations due to its invasive nature. The novel concept of echocardiography-derived assessment of myocardial work (MyW) is based on LV pressure-strain loops, may be a valuable alternative to overcome these challenges, and may also be used with relative ease in large populations. As MyW also accounts for afterload, it is considered less load-dependent than LVEF and GLS. The current PhD work addresses the application and clinical characterization of MyW, an innovative echocardiographic tool. As the method is new, we focused on four main topics: (a) To establish reference values for MyW indices, i.e., Global Work Index (GWI), Global Constructive Work (GCW), Global Wasted Work (GWW), and Global Work Efficiency (GWE); we addressed a wide age range and evaluated the association of MyW indices with age, sex and other clinical and echocardiography parameters in apparently cardiovascular healthy individuals. (b) To investigate the impact of cardiovascular (CV) risk factors on MyW indices and characterize the severity of subclinical LV deterioration in the general population. (c) To assess the association of the LV geometry, i.e., LV mass and dimensions, with MyW indices. (d) To evaluate in-hospital dynamics of MyW indices in patients hospitalized for acute heart failure (AHF). For the PhD thesis, we could make use of two larger cohorts: The STAAB population-based cohort study prospectively recruited and phenotyped a representative sample (5,000 individuals) of the general population of the City of W{\"u}rzburg, aged 30-79 years and free from symptomatic heart failure at the time of inclusion. We focused on the first half of the study sample (n=2473 individuals), which fulfilled the anticipated strata regarding age and sex. The Acute Heart Failure (AHF) Registry is a prospective clinical registry recruiting and phenotyping consecutive patients admitted for decompensated AHF to the Department of Medicine I, University Hospital W{\"u}rzburg, and observing the natural course of the disease. The AHF Registry focuses on the pathophysiological understanding, particularly in relation to the early phase after cardiac decompensation, with the aim to improve diagnosis and better-tailored treatment of patients with AHF. For the current study, we concentrated on patients who provided pairs of echocardiograms acquired early after index hospital admission and prior to discharge. The main findings of the PhD thesis were: From the STAAB cohort study, we determined the feasibility of large-scale MyW derivation and the accuracy of the method. We established reference values for MyW indices based on 779 analyzable, apparently healthy participants (mean age 49 ± 10 years, 59\% women), who were in sinus rhythm, free from CV risk factors or CV disease, and had no significant LV valve disease. Apart from GWI, there were no associations of other MyW indices with sex. Further, we found a disparate association with age, where MyW showed stable values until the age of 45 years, with an upward shift occurring beyond the age of 45. A higher age decade was associated with higher GWW and lower GWE, respectively. MyW indices only correlated weakly with common echocardiographic parameters, suggesting that MyW may add incremental information to clinically established parameters. Further analyses from the STAAB cohort study contributed to a better understanding of the impact of CV risk factors on MyW indices and the association of LV geometry with LV performance. We demonstrated that CV risk factors impacted selectively on GCW and GWW. Hypertension appears to profoundly compromise the work of the myocardium, in particular, by increasing both GCW and GWW. The LV in hypertension seems to operate at a higher energy level yet lower efficiency. Other classical CV risk factors (Diabetes mellitus, Obesity, Dyslipidemia, Smoking) - independent of blood pressure - impacted consistently and adversely on GCW but did not affect GWW. Further, all CV risk factors affected GWE adversely. We observed that any deviation from a normal LV geometric profile was associated with alterations on MyW. Of note, MyW was sensitive to early changes in LV mass and dimensions. Individuals with normal LV geometry yet established arterial hypertension exhibited a MyW pattern that is typically found in LV hypertrophy. Therefore, such a pattern might serve as an early sign of myocardial damage in hypertensive heart disease and might aid in risk stratification and primary prevention. From the AHF Registry, we selected individuals with serial in-hospital echocardiograms and described in-hospital changes in myocardial performance during recompensation. In patients presenting with a reduced ejection fraction (HFrEF), decreasing N-terminal pro-natriuretic peptide (NT-proBNP) levels as a surrogate of successful recompensation were associated with an improvement in GCW and GWI and consecutively in GWE. In contrast, in patients presenting with a preserved ejection fraction (HFpEF), there was no significant change in GCW and GWI. However, unsuccessful recompensation, i.e., no change or an increase in NT-proBNP levels, was associated with an increase in GWW. This suggests a differential myocardial response to de- and recompensation depending on the HF phenotype. Further, GWW as a surrogate of inappropriate LV energy consumption was elevated in all patients with AHF (compared to reference values) and was not associated with conventional markers as LVEF or NT-proBNP. In an exploratory analysis, GWW predicted the risk of death or rehospitalization within six months after discharge. Hence, GWW might carry incremental information beyond conventional markers of HF severity.}, language = {en} } @phdthesis{Madeira2022, author = {Madeira, Octavia}, title = {The Human-Experimental Virtual Elevated Plus-Maze as an Anxiety Model}, doi = {10.25972/OPUS-28147}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-281478}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Anxiety research is one of the major psychological research domains and looks back on decades of research activity. Traditionally, novel theories and approaches are tested utilizing animal models. One way to study inherent anxiety in rodents is the elevated plus-maze (EPM). The EPM is a plus-shaped platform with two closed, i.e., walled, arms and two open unwalled arms. If given the opportunity to freely explore the apparatus, rodents instinctively avoid the open arms to protect themselves from predators. Hence, they spent less time on open and more time on closed arms, which is behaviorally associated with general anxiety. In the course of the pharmacological validation, it was found that this exploratory pattern can be reversed by anxiolytic substances, e.g., benzodiazepines, or potentiated by anxiogenics. One of the significant advantages of the EPM is that no prior training session is required in contrast to conditioning studies, thus allowing to observe natural behavior. Therefore, together with the economic and uncomplicated setup, the EPM has become a standard preclinical rodent anxiety test over the decades. In order to validate these rodent anxiety tests, there have recently been attempts to retranslate them to humans. A paramount of cross-species validation is not only the simple transferability of these animal tests but also the observation of anxiety behaviors that are evolutionarily conserved across species. Accordingly, it could be possible to conclude various factors associated with the etiology and maintenance of anxiety disorders in humans. So far, convincing translations of the EPM to humans are still lacking. For that reason, the primary aim of this dissertation is to retranslate the EPM throughout three studies and to evaluate cross-species validity critically. Secondly, the undertaken studies are set out to observe ambulatory activity equivalent to rodent EPM behavior, i.e., open arm avoidance. Thirdly, the undertaken studies aimed to assess the extent to which trait anxiety influences human exploratory activity on the platform to associate it with the assumption that rodent EPM-behavior is a reflection of general anxiety. Finally, virtual reality (VR) was the method of choice to maintain the economic advantage and adjust the EPM size to humans. Study 1 (N = 30) was set up to directly transfer the rodent EPM regarding test design and experimental procedure using a Computer Automatic Virtual Environment (CAVE). The results revealed that humans unlike rodents display a general open arms approach during free exploration. However, open arm avoidance was associated with high trait anxiety and acrophobia (fear of height), which was initially assessed as a control variable due to the virtual platform height. Regression analyses and subjective anxiety ratings hinted at a more significant influence of acrophobia on open arm avoidance. In addition, it was assumed that the open arms approach might have resulted from claustrophobic tendencies experienced in the closed arms due to the high walls. Study 2 (N = 61) sought to differentiate the influence of trait anxiety and acrophobia and adapt the virtual EPM to humans. Therefore, parts of the platform held a semi-transparent grid-floor texture, and the wall height on the closed arms was reduced to standard handrail level. Moreover, participants were priorly screened to exclude clinically significant levels of acrophobia, claustrophobia, and agoraphobia. The data on general exploratory activity showed no arm preference. Regression analyses confirmed that acrophobia is related to open arm avoidance, corroborating the finding of Study 1. Surprisingly, for trait anxiety, the result of Study 1 could not be replicated. Instead, for trait anxiety, no significant effect was found indicating that predominantly fear of heights shapes human EPM behavior even on a subclinical stage. In Study 3 (N = 57), the EPM was embedded into a city setting to 1) create a more natural human environment and 2) eliminate height. Furthermore, a head-mounted display was utilized for VR presentation, and arousal ratings were introduced. Participants were screened for high and low levels of trait anxiety and agoraphobia, and claustrophobia. Replicating the findings of Study 2, no difference in open and closed arm activity was observed, and no effect was found in relationship with trait anxiety. The data on anxiety ratings and claustrophobia suggest a positive correlation indicating that in this city EPM, claustrophobic tendencies might play a role in closed arm avoidance. In summary, this thesis added valuable insights into the retranslation of a well-established standard anxiety test used in rodents. However, it also majorly challenges current findings on the cross-species validity of the EPM. Various explanatory models for the results are critically discussed and associated with clinical implications concerning future research.}, subject = {Virtuelle Realit{\"a}t}, language = {en} } @phdthesis{JimenezMartin2022, author = {Jim{\´e}nez Mart{\´i}n, Ovidio Manuel}, title = {Analysis of MYCN and MAX alterations in Wilms Tumor}, doi = {10.25972/OPUS-24291}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-242919}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Wilms tumor (WT) is the most common renal tumor in childhood. Among others, MYCN copy number gain and MYCN P44L and MAX R60Q mutations have been identified in WT. The proto-oncogene MYCN encodes a transcription factor that requires dimerization with MAX to activate transcription of numerous target genes. MYCN gain has been associated with adverse prognosis. The MYCN P44L and MAX R60Q mutations, located in either the transactivating or basic helix-loop-helix domain, respectively, are predicted to be damaging by different pathogenicity prediction tools. These mutations have been reported in several other cancers and remain to be functionally characterized. In order to further describe these events in WT, we screened both mutations in a large cohort of unselected WT patients, to check for an association of the mutation status with certain histological or clinical features. MYCN P44L and MAX R60Q revealed frequencies of 3 \% and 0.9 \% and also were significantly associated to higher risk of relapse and metastasis, respectively. Furthermore, to get a better understanding of the MAX mutational landscape in WT, over 100 WT cases were analyzed by Sanger sequencing to identify other eventual MAX alterations in its coding sequence. R60Q remained the only MAX CDS alteration described in WT to date. To analyze the potential functional consequences of these mutations, we used a doxycycline-inducible system to overexpress each mutant in HEK293 cells. This biochemical characterization identified a reduced transcriptional activation potential for MAX R60Q, while the MYCN P44L mutation did not change activation potential or protein stability. The protein interactome of N-MYC-P44L was likewise not altered as shown by mass spectrometric analyses of purified N-MYC complexes. However, we could identify a number of novel N-MYC partner proteins, several of these known for their oncogenic potential. Their correlated expression in WT samples suggested a role in WT oncogenesis and they expand the range of potential biomarkers for WT stratification and targeting, especially for high-risk WT.}, subject = {Nephroblastom}, language = {en} } @phdthesis{MikaGospodorz2022, author = {Mika-Gospodorz, Bozena}, title = {Development and application of bioinformatics tools for analysis of dual RNA-seq experiments}, doi = {10.25972/OPUS-28126}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-281264}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Dual RNA-seq captures both host and pathogen transcriptomes at the site of infection, facilitating an exploration of processes that play an essential role in pathogenesis and the host defense. This work presents an application of this technique to explore processes occurring during the infection of the human endothelial cells with two clinical isolates of Orientia tsutsugamushi (Ot) — the causative agent of scrub typhus. Combining comparative genomics, transcriptomics, and proteomics, we investigated the transcriptional architecture of Ot and identified non-coding RNAs, operon structures, and widespread antisense transcription, that may have a role in regulation of repetitive genes that are abundant in the Ot genome. In addition, the comparative analysis of bacterial and eukaryotic transcriptomes allowed us to investigate factors that drive the difference in virulence between Karp and UT176 and the host response to these two Ot strains. The host and pathogen transcriptional profiles in each dual RNA-seq study are obtained in‑silico by adopting tools developed for RNA-seq data analysis. The Dualrnaseq pipeline presented in the second part of this work is the first publicly available, highly reproducible, scalable, and user‑friendly workflow developed for processing dual RNA‑seq data of any eukaryotic and bacterial organisms with a reference genome and annotation. It provides three mapping and quantification strategies: (i) alignment-based mapping of reads onto the chimeric genome with STAR followed by counting of uniquely mapped reads with HTSeq; (ii) a fast transcriptome quantification method handling multi‑mapped reads (Salmon with Selective Alignment); (iii) and Salmon alignment-based mode which uses a STAR‑derived alignment combined with Salmon quantification. Performing an initial benchmark analysis of the employed methods we provided recommendations ensuring accurate estimation of host and pathogen transcript expression.}, subject = {Transkriptomanalyse}, language = {en} } @phdthesis{CalderonGiraldo2022, author = {Calder{\´o}n Giraldo, Jeniffer}, title = {Analysis of estrogen profiles including methoxyestrogen glucuronides: method validation and applicability to human plasma and breast tissue}, doi = {10.25972/OPUS-20939}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-209396}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Estrogens, namely 17β-estradiol (E2) and estrone (E1) are considered to play an important role in the initiation and promotion of breast cancer (summarized in Raftogianis et al., 2000), a malignancy responsible for around 500,000 deaths per year (summarized in Ghislain et al., 2016). Two major mechanisms have been postulated to explain the carcinogenic effects of estrogens: (1) the estrogen receptor-mediated stimulation of breast cell proliferation with a concomitant enhanced rate of mutations and (2) the metabolism of hydroxylated estrogens to quinone derivatives which can react with the DNA (Russo and Russo, 2006, summarized in Yager and Davidson, 2006). Nevertheless, as a detoxifying mechanism, E1, E2, and their hydroxylated and methoxylated metabolites are reversibly conjugated into sulfates and glucuronides devoid of biological activity (summarized in Guillemette et al., 2004). Yet, despite the key detoxifying function of these conjugates, the study of their circulating levels face some significant problems: (1) analysis by techniques such as radioimmunoassay lack specificity and accuracy and requires enzymatic/chemical hydrolysis before analysis, being unable to differentiate between sulfates and glucuronides (summarized in Stanczyk et al., 2007, summarized in Wang et al., 2016), (2) very little knowledge in healthy women, which has been identified as a barrier to advance in breast cancer research (summarized in Liu, 2000), and (3) far fewer studies in pre- than in postmenopausal women (summarized in Samavat and Kurzer, 2015). Therefore, to get more insights into the research of breast cancer etiology and prevention, the analysis of circulating levels of estrogens (including metabolites and conjugates) in women without breast cancer through reliable analytical techniques, is required.}, language = {en} } @phdthesis{Lehenberger2022, author = {Lehenberger, Maximilian}, title = {Ecology and Evolution of symbiotic microbial communities in fungus farming ambrosia beetles}, publisher = {Fungal Ecology, Frontiers in Microbiology, Deutsche Gesellschaft f{\"u}r allgemeine und angewandte Entomologie}, doi = {10.25972/OPUS-24154}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-241546}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Within my PhD project I gained several novel insights into the poorly investigated symbiotic world of fungus farming ambrosia beetles and their bark beetle ancestors, where I especially focused on physiological interactions and capabilities of associated fungal symbionts. Here, (i) I could confirm the association of mutualistic Phialophoropsis fungi with the ambrosia beetle genus Trypodendron and found hints for a possible new Phialophoropsis species in T. signatum and T. domesticum. Moreover, I could show that mutualistic fungi of Trypodendron ambrosia beetles are able to decompose major woody polysaccharides such as cellulose and xylan. Additionally, (ii) I provided the first images using micro-computed tomography (µCT) of the formerly unknown structure of the mycetangium of Trypodendron leave. (iii) I could confirm a general tolerance towards ethanol in mutualistic ambrosia beetle fungi, while antagonistic fungi as well as most examined fungal bark beetle associates (e.g. possibly tree-defense detoxifying species) were highly sensitive to even low concentrations of ethanol. Further, (iv) I found that natural galleries of ambrosia beetles are highly enriched with several biologically important elements (such as N, P, S, K, Mg) compared to the surrounding woody tissue and suggest that mutualistic fungi are translocating and concentrating elements from the immediate surrounding xylem to the beetles galleries. Furthermore, (v) I could show that various fungi associated with bark and ambrosia beetles (mutualists, possibly beneficial symbionts) are emitting several volatile organic compounds mostly within aliphatic and aromatic alcohols and esters, while non-mutualistic and free living species were generally emitting a lower number and amount of volatiles. Finally, especially bark and ambrosia beetle fungi were found to incorporate several amino acids, from which some are especially important for the production of certain volatile organic compounds. Amino acid content also indicated a higher nutritional value for certain species. Here, I propose that especially volatile organic compounds are widespread key players in maintaining various symbioses between fungi and beetles, as already proven by a recent study on the bark beetle Ips typographus (as well as for some other bark beetle-fungus symbioses, see summary in Kandasamy et al. 2016) and also suggested for ambrosia beetles.}, language = {en} } @phdthesis{Sbiera2022, author = {Sbiera, Iuliu}, title = {Possible role of epithelial to mesenchymal transition and its associated FGF/FGFR pathway in adrenocortical carcinoma}, doi = {10.25972/OPUS-27745}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-277454}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Recent studies have hinted to an involvement of epithelial to mesenchymal transition, a mechanism often associated with metastasis in epithelial cancers, in adrenocortical carcinoma. In addition, the knowledge about the FGF/FGFR pathway in pathogenesis of the adrenal gland, a pathway often associated with the epithelial to mesenchymal transition, is sparse and fragmented. We assessed, in a large number of normal, benign and malignant adrenocortical tissues (a total of 181 different samples), the expression of canonical and novel epithelial and mesenchymal markers and compared it with their expression in typical epithelial and mesenchymal tissues. In addition, we also quantified the expression of most members of the FGF/FGFR pathway in adrenocortical tissues and compared it against well-studied epithelial and mesenchymal tissues as well as between malignant and not malignant adrenocortical tissues, in order to assess the possible connection to epithelial to mesenchymal transition and find possible drug targets. Surprisingly, both normal and neoplastic adrenocortical tissues lacked expression of epithelial markers (e.g. E-Cadhering or EpCAM) but strongly expressed mesenchymal markers (e.g. N-Cadherin or SLUG), suggesting a higher similarity of adrenocortical tissues to mesenchymal compared to epithelial tissues, reminiscent of the adrenocortical origin from the intermediate mesoderm. Despite their ubiquitous expression in all adrenocortical tissues, mesenchymal markers had a variable expression in adrenocortical carcinoma, associating either directly or inversely with different clinical markers of tumor aggressiveness. Lymph node infiltration was associated with high expression of SLUG (p = 0.04), and at the same time low expression of N-cadherin (p = 0.001), and the same pattern was observed for venous infiltration of tumoral tissue, Weiss score of tumor malignancy or Ki67 proliferation marker. In malignant compared to benign adrenal tumors, we found significant differences in the expression of 16 out of the 94 studied FGF receptor pathway related genes. Genes involved in tissue differentiation and metastatic spread through epithelial to mesenchymal transition were most strongly altered. The therapeutically targetable FGF receptors 1 and 4 were upregulated 4.6- and 6-fold, respectively, in malignant compared to benign adrenocortical tumors, which was confirmed by using two different quantification methods in both frozen and paraffin embedded tissue material. High expression of FGFR1 and 4 was significantly associated with worse patient prognosis (High FGFR1 expression was associated with a shorter overall patient survival of 84 vs 148 months (HR=1.8, 95\% CI: 1.01-3.25) as well as a shorter resection free survival of 25 vs 75 months ((HR=2.93, 95\% CI: 1.25-6.84), while high FGFR4 was associated with a much shorter overall survival of 50 vs 155 months (HR=2.44, 95\% CI: 1.41-4.22). In conclusion, epithelial to mesenchymal transition does not seem to play a role in adrenocortical carcinoma tumor progression, and the FGF/FGFR pathway, even if it is probably not related to EMT, is nonetheless associated with tumor aggressiveness. Furthermore, quantification of FGF receptors may enable a stratification of adrenocortical carcinoma for the use of FGFR inhibitors in future clinical trials.}, subject = {Nebennierenrindenkrebs}, language = {en} } @phdthesis{KayisogluKaya2022, author = {Kayisoglu-Kaya, {\"O}zge}, title = {Analysis of gastrointestinal epithelial innate immune barrier using human and murine organoids as a model}, doi = {10.25972/OPUS-27749}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-277497}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {The epithelial layer of the gastrointestinal (GI) tract provides a barrier between the environment and the body. Dysfunction of the epithelium, including changes of the innate immune response facilitated by pattern recognition receptors (PRRs), plays a major role in the development of GI disorders. However, the organization of innate immune sensing, the expression and activity of PRRs and the factors contri¬buting to such possible organization along the GI tract are unclear. In recent years, stem cell-derived organoids gained increasing attention as promising tissue models. Here, a biobank of human and murine organoids comprising three lines from each GI segment; corpus, pylorus, duodenum, jejunum, ileum, colon was generated. RNA sequencing of 42 lines confirmed the preservation of tissue identity and revealed an extensive organization of innate immune signaling components along the cephalocaudal axis, giving each segment a specific innate immune profile. Comple-menting the region-specific expression analysis, several PRRs in human and murine organoids showed region- and species-specific function. To investigate the factors contributing to the patterning of innate immunity in the GI tract, the impact of microbial components was analyzed using murine embryo-derived, never colonized gastric and proximal intestinal organoids. Transcriptional profiling of embryo-derived organoids showed that while expression of some PRRs may depend on environmental cues as expected, an unexpectedly large part of segment-specific expression of PRR signaling components is independent of prior contact with microbial products. Further, analysis of published RNA-seq data as well as in vitro experiments using directed differentiation of organoids into specific cell types showed that expression of innate immune gene also depended on cellular differentiation along the crypt-villus axis. This underlined the importance of cellular differentiation rather than contact to microbial compounds for expression of PRRs. Lastly, analysis of published datasets of RNA-seq and ATAC-seq after knockout of the intestinal transcription factor Cdx2 demonstrated that Cdx2 is likely important for the expression of Nlrp6 and Naip1 in the murine intestine. Future experiments have to support these preliminary findings. Taken together, the expression of a large part of epithelial innate immunity is develop¬mentally defined and conserved in tissue-resident stem cells. The identification of mechanisms governing expression of genes related to immunity will provide further insights into the mechanisms that play a role in the progress of inflammatory diseases.}, subject = {Organoid}, language = {en} } @phdthesis{Seifert2022, author = {Seifert, Annika Kristina}, title = {Unidirectional freezing of soft and hard matter for biomedical applications}, doi = {10.25972/OPUS-27728}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-277281}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {A multitude of human tissues, such as bones, tendons, or muscles, are characterized by a hierarchical and highly ordered structure. In many cases, the loss of these tissues requires reconstruction using biocompatible replacement materials. In the field of bone replacement, the pore structure of the material has a crucial influence. Anisotropic porosity would have the advantage of facilitating the ingrowth of cells and newly formed blood vessels as well as the transport of nutrients. In this thesis, scaffolds with a highly ordered and anisotropic pore structure were fabricated using unidirectional freezing. Systematic investigations were carried out on biopolymer solutions (alginate and chitosan) to gain a deeper understanding of the freeze-structuring process. The knowledge gained was then applied to the development of anisotropically structured bone substitute materials. Here, the previously existing material platform for anisotropically structured calcium phosphates was extended to low-temperature phases such as calcium deficient hydroxyapatite (CDHA) or the secondary phosphates monetite and brushite. After the implantation of a biomaterial, the inevitably triggered initial immune response plays a key role in the success of a graft, with immune cells such as neutrophils or macrophages being of particular importance. In this thesis, the influence of anisotropically structured alpha-TCP and CDHA scaffolds as well as their unstructured references on human monocytes/macrophages was investigated. Macrophages produced extracellular traps (ETs) due to mineral nanoparticles formed by the binding of phosphate and calcium ions to human platelet lysate. In particular, incubation of alpha-TCP samples in lysate containing cell culture medium resulted in pronounced particle formation and enhanced release of ETs.}, subject = {Freezing}, language = {en} } @phdthesis{Karikari2022, author = {Karikari, Akua Afriyie}, title = {Alpha Synuclein Specific T Lymphocytes Promote Neurodegeneration in the A53T-α-synuclein Parkinson's Disease Mouse Model}, doi = {10.25972/OPUS-18308}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-183080}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Parkinson's disease (PD), which is the most common motor neurodegenerative disorder has attracted a tremendous amount of research advancement amid the challenges of the lack of an appropriate model that summate all the features of the human disease. Nevertheless, an aspect of the disease that is yet to be fully elucidated is the role of the immune system particularly the adaptive arm in the pathogenesis of PD. The focus of this study therefore was to characterize the contribution of lymphocytes in PD using the AAV1/2-A53T-α-synuclein mouse model of the disease that encodes for human mutated A53T-α-synuclein. This model was suitable for this research because it reflects more faithfully the molecular pathology underlying the human disease by exhibition of insoluble α-synuclein containing Lewy-like protein aggregates as compared to the more classical toxin models used in PD research. The outcome of this study showed that stereotaxic delivery of pathogenic α-synuclein via a viral vector into the substantia nigra engender the invasion of activated CD4+ and CD8+ T lymphocytes in the brain. The invasion of activated T cells in the brain especially in the substantia nigra then results in enhanced microglial activation and the disintegration of dopaminergic neurons. In addition, it was also discovered that CD4+ T cells augmented dopaminergic cell death to a greater extent than CD8+ T cells although; axonal degeneration occurred relatively independent from T cells contribution. The ex vivo and in vitro, experiments also indicated that the T cells were not only activated but they were specific to the mutated human α-synuclein antigen. As a result, they demonstrated selectivity in inducing more cell death to primary hippocampal neurons transduced with AAV1/2-A53T-α-synuclein vector than neurons with empty viral vector infection. The mechanism of T cell induced neuronal cell loss could not be attributed to the presence of cytokines neither was it mediated through MHC I and II. On the whole, this research has established that the presence of pathogenic α-synuclein in the substantia nigra has the potential to trigger immune responses that involve the transmigration of adaptive immune cells into the brain. The infiltration of the T cells consequently has a detrimental effect on the survival of dopaminergic neurons and the progression of the disease}, subject = {Parkinson-Krankheit}, language = {en} } @phdthesis{Muenstermann2022, author = {M{\"u}nstermann, Marcel}, title = {The roles of the anaphylatoxin receptors during invasive disease as well as mucosal colonization caused by \(Neisseria\) \(meningitidis\)}, doi = {10.25972/OPUS-26975}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-269759}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {The human specific gram-negative bacterium Neisseria meningitidis (Nme, meningococci) is a common colonizer of the upper respiratory tract. Upon becoming invasive, Nme can cause meningitis and life-threatening sepsis. The most important immune defense mechanism in invasive meningococcal disease (IMD) is the complement mediated killing of bacteria. The complement cascade is activated through different pathogen associated patterns and finally leads to the lysis of the bacteria by the membrane attack complex. In addition to the direct bacterial killing, the complement system is also an important player in different inflammatory processes. A hallmark of IMD is an overreaction of the immune system and the release of the potent anaphylatoxins C3a and C5a by the complement system is an important factor hereby. There are three anaphylatoxin receptors (ATRs), the C3aR, the C5aR1 and the C5aR2, capable of detecting these anaphylatoxins. It has already been shown that blocking the ATR C5aR1 strongly benefitted the outcome of IMD in a murine sepsis model. However, the roles of ATRs C3aR and C5aR2 in IMD are still unclear. This work aims to analyze the role of these ATRs in meningococcal sepsis and to identify possible underlying mechanisms. Furthermore, a possible involvement of the complement system, the ATRs and the type II CRISPR/Cas system on nasopharyngeal colonization is analyzed. In vivo depletion experiments showed that without neutrophils or monocytes/macrophages the complement system alone was not able to clear a low dose Nme infection, which highlights the importance of cellular components in IMD. Analyzing the role of the ATRs in knock-out mice with high dose Nme infections, revealed that the lack of C5aR2, like the lack of C5aR1, was beneficial for the outcome of meningococcal induced sepsis. In contrast, the lack of C3aR in knock-out mice was detrimental. The positive outcome associated with the C5aRs could be reproduced by using an antagonist against both C5aRs or an antagonist specifically against C5aR1 in WT mice. These findings are giving hope to future therapeutic applications. Next, a possible contribution of neutrophils to this positive outcome was analyzed. Absence of C5aR1 led to a decrease of degranulation by neutrophils in a murine whole blood model, while the other ATRs showed no effect. Neutrophil analysis in human whole blood, on the other hand, revealed a reduced oxidative burst and IL-8 secretion upon inhibition of all three ATRs. A functional difference between the C5aRs and the C3aR in neutrophils was observed in phagocytosis, which was reduced upon C3aR inhibition, but was unaltered with C5aR1 or C5aR2 inhibition. Possible underlying mechanisms in the phosphorylation of ERK1/2 were analyzed in bone marrow derived macrophages isolated from ATR knock-out mice. The later phosphorylation of ERK1/2 in macrophages without C5aR1 or C5aR2 expression might explain, why blocking the C5aRs is beneficial for the outcome of IMD in mice. In contrast to these findings, the colonization of the nasopharynx in huCEACAM 1 expressing mice by Nme did not seem to depend on the Complement system factors C3 and C5 nor the ATRs. Additionally, no difference in the colonization could be observed in this model using Nme mutants lacking different parts of the type 2 CRISPR/Cas system. Conclusively, this work highlights the importance of the complement system, the ATRs and the cellular components in IMD. Contrariwise, these factors did not play a role in the analyzed nasopharyngeal infection model. The beneficial effects of C5aR1 and C5aR2 lack/inhibition in IMD might have medicinal applications, which could support the standard therapies of IMD in the future.}, subject = {Anaphylatoxine}, language = {en} } @phdthesis{Sharifi2022, author = {Sharifi, Marzieh}, title = {Structural plasticity of active zones in mouse hippocampal mossy fiber synapses}, doi = {10.25972/OPUS-27543}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-275433}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Chemical synapses are a physically and functionally varied type of cell-cell contact specialized in conducting communication between neurons. They are the smallest "computational" unit of the brain and are often classified as electrical and chemical, and they can be distinguished based on their transmission mechanism. These categories could be further broken into many kinds, each having a specific structure-function repertoire that is hypothesized to provide neural networks with distinct computational capabilities. Heterogeneity refers to the variety of structures and functions present in a particular category of synapses. Contributing factors for this heterogeneity may be the synaptic vesicles, the active zone (AZ), the synaptic cleft, the postsynaptic density, and the glial processes associated with the synaptic contacts. Each of these five structural modules has its own set of functions, and their combination determines the spectrum of functional heterogeneity at mammalian excitatory synapses. This work focused on the changes in AZ protein expression after chemical induction of plasticity with forskolin in synaptic contacts of the hippocampal mossy fibers. With the nanoscopic resolution provided by dSTORM, along with the multicolor SIM imaging capabilities, changes in expression of key presynaptic AZ components were analyzed. Using SIM imaging along with a standardized stimulation protocol in acute brain slices from male 16-week old Thy1-mEGFP (Lsi1) mice, the changes of the key AZ proteins Bassoon, Munc 13-1 and Tomosyn were investigated 30 min after stimulation with forskolin (50 μM for 30 min). Forskolin induced changes in these proteins largely in small synaptic contacts whereas no clear changes were detected in large mossy fiber boutons. However, due to the high variability it cannot be ruled out that forskolin may differentially modify AZ protein composition depending on experimental circumstances such as age and gender of mice or the time point and duration of forskolin stimulation. The dSTORM data demonstrated feasibility to perform single molecule 3D imaging of hippocampal presynaptic AZs and allowed quantitative mapping of molecular changes in AZ proteins after induction of plasticity. The findings suggest high heterogeneity in mossy fiber synaptic contacts that may have an impact on the function of neural networks. These imaging approaches may now be used to identify potential differences in functional molecular rearrangements of synaptic proteins in healthy and diseased brain (e.g. after induction of traumatic brain injury).}, subject = {Chemische Synapsen}, language = {en} } @phdthesis{Wencker2022, author = {Wencker, Freya Dorothea Ruth}, title = {The methionine biosynthesis operon in \(Staphylococcus\) \(aureus\): Role of concerted RNA decay in transcript stability and T-box riboswitch turnover}, doi = {10.25972/OPUS-20712}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207124}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Methionine is the first amino acid of every newly synthesised protein. In combination with its role as precursor for the vital methyl-group donor S-adenosylmethionine, methionine is essential for every living cell. The opportunistic human pathogen Staphylococcus aureus is capable of synthesising methionine de novo, when it becomes scarce in the environment. All genes required for the de novo biosynthesis are encoded by the metICFE-mdh operon, except for metX. Expression is controlled by a hierarchical network with a methionyl-tRNA-specific T-box riboswitch (MET-TBRS) as centrepiece, that is also referred to as met leader (RNA). T-box riboswitches (TBRS) are regulatory RNA elements located in the 5'-untranslated region (5'-UTR) of genes. The effector molecule of T-box riboswitches is uncharged cognate tRNA. The prevailing mechanism of action is premature termination of transcription of the nascent RNA in the absence of the effector (i.e. uncharged cognate tRNA) due to formation of a hairpin structure, the Terminator stem. In presence of the effector, a transient stabilisation of the alternative structure, the Antiterminator, enables transcription of the downstream genes ('read-through'). Albeit, after the read-through the thermodynamically more stable Terminator eventually forms. The Terminator and the Antiterminator are two mutually exclusive structures. Previous work of the research group showed that in staphylococci the MET-TBRS ensures strictly methionine-dependent control of met operon expression. Uncharged methionyl-tRNA that activates the system is only present in sufficient amounts under methionine-deprived conditions. In contrast to other bacterial TBRS, the staphylococcal MET-TBRS has some characteristic features regarding its length and predicted secondary structure whose relevance for the function are yet unkown. Aim of the present thesis was to experimentally determine the structure of the met leader RNA and to investigate the stability of the met operon-specific transcripts in the context of methionine biosynthesis control. Furthermore, the yet unknown function of the mdh gene within the met operon was to be determined. In the context of this thesis, the secondary structure of the met leader was determined employing in-line probing. The structural analysis revealed the presence of almost all highly conserved T-box riboswitch structural characteristics. Furthermore, three additional stems, absent in all T-box riboswitches analysed to date, could be identified. Particularly remarkable is the above average length of the Terminator stem which renders it a potential target of the double-strand-specific endoribonuclease III (RNase III). The RNase III-dependent cleavage of the met leader could be experimentally verified by the use of suitable mutants. Moreover, the exact cleavage site within the Terminator was determined. The unusual immediate separation of the met leader from the met operon mRNA via the RNase III cleavage within the Terminator stem induces the rapid degradation of the met leader RNA and, most likely, that of the 5'-region of the met mRNA. The met mRNA is degraded from its 5'-end by the exoribonuclease RNase J. The stability of the met mRNA was found to vary over the length of the transcript with an instable 5'-end (metI and metC) and a longer half-life towards the 3'-end (metE and mdh). The varying transcript stability is reflected by differences in the available cellular protein levels. The obtained data suggest that programmed mRNA degradation is another level of regulation in the complex network of staphylococcal de novo methionine biosynthesis control. In addition, the MET-TBRS was studied with regard to a future use as a drug target for novel antimicrobial agents. To this end, effects of a dysregulated methionine biosynthesis on bacterial growth and survival were investigated in met leader mutants that either caused permanent transcription of the met operon ('ON') or prevented operon transcription ('OFF'), irrespective of the methionine status in the cell. Methionine deprivation turned out to be a strong selection pressure, as 'OFF' mutants acquired adaptive mutations within the met leader to restore met operon expression that subsequently re-enabled growth. The second part of the thesis was dedicated to the characterisation of the Mdh protein that is encoded by the last gene of the met operon and whose function is unknown yet. At first, co-transcription and -expression with the met operon could be demonstrated. Next, the Mdh protein was overexpressed and purified and the crystal structure of Mdh was solved to high resolution by the Kisker research group (Rudolf-Virchow-Zentrum W{\"u}rzburg). Analysis of the structure revealed the amino acid residues crucial for catalytic activity, and zinc was identified as a co-factor of Mdh. Also, Mdh was shown to exist as a dimer. However, identification of the Mdh substrate was, in the context of this thesis, (still) unsuccessful. Nevertheless, interactions of Mdh with enzymes of the met operon could be demonstrated by employing the bacterial two-hybrid system. This fact and the high conservation of mdh/Mdh on nucleotide and amino acid level among numerous staphylococcal species suggests an important role of Mdh within the methionine metabolism that should be a worthwhile subject of future research.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Boetzl2022, author = {B{\"o}tzl, Fabian Alexander}, title = {The influence of crop management and adjacent agri-environmental scheme type on natural pest control in differently structured landscapes}, doi = {10.25972/OPUS-24140}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-241400}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Summary Chapters I \& II: General Introduction \& General Methods Agriculture is confronted with a rampant loss of biodiversity potentially eroding ecosystem service potentials and adding up to other stressors like climate change or the consequences of land-use change and intensive management. To counter this 'biodiversity crisis', agri-environment schemes (AES) have been introduced as part of ecological intensification efforts. These AES combine special management regimes with the establishment of tailored habitats to create refuges for biodiversity in agricultural landscapes and thus ensure biodiversity mediated ecosystem services such as pest control. However, little is known about how well different AES habitats fulfil this purpose and whether they benefit ecosystem services in adjacent crop fields. Here I investigated how effective different AES habitats are for restoring biodiversity in different agricultural landscapes (Chapter V) and whether they benefit natural pest control in adjacent oilseed rape (Chapter VI) and winter cereal fields (Chapter VII). I recorded biodiversity and pest control potentials using a variety of different methods (Chapters II, V, VI \& VII). Moreover, I validated the methodology I used to assess predator assemblages and predation rates (Chapters III \& IV). Chapter III: How to record ground dwelling predators? Testing methodology is critical as it ensures scientific standards and trustworthy results. Pitfall traps are widely used to record ground dwelling predators, but little is known about how different trap types affect catches. I compared different types of pitfall traps that had been used in previous studies in respect to resulting carabid beetle assemblages. While barrier traps collected more species and deliver more complete species inventories, conventional simple pitfall traps provide reliable results with comparatively little handling effort. Placing several simple pitfall traps in the field can compensate the difference while still saving handling effort.   Chapter IV: How to record predation rates? A plethora of methods has been proposed and used for recording predation rates, but these have rarely been validated before use. I assessed whether a novel approach to record predation, the use of sentinel prey cards with glued on aphids, delivers realistic results. I compared different sampling efforts and showed that obtained predation rates were similar and could be linked to predator (carabid beetle) densities and body-sizes (a proxy often used for food intake rates). Thus, the method delivers reliable and meaningful predation rates. Chapter V: Do AES habitats benefit multi-taxa biodiversity? The main goal of AES is the conservation of biodiversity in agricultural landscapes. I investigated how effectively AES habitats with different temporal continuity fulfil this goal in differently structured landscapes. The different AES habitats investigated had variable effects on local biodiversity. Temporal continuity of AES habitats was the most important predictor with older, more temporally continuous habitats harbouring higher overall biodiversity and different species assemblages in most taxonomic groups than younger AES habitats. Results however varied among taxonomic groups and natural enemies were equally supported by younger habitats. Semi-natural habitats in the surrounding landscape and AES habitat size were of minor importance for local biodiversity and had limited effects. This stresses that newly established AES habitats alone cannot restore farmland biodiversity. Both AES habitats as well as more continuous semi-natural habitats synergistically increase overall biodiversity in agricultural landscapes. Chapter VI: The effects of AES habitats on predators in adjacent oilseed rape fields Apart from biodiversity conservation, ensuring ecosystem service delivery in agricultural landscapes is a crucial goal of AES. I therefore investigated the effects of adjacent AES habitats on ground dwelling predator assemblages in oilseed rape fields. I found clear distance decay effects from the field edges into the field centres on both richness and densities of ground dwelling predators. Direct effects of adjacent AES habitats on assemblages in oilseed rape fields however were limited and only visible in functional traits of carabid beetle assemblages. Adjacent AES habitats doubled the proportion of predatory carabid beetles indicating a beneficial role for pest control. My results show that pest control potentials are largest close to the field edges and beneficial effects are comparably short ranged. Chapter VII: The effects of AES habitats on pest control in adjacent cereal fields Whether distance functions and potential effects of AES habitats are universal across crops is unknown. Therefore, I assessed distance functions of predators, pests, predation rates and yields after crop rotation in winter cereals using the same study design as in the previous year. Resulting distance functions were not uniform and differed from those found in oilseed rape in the previous year, indicating that the interactions between certain adjacent habitats vary with habitat and crop types. Distance functions of cereal-leaf beetles (important cereal pests) and parasitoid wasps were moreover modulated by semi-natural habitat proportion in the surrounding landscapes. Field edges buffered assemblage changes in carabid beetle assemblages over crop rotation confirming their important function as refuges for natural enemies. My results emphasize the beneficial role of field edges for pest control potentials. These findings back the calls for smaller field sizes and more diverse, more heterogeneously structured agricultural landscapes. Chapter VIII: General Discussion Countering biodiversity loss and ensuring ecosystem service provision in agricultural landscapes is intricate and requires strategic planning and restructuring of these landscapes. I showed that agricultural landscapes could benefit maximally from (i) a mixture of AES habitats and semi-natural habitats to support high levels of overall biodiversity and from (ii) smaller continuously managed agricultural areas (i.e. smaller field sizes or the insertion of AES elements within large fields) to maximize natural pest control potentials in crop fields. I propose a mosaic of younger AES habitats and semi-natural habitats to support ecosystem service providers and increase edge density for ecosystem service spillover into adjacent crops. The optimal extent and density of this network as well as the location in which AES and semi-natural habitats interact most beneficially with adjacent crops need further investigation. My results provide a further step towards more sustainable agricultural landscapes that simultaneously allow biodiversity to persist and maintain agricultural production under the framework of ecological intensification.}, subject = {{\"O}kologie}, language = {en} } @phdthesis{Grushevskyi2022, author = {Grushevskyi, Yevgenii}, title = {Activation kinetics of G-protein-coupled receptors}, doi = {10.25972/OPUS-20721}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207215}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {G-protein-coupled receptors (GPCRs) are key biological switches that transmit both internal and external stimuli into the cell interior. Among the GPCRs, the "light receptor" rhodopsin has been shown to activate with a re-arrangement of the transmembrane helix bundle within ≈1 ms, while all other receptors are thought to become activated in subsecond range at saturating concentrations. Here we investigate activation kinetics of a dimeric GPCR, the metabotropic glutamate receptor-1 (mGluR1), and several class A GPCRs, as muscarinic receptor 3 (M3R), adrenergic (α2aAR and β1R) and opioid (µOR) receptors. We first used UV-light-triggered uncaging of glutamate in intact cells. Sub-millisecond F{\"o}rster resonance energy transfer recordings between labels at intracellular receptor sites were used to record conformational changes in the mGluR1. At millimolar ligand concentrations the initial rearrangement between the mGluR1 subunits occurs at a speed of τ1≈1-2 ms. These rapid changes were followed by significantly slower conformational changes in the transmembrane domain (τ2≈20 ms). We further characterized novel photoswitchable negative allosteric modulators for mGluR1, which bind to its transmembrane core and block the conformational change as well as the downstream signaling. Effects of the compounds were quantified in pharmacological cell assays in the dark and using UV and green light illumination. We finally develop a framework for image-based kinetic analysis of GPCRs which allowed us to measure activation kinetics of several prototypical class A GPCRs and to discover membrane heterogeneities of GPCR activation. It appears that GPCR activation signal is not only dependent on the amount of activated receptors, but also has some level of correlation with the local density of activated receptors.}, subject = {G-Protein gekoppelter Rezeptor}, language = {en} } @phdthesis{Liu2022, author = {Liu, Ruiqi}, title = {Dynamic regulation of the melanocortin 4 receptor system in body weight homeostasis and reproductive maturation in fish}, doi = {10.25972/OPUS-20653}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-206536}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Puberty is an important period of life with physiological changes to enable animals to reproduce. Xiphophorus fish exhibit polymorphism in body size, puberty timing, and reproductive tactics. These phenotypical polymorphisms are controlled by the Puberty (P) locus. In X. nigrensis and X. multilineatus, the P locus encodes the melanocortin 4 receptor (Mc4r) with high genetic polymorphisms. Mc4r is a member of the melanocortin receptors, belonging to class A G-protein coupled receptors. The Mc4r signaling system consists of Mc4r, the agonist Pomc (precursor of various MSH and of ACTH), the antagonist Agrp and accessory protein Mrap2. In humans, MC4R has a role in energy homeostasis. MC4R and MRAP2 mutations are linked to human obesity but not to puberty. Mc4rs in X. nigrensis and X. multilineatus are present in three allele classes, A, B1 and B2, of which the X-linked A alleles express functional receptors and the male-specific Y-linked B alleles encode defective receptors. Male body sizes are correlated with B allele type and B allele copy numbers. Late-maturing large males carry B alleles in high copy number while early-maturing small males carry B alleles in low copy number or only A alleles. Cell culture co-expression experiments indicated that B alleles may act as dominant negative receptor mutants on A alleles. In this study, the main aim was to biochemically characterize the mechanism of puberty regulation by Mc4r in X. nigrensis and X. multilineatus, whether it is by Mc4r dimerization and/or Mrap2 interaction with Mc4r or other mechanisms. Furthermore, Mc4r in X. hellerii (another swordtail species) and medaka (a model organism phylogenetically close to Xiphophorus) were investigated to understand if the investigated mechanisms are conserved in other species. In medaka, the Mc4r signaling system genes (mc4r, mrap2, pomc, agrp1) are expressed before hatching, with agrp1 being highly upregulated during hatching and first feeding. These genes are mainly expressed in adult brain, and the transcripts of mrap2 co-localize with mc4r indicating a function in modulating Mc4r signaling. Functional comparison between wild-type and mc4r knockout medaka showed that Mc4r knockout does not affect puberty timing but significantly delays hatching due to the retarded embryonic development of knockout medaka. Hence, the Mc4r system in medaka is involved in regulation of growth rather than puberty. In Xiphophorus, expression co-localization of mc4r and mrap2 in X. nigrensis and X. hellerii fish adult brains was characterized by in situ hybridization. In both species, large males exhibit strikingly high expression of mc4r while mrap2 shows similar expression level in the large and small male and female. Differently, X. hellerii has only A-type alleles indicating that the puberty regulation mechanisms evolved independently in Xiphophorus genus. Functional analysis of Mrap2 and Mc4r A/B1/B2 alleles of X. multilineatus showed that increased Mrap2 amounts induce higher cAMP response but EC50 values do not change much upon Mrap2 co-expression with Mc4r (expressing only A allele or A and B1 alleles). A and B1 alleles were expressed higher in large male brains, while B2 alleles were only barely expressed. Mc4r A-B1 cells have lower cAMP production than Mc4r A cells. Together, this indicates a role of Mc4r alleles, but not Mrap2, in puberty onset regulation signaling. Interaction studies by FRET approach evidenced that Mc4r A and B alleles can form heterodimers and homodimers in vitro, but only for a certain fraction of the expressed receptors. Single-molecule colocalization study using super-resolution microscope dSTORM confirmed that only few Mc4r A and B1 receptors co-localized on the membrane. Altogether, the species-specific puberty onset regulation in X. nigrensis and X. multilineatus is linked to the presence of Mc4r B alleles and to some extent to its interaction with A allele gene products. This is reasoned to result in certain levels of cAMP signaling which reaches the dynamic or static threshold to permit late puberty in large males. In summary, puberty onset regulation by dominant negative effect of Mc4r mutant alleles is a special mechanism that is found so far only in X. nigrensis and X. multilineatus. Other Xiphophorus species obviously evolved the same function of the pathway by diverse mechanisms. Mc4r in other fish (medaka) has a role in regulation of growth, reminiscent of its role in energy homeostasis in humans. The results of this study will contribute to better understand the biochemical and physiological functions of the Mc4r system in vertebrates including human.}, subject = {Japank{\"a}rpfling}, language = {en} } @phdthesis{Leikeim2022, author = {Leikeim, Anna}, title = {Vascularization Strategies for Full-Thickness Skin Equivalents to Model Melanoma Progression}, doi = {10.25972/OPUS-27295}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-272956}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Malignant melanoma (MM) is the most dangerous type of skin cancer with rising incidences worldwide. Melanoma skin models can help to elucidate its causes and formation or to develop new treatment strategies. However, most of the current skin models lack a vasculature, limiting their functionality and applicability. MM relies on the vascular system for its own supply and for its dissemination to distant body sites via lymphatic and blood vessels. Thus, to accurately study MM progression, a functional vasculature is indispensable. To date, there are no vascularized skin models to study melanoma metastasis in vitro, which is why such studies still rely on animal experimentation. In the present thesis, two different approaches for the vascularization of skin models are employed with the aim to establish a vascularized 3D in vitro full-thickness skin equivalent (FTSE) that can serve as a test system for the investigation of the progression of MM. Initially, endothelial cells were incorporated in the dermal part of FTSEs. The optimal seeding density, a spheroid conformation of the cells and the cell culture medium were tested. A high cell density resulted in the formation of lumen-forming shapes distributed in the dermal part of the model. These capillary-like structures were proven to be of endothelial origin by staining for the endothelial cell marker CD31. The established vascularized FTSE (vFTSE) was characterized histologically after 4 weeks of culture, revealing an architecture similar to human skin in vivo with a stratified epidermis, separated from the dermal equivalent by a basement membrane indicated by collagen type IV. However, this random capillary-like network is not functional as it cannot be perfused. Therefore, the second vascularization approach focused on the generation of a perfusable tissue construct. A channel was molded within a collagen hydrogel and seeded with endothelial cells to mimic a central, perfusable vessel. The generation and the perfusion culture of the collagen hydrogel was enabled by the use of two custom-made, 3D printed bioreactors. Histological assessment of the hydrogels revealed the lining of the channel with a monolayer of endothelial cells, expressing the cell specific marker CD31. For the investigation of MM progression in vitro, a 3D melanoma skin equivalent was established. Melanoma cells were incorporated in the epidermal part of FTSEs, representing the native microenvironment of the tumor. Melanoma nests grew at the dermo-epidermal junction within the well stratified epidermis and were characterized by the expression of common melanoma markers. First experiments were conducted showing the feasibility of combining the melanoma model with the vFTSE, resulting in skin models with tumors at the dermo-epidermal junction and lumen-like structures in the dermis. Taken together, the models presented in this thesis provide further steps towards the establishment of a vascularized, perfusable melanoma model to study melanoma progression and metastasis.}, subject = {Tissue Engineering}, language = {en} } @phdthesis{Juerges2022, author = {J{\"u}rges, Christopher Sebastian}, title = {Algorithmic methods for elucidating the transcriptomic landscape of herpesviruses}, doi = {10.25972/OPUS-27282}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-272825}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Transcription describes the process of converting the information contained in DNA into RNA. Although, tremendous progress has been made in recent decades to uncover this complex mechanism, it is still not fully understood. Given the advances and reduction in cost of high-throughput sequencing experiments, more and more data have been generated to help elucidating this complex process. Importantly, these sequencing experiments produce massive amounts of data that are incomprehensible in their raw form for humans. Further, sequencing techniques are not always 100\% accurate and are subject to a certain degree of variability and, in special cases, they might introduce technical artifacts. Thus, computational and statistical methods are indispensable to uncover the information buried in these datasets. In this thesis, I worked with multiple high throughput datasets from herpes simplex virus 1 (HSV-1) and human cytomegalovirus (HCMV) infections. During the last decade, it has became clear that a gene might not have a single, but multiple sites at which transcription initiates. These multiple transcription start sites (TiSS) demonstrated to have regulatory effects on the gene itself depending on which TiSS is used. Specialized experimental approaches were developed to help identify TiSS (TiSS-profiling). In order to facilitate the identification of all potential TiSS that are used for cell type- and condition-specific transcription, I developed the tool iTiSS. By using a new general enrichment-based approach to predict TiSS, iTiSS proved to be applicable in integrated studies and made it less prone to false positives compared to other TiSS-calling tools. Another improvement in recent years was made in metabolic labeling experiments such as SLAM-seq. Here, they removed the time consuming and laborious step of physically separating new from old RNA in the samples. This was achieved by inducing specific nucleotide conversions in newly synthesized RNA that are later visible in the data. Consequently, the separation of new and old RNA is now done computationally and, hence, tools are needed that accurately quantify these fold-changes. My second tool that I developed, called GRAND-SLAM proved to be capable to accomplish this task and outperform competing programs. As both of my tools, iTiSS and GRAND-SLAM are not specifically tailored to my own goals, but could also facilitate the research of other groups in this field, I made them publicly available on GitHub. I applied my tools to datasets generated in our lab as well as to publicly available data sets from HSV-1 and HCMV, respectively. For HSV-1, I was able to predict and validate TiSS with nucleotide precision using iTiSS. This has lead to the most comprehensive annotation for HSV-1 to date, which now serves as the fundamental basis of any future transcriptomic research on HSV-1. By combining both my tools, I was further able to uncover parts of the highly complex gene kinetics in HCMV and to resolve the limitations caused by the densely packed genome of HCMV. With the ever-increasing advances in sequencing techniques and their decrease in cost, the amounts of data produced will continue to rise massively in the future. Additionally, more and more specialized omics approaches are appearing, calling for new tools to leverage their full information potential. Consequently, it has become apparent that specialized computational tools such as iTiSS and GRAND-SLAM are needed and will become an essential and indispensable part of the analysis.}, subject = {Herpesviren}, language = {en} } @phdthesis{Amatobi2022, author = {Amatobi, Kelechi Michael}, title = {Circadian clocks determine transport and membrane lipid oscillation in \(Drosophila\) hemolymph in complex interactions between nutrient-type, photic conditions and feeding behaviour}, doi = {10.25972/OPUS-24446}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-244462}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {The interaction between circadian clocks and metabolism is of increasing interest, since clock dysfunction often correlates with metabolic pathologies. Many research articles have been published analysing the impact of factors such as circadian clock, light, feeding time and diet-type on energy homeostasis in various tissues/organs of organisms with most of the findings done in mammals. Little is known about the impact of circadian clock and the above-mentioned factors on circulating lipids, especially the transport form of lipids - diacylglycerol (DG) and membrane lipids such as phosphatidylethanolamine (PE) and phosphatidylcholine (PC) in the Drosophila hemolymph. The fruit fly Drosophila is a prime model organism in circadian, behaviour and metabolism research. To study the role of circadian clock and behaviour in metabolism, we performed an extensive comparative hemolymph lipid (diacylglycerol: DG, phosphatidylethanolamine: PE, phosphatidylcholine: PC) analysis using ultra performance liquid chromatography coupled to time-of-flight mass spectrometry (UPLC-MS) between wild-type flies (WTCS) and clock disrupted mutants (per01). In addition, clock controlled food intake- feeding behaviour was investigated. Time-dependent variation of transport (DG) and membrane lipids (PE and PC) were not rhythmic in WTCS under constant darkness and in per01 under LD, suggesting an impact of light and clock genes on daily lipid oscillations. Day-time and night-time restriction of food led to comparable lipid profiles, suggesting that lipid oscillations are not exclusively entrained by feeding but rather are endogenously regulated. Ultradian oscillations in lipid levels in WTCS under LD were masked by digested fatty acids since lipid levels peaked more robustly at the beginning and end of light phase when flies were fed a lipid- and protein-free diet. These results suggest that metabolite (DG, PE and PC) oscillation is influenced by complex interactions between nutrient-type, photic conditions, circadian clock and feeding time. In conclusion, the results of this thesis suggest that circadian clocks determine transport and membrane lipid oscillation in Drosophila hemolymph in complex interactions between nutrient-type, photic conditions and feeding behaviour.}, subject = {Pharmaceutische Biologie}, language = {en} } @phdthesis{Hahn2022, author = {Hahn, Lukas}, title = {Novel Thermoresponsive Hydrogels Based on Poly(2-oxazoline)s and Poly(2-oxazine)s and their Application in Biofabrication}, doi = {10.25972/OPUS-27129}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-271299}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {In this work, the influence of aromatic structures on drug encapsulation, self-assembly and hydrogel formation was investigated. The physically crosslinked gelling systems were characterized and optimized for the use in biofabrication and applied in initial (bio)printing experiments. Chapter I: The cytocompatible (first in vitro and in vivo studies) amphiphile PMeOx-b-PBzOx-b- PMeOx (A-PBzOx-A) was used for the solubilization of PTX, schizandrin A (SchA), curcumin (CUR), niraparib and HS-173. Chapter II: Compared to the polymers A-PPheOx-A, A-PBzOx-A and A-PBzOzi-A, only the polymer A-PPheOzi-A showed a reversible temperature- and concentration-dependent inverse thermogelation, which is accompanied by a morphology change from long wormlike micelles in the gel to small spherical micelles in solution. The worm formation results from novel interactions between the hydrophilic and hydrophobic aromatic polymer blocks. Changes in the hydrophilic block significantly alter the gel system. Rheological properties can be optimized by concentration and temperature, which is why the hydrogel was used to significantly improve the printability and stability of Alg in a blend system. Chapter III: By extending the side chain of the aromatic hydrophobic block, the inverse thermogelling polymer A-poly(2-phenethyl-2-oxazoline)-A (A-PPhenEtOx-A) is obtained. Rapid gelation upon cooling is achieved by inter-correlating spherical micelles. Based on ideal rheological properties, first cytocompatible bioprinting experiments were performed in combination with Alg. The polymers A- poly(2-benzhydryl-2-oxazoline)-A (A-PBhOx-A) and A-poly(2-benzhydryl-2-oxazine) (A-PBhOzi-A) are characterized by two aromatic benzyl units per hydrophobic repeating unit. Only the polymer A- PBhOzi-A exhibited inverse thermogelling behavior. Merging micelles could be observed by electron microscopy. The system was rheologically characterized and discussed with respect to an application in 3D printing. Chapter IV: The thermogelling POx/POzi system, in particular the block copolymer PMeOx-b- PnPrOzi, was used in different applications in the field of biofabrication. The introduction of maleimide and furan units along the hydrophilic polymer part ensured additional stabilization by Diels-Alder crosslinking after the printing process.}, subject = {Polymer Science}, language = {en} } @phdthesis{PrietoGarcia2022, author = {Prieto Garc{\´i}a, Cristian}, title = {USP28 regulates Squamous cell oncogenesis and DNA repair via ΔNp63 deubiquitination}, doi = {10.25972/OPUS-27033}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-270332}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {∆Np63 is a master regulator of squamous cell identity and regulates several signaling pathways that crucially contribute to the development of squamous cell carcinoma (SCC) tumors. Its contribution to coordinating the expression of genes involved in oncogenesis, epithelial identity, DNA repair, and genome stability has been extensively studied and characterized. For SCC, the expression of ∆Np63 is an essential requirement to maintain the malignant phenotype. Additionally, ∆Np63 functionally contributes to the development of cancer resistance toward therapies inducing DNA damage. SCC patients are currently treated with the same conventional Cisplatin therapy as they would have been treated 30 years ago. In contrast to patients with other tumor entities, the survival of SCC patients is limited, and the efficacy of the current therapies is rather low. Considering the rising incidences of these tumor entities, the development of novel SCC therapies is urgently required. Targeting ∆Np63, the transcription factor, is a potential alternative to improve the therapeutic response and clinical outcomes of SCC patients. However, ∆Np63 is considered "undruggable." As is commonly observed in transcription factors, ∆Np63 does not provide any suitable domains for the binding of small molecule inhibitors. ∆Np63 regulates a plethora of different pathways and cellular processes, making it difficult to counteract its function by targeting downstream effectors. As ∆Np63 is strongly regulated by the ubiquitin-proteasome system (UPS), the development of deubiquitinating enzyme inhibitors has emerged as a promising therapeutic strategy to target ∆Np63 in SCC treatment. This work involved identifying the first deubiquitinating enzyme that regulates ∆Np63 protein stability. Stateof-the-art SCC models were used to prove that USP28 deubiquitinates ∆Np63, regulates its protein stability, and affects squamous transcriptional profiles in vivo and ex vivo. Accordingly, SCC depends on USP28 to maintain essential levels of ∆Np63 protein abundance in tumor formation and maintenance. For the first time, ∆Np63, the transcription factor, was targeted in vivo using a small molecule inhibitor targeting the activity of USP28. The pharmacological inhibition of USP28 was sufficient to hinder the growth of SCC tumors in preclinical mouse models. Finally, this work demonstrated that the combination of Cisplatin with USP28 inhibitors as a novel therapeutic alternative could expand the limited available portfolio of SCC therapeutics. Collectively, the data presented within this dissertation demonstrates that the inhibition of USP28 in SCC decreases ∆Np63 protein abundance, thus downregulating the Fanconi anemia (FA) pathway and recombinational DNA repair. Accordingly, USP28 inhibition reduces the DNA damage response, thereby sensitizing SCC tumors to DNA damage therapies, such as Cisplatin.}, language = {en} } @book{Halder2022, author = {Halder, Partho}, title = {Identification and characterization of synaptic proteins of Drosophila melanogaster using monoclonal antibodies of the Wuerzburg Hybridoma Library}, doi = {10.25972/OPUS-27020}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-270205}, publisher = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {For a large fraction of the proteins expressed in the human brain only the primary structure is known from the genome project. Proteins conserved in evolution can be studied in genetic models such as Drosophila. In this doctoral thesis monoclonal antibodies (mAbs) from the Wuerzburg Hybridoma library are produced and characterized with the aim to identify the target antigen. The mAb ab52 was found to be an IgM which recognized a cytosolic protein of Mr ~110 kDa on Western blots. The antigen was resolved by two-dimensional gel electrophoresis (2DE) as a single distinct spot. Mass spectrometric analysis of this spot revealed EPS-15 (epidermal growth factor receptor pathway substrate clone 15) to be a strong candidate. Another mAb from the library, aa2, was already found to recognize EPS-15, and comparison of the signal of both mAbs on Western blots of 1D and 2D electrophoretic separations revealed similar patterns, hence indicating that both antigens could represent the same protein. Finally absence of the wild-type signal in homozygous Eps15 mutants in a Western blot with ab52 confirmed the ab52 antigen to be EPS-15. Thus both the mAbs aa2 and ab52 recognize the Drosophila homologue of EPS-15. The mAb aa2, being an IgG, is more suitable for applications like immunoprecipitation (IP). It has already been submitted to the Developmental Studies Hybridoma Bank (DSHB) to be easily available for the entire research community. The mAb na21 was also found to be an IgM. It recognizes a membrane associated antigen of Mr ~10 kDa on Western blots. Due to the membrane associated nature of the protein, it was not possible to resolve it by 2DE and due to the IgM nature of the mAb it was not possible to enrich the antigen by IP. Preliminary attempts to biochemically purify the endogenously expressed protein from the tissue, gave 99 promising results but could not be completed due to lack of time. Thus biochemical purification of the protein seems possible in order to facilitate its identification by mass spectrometry. Several other mAbs were studied for their staining pattern on cryosections and whole mounts of Drosophila brains. However, many of these mAbs stained very few structures in the brain, which indicated that only a very limited amount of protein would be available as starting material. Because these antibodies did not produce signals on Western blots, which made it impossible to enrich the antigens by electrophoretic methods, we did not attempt their purification. However, the specific localization of these proteins makes them highly interesting and calls for their further characterization, as they may play a highly specialized role in the development and/or function of the neural circuits they are present in. The purification and identification of such low expression proteins would need novel methods of enrichment of the stained structures.}, subject = {Taufliege}, language = {en} } @phdthesis{Brych2022, author = {Brych, Mareike Kimberly}, title = {How movements and cognition interact: An investigation of spontaneous blinks}, doi = {10.25972/OPUS-26737}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-267376}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {During natural behavior, cognitive processes constantly coincide with body movements such as head or eye movements or blinks. However, during experimental investigations of cognitive processes, movements are often highly restricted which is rather unnatural. In order to improve our understanding of natural behavior, this thesis investigates the interaction between cognition and movements by focusing on spontaneous blinks, which naturally interact with other body movements. Spontaneous blinks are inevitably connected to vision as they shut out incoming visual information. Both sensory-based and cognitive factors, for example, stimulus occurrence and evaluation, were reported to influence blink behavior. Our first study investigated if such influences are comparable for visual and non-visual input. The chosen experimental design allowed dissociating sensory-driven and cognitive influences, which then could be compared between the visual and auditory domain. Our results show that blinks are more strongly modulated during passive observation of visual input compared to auditory input. This modulation is however enhanced for both input modalities by an increased attentional demand. In addition, the cognitively defined meaning of a stimulus changes blink latency independent of the sensory domain. Overall, our findings show that spontaneous blinks and cognitive processes are linked beyond vision. Moreover, the underlying cognitive processes that influence blinks are largely the same across different sensory input indicating that blinks are profoundly integrated into our system. When investigating natural behavior, it is important to consider that movements rarely occur in isolation, but are executed side by side. As these movements interact and have a link to cognitive processes, the complexity of our system increases. In order to take this complexity into account, the second part of the experimental research focused on movement interactions, more specifically on the interactions between blinks, pupil size and speaking. Our results reveal that speech-related motor activity increases blink rate and pupil size as well as modulates blink timing. This is in line with previous research that described a relation between different body and eye movements. Importantly, each bodily-induced change in eye movements affects visual information intake. Therefore, different movements can be tightly linked to perceptual processes through complex interactions. Altogether, the work of this thesis provides rich evidence that movements and cognitive processes are deeply intertwined. Therefore, movements should be seen as an integral part of our system. Taking the relevance of movements and their interactions into account during experimental investigations is necessary in order to reveal a more realistic and complete picture of human natural behavior.}, subject = {Kognition}, language = {en} } @phdthesis{Flegler2022, author = {Flegler, Vanessa Judith}, title = {Application of electron cryomicroscopy for structural and functional studies on the mechanosensitive channels of small conductance}, doi = {10.25972/OPUS-26897}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-268979}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Bacteria thrive and survive in many different environments, and as a result, they have developed robust mechanisms to adapt rapidly to alterations in their surroundings. The protection against osmotic forces is provided by mechanosensitive channels: their primary function is to maintain the integrity of the cell upon a hypoosmotic shock. The mechanosensitive channel of small conductance (MscS) is not only the smallest common structural unit of a diverse family that allows for a tailored response in osmoregulation; it is also the most intensively studied homologue. Mechanosensitive channels directly sense elevated membrane tension levels generated by increased pressure within the cell and open transiently. Escherichia coli has six paralogues that differ in their gating properties and the number of additional transmembrane (TM) helices. These TM helices, termed sensor paddles, are essential for sensing, as they directly contact the surrounding membrane; however, the role of the additional TM helices is still unclear. Furthermore, lipids occupy hydrophobic pockets far away from the membrane plane. A recent gating model for MscS states that increased membrane tension triggers the expulsion of lipids out of those pockets, modulating different conformational states of MscS. This model focuses on bound lipids, but it is still unclear to what extent the direct interaction with the membrane influences sensing and how relevant it is for the larger paralogues. In the herein described work, structural studies on two larger paralogues, the medium-sized channel YnaI and the large channel YbiO were realised using electron cryomicroscopy (cryo-EM). Lipids were identified in YnaI in the pockets in a similar position and orientation as in MscS, suggesting a conserved sensing mechanism. Moreover, the copolymer diisobutylene/maleic acid (DIBMA) allowed the extraction of artificially activated YnaI from plasma membranes, leading to an open-like form of this channel. This novel conformation indicated that the pore helices bend at a GGxGG motif during gating, which is unique among the Escherichia coli paralogues, concomitant with a structural reorganisation of the sensor paddles. Thus, despite a high similarity of their closed states, the gating mechanisms of MscS and YnaI are surprisingly different. Furthermore, the comparison of MscS, YnaI, and YbiO accentuates variations and similarities between the differently sized family members, implying fine-tuning of channel properties in the pore regions and the cytosolic lateral entry sides into the channel. Structural analyses of MscS reconstituted into different systems showed the advantages and disadvantages of certain polymers and detergents. The novel DIBMA copolymer and the more conventional amphiphilic polymers, so-called Amphipols, perturb contacting transmembrane helices or lead to their denaturation. Due to this observation, the obtained structures of YnaI must also be cautiously considered. The structures obtained in detergents resulted in unaffected channels; however, the applicability of detergents for MscS-like channels is limited by the increased required sample concentration. The role of lipids for gating MscS in the absence of a membrane was examined by deliberately removing coordinated lipid molecules from MscS using different amounts and kinds of detergent. The effects on the channel were inspected by cryo-EM. These experiments showed that closed MscS adopts the open conformation when it is enough delipidated by incubation with the detergent n-dodecyl-β-D-maltoside, and adding lipids to the open channel reverses this process. The results agree with the state-of-the-art model that the amount of lipid molecules in the pockets and grooves is responsible for the conformational state of MscS. Furthermore, incubation with the detergent lauryl maltose neopentyl glycol, which has stabilising and delipidating characteristics, resulted in a high-resolution structure of open MscS exhibiting an intricate network of ligands. Based on this structure, an updated gating model is proposed, which states that upon opening, lipids from the pockets migrate into the cytosolic membrane leaflet, while lipids from the periplasmic leaflet enter the grooves that arise between the sensor paddles.}, language = {en} } @phdthesis{TrujilloViera2022, author = {Trujillo Viera, Jonathan}, title = {Protein kinase D2 drives chylomicron-mediate lipid transport in the intestine and promotes obesity}, doi = {10.25972/OPUS-26509}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-265095}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Obesity and associated metabolic syndrome are growing concerns in modern society due to the negative consequences for human health and well-being. Cardiovascular diseases and type 2 diabetes are only some of the pathologies associated to overweight. Among the main causes are decreased physical activity and food availability and composition. Diets with high content of fat are energy-dense and their overconsumption leads to an energy imbalance, which ultimately promotes energy storage as fat and obesity. Aberrant activation of signalling cascades and hormonal imbalances are characteristic of this disease and members of the Protein Kinase D (PKD) family have been found to be involved in several mechanisms mediating metabolic homeostasis. Therefore, we aimed to investigate the role of Protein Kinase D2 (PKD2) in the regulation of metabolism. Our investigation initiated with a mice model for global PKD2 inactivation, which allowed us to prove a direct involvement of this kinase in lipids homeostasis and obesity. Inactivation of PKD2 protected the mice from high-fat diet-induced obesity and improved their response to glucose, insulin and lipids. Furthermore, the results indicated that, even though there were no changes in energy intake or expenditure, inactivation of PKD2 limited the absorption of fat from the intestine and promoted energy excretion in feces. These results were verified in a mice model for specific deletion of intestinal PKD2. These mice not only displayed an improved metabolic fitness but also a healthier gut microbiome profile. In addition, we made use of a small-molecule inhibitor of PKD in order to prove that local inhibition of PKD2 in the intestine was sufficient to inhibit lipid absorption. The usage of the inhibitor not only protected the mice from obesity but also was efficient in avoiding additional body-weight gain after obesity was pre-established in mice. Mechanistically, we determined that PKD2 regulates lipids uptake in enterocytes by phosphorylation of Apolipoprotein A4 (APOA4) and regulation of chylomicron-mediated triglyceride absorption. PKD2 deletion or inactivation increased abundance of APOA4 and decreased the size of chylomicrons and therefore lipids absorption from the diet. Moreover, intestinal activation of PKD2 in human obese patients correlated with higher levels of triglycerides in circulation and a detrimental blood profile. In conclusion, we demonstrated that PKD2 is a key regulator of dietary fat absorption in murine and human context, and its inhibition might contribute to the treatment of obesity.}, subject = {Chylomicrons}, language = {en} } @phdthesis{Matera2022, author = {Matera, Gianluca}, title = {Global mapping of RNA-RNA interactions in \(Salmonella\) via RIL-seq}, doi = {10.25972/OPUS-26877}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-268776}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {RNA represents one of the most abundant macromolecules in both eukaryotic and prokaryotic cells. Since the discovery that RNA could play important gene regulatory functions in the physiology of a cell, small regulatory RNAs (sRNAs) have been at the center of molecular biology studies. Functional sRNAs can be independently transcribed or derived from processing of mRNAs and other non-coding regions and they often associate with RNA-binding proteins (RBPs). Ever since the two major bacterial RBPs, Hfq and ProQ, were identified, the way we approach the identification and characterization of sRNAs has drastically changed. Initially, a single sRNA was annotated and its function studied with the use of low-throughput biochemical techniques. However, the development of RNA-seq techniques over the last decades allowed for a broader identification of sRNAs and their functions. The process of studying a sRNA mainly focuses on the characterization of its interacting RNA partner(s) and the consequences of this binding. By using RNA interaction by ligation and sequencing (RIL-seq), the present thesis aimed at a high-throughput mapping of the Hfq-mediated RNA-RNA network in the major human pathogen Salmonella enterica. RIL-seq was at first performed in early stationary phase growing bacteria, which enabled the identification of ~1,800 unique interactions. In- depth analysis of such complex network was performed with the aid of a newly implemented RIL-seq browser. The interactome revealed known and new interactions involving sRNAs and genes part of the envelope regulon. A deeper investigation led to the identification of a new RNA sponge of the MicF sRNA, namely OppX, involved in establishing a cross-talk between the permeability at the outer membrane and the transport capacity at the periplasm and the inner membrane. Additionally, RIL-seq was applied to Salmonella enterica grown in SPI-2 medium, a condition that mimicks the intracellular lifestyle of this pathogen, and finally extended to in vivo conditions during macrophage infection. Collectively, the results obtained in the present thesis helped unveiling the complexity of such RNA networks. This work set the basis for the discovery of new mechanisms of RNA-based regulation, for the identification of a new physiological role of RNA sponges and finally provided the first resource of RNA interactions during infection conditions in a major human pathogen.}, subject = {Small RNA}, language = {en} } @phdthesis{Slyschak2022, author = {Slyschak, Anna}, title = {Fear conditioning, its generalization and extinction in children and adolescents under consideration of trait anxiety and anxiety sensitivity}, doi = {10.25972/OPUS-26780}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-267806}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {The propounded thesis investigated fear learning including fear conditioning, its generalization as well as its extinction in 133 healthy children and adolescents aged 8 to 17 years. The main goal was to analyze these processes also in the course of childhood and adolescence due to far less research in this age span compared to adults. Of note, childhood is the typical period for the onset of anxiety disorders. To achieve this, an aversive discriminative fear conditioning, generalization and extinction paradigm, which based on the "screaming lady paradigm" from Lau et al. (2008) and was adapted by Schiele \& Reinhard et al. (2016), was applied. All probands traversed the pre-acquisition (4 x CS-, 4 x CS+, no US), the acquisition (12 x CS-, 12 x CS+, reinforcement rate: 83\%), the generalization (12 x CS-, 12 x GS4, 12 x GS3, 12 x GS2, 12 x GS1, 12 x CS+, reinforcement rate: 50\%) and the extinction (18 x CS-, 18 x CS+, no US). The generalization stimuli, i.e. GS1-GS4, were built out of CS- and CS+ in different mixtures on a percentage basis in steps of 20\% from CS- to CS+. Pictures of faces of two actresses with a neutral expression were used for the discriminative conditioning, whereby the CS+ was paired with a 95-dB loud female scream at the same time together with a fearful facial expression (US). CS- and GS1-GS4 were never followed by the US. Subjective ratings (arousal, valence and US expectancy) were collected and further the psychophysiological measure of the skin conductance response (SCR). The hypotheses were 1) that underage probands show a negative correlation between age and overgeneralization and 2) that anxiety is positively correlated with overgeneralization in the same sample. ANOVAs with repeated measures were conducted for all four dependent variables with phase (pre-acquisition phase, 1. + 2. acquisition phase, 1. + 2. generalization phase, 1. - 3. extinction phase) and stimulus type (CS-, CS+, GS1-GS4) as within-subject factors. For the analyses of the modulatory effects of age and anxiety in additional separate ANCOVAs were conducted including a) age, b) the STAIC score for trait anxiety and c) the CASI score for anxiety sensitivity as covariates. Sex was always included as covariate of no interest. On the one hand, findings indicated that the general extent of the reactions (arousal, valence and US expectancy ratings and the SCR) decreased with growing age, i.e. the older the probands the lower their reactions towards the stimuli regardless of the type of dependent variable. On the other hand, ratings of US expectancy, i.e. the likelihood that a stimulus is followed by a US (here: female scream coupled with a fearful facial expression), showed better discrimination skills the older the probands were, resulting in a smaller overgeneralization within older probands. It must be emphasized very clearly that no causality can be derived. Thus, it was only an association revealed between 15 age and generalization of conditioned fear, which is negative. Furthermore, no obvious impact of trait anxiety could be detected on the different processes of fear learning. Especially, no overgeneralization was expressed by the probands linked to higher trait anxiety. In contrast to trait anxiety, for anxiety sensitivity there was an association between its extent and the level of fear reactions. This could be described best with a kind of parallel shifts: the higher the anxiety sensitivity, the stronger the fear reactions. Likewise, for anxiety sensitivity no overgeneralization due to a stronger extent of anxiety sensitivity could be observed. Longitudinal follow-up examinations and, furthermore, neurobiological investigations are needed for replication purposes and purposes of gaining more supporting or opposing insights, but also for the profound exploration of the impact of hormonal changes during puberty and of the maturation processes of different brain structures. Finally, the question whether enhanced generalization of conditioned fear facilitates the development of anxiety disorders or vice versa remains unsolved yet.}, subject = {Furcht}, language = {en} } @phdthesis{OliveiraAlvesPereira2022, author = {Oliveira Alves Pereira, Ana Rita}, title = {Modelling of Mesenchymal Stromal Cells Interactions within the Skeletal Niche}, doi = {10.25972/OPUS-26660}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-266603}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Mesenchymal stem/stromal cells (MSCs) are a rare subpopulation of cells first identified in bone marrow with the potential to proliferate in plastic-adherent colonies and to generate de novo bone marrow stroma and its environment upon serial transplantation to heterotopic anatomical sites. Given their multipotency and self renewal competence, MSCs are prime prospective candidates for most modern musculoskeletal-tissue engineering and regenerative medicine approaches. Still, their envisioned therapeutic use is being questioned with concerns regarding their definition, characterization and integrative functions in vivo. It is well established that microenvironmental cues such as the extracellular matrix (ECM)-chemistry, the mechanical environment and local cellular and/or paracrine interactions critically control MSCs behavior. Yet, most of the scientific knowledge regarding the biology and therapeutic effect of MSCs originates from mechanistic in vitro studies where microenvironmental cues are hardly addressed. Therefore, manifestable changes in cell proliferation behavior and multilineage differentiation potential might be triggered that eventually compromise the translation of results to clinics. This thesis aims to address the complexity of MSCs interactions within the skeletal niche microenvironment in order to provide alternative methods to bypass the current MSCs in vitro culture limitations. Firstly, the influence of ECM-chemistry on MSCs behavior in vitro was explored by means of decellularized human bone models here established. Basal or osteogenic tailored cell-derived decellularized 2D matrices (dECM), proved to be suitable culture substrates for MSCs expansion by providing close-to-native cell-ECM interactions. Moreover, quantified morphological shape changes suggested a material osteo supportive potential, further functionally validated by observable spontaneous mineralization of MSCs. Aiming to identify novel intrinsic ECM regulatory features specific to the skeletal niche, 3D decellularized human trabecular bone scaffolds (dBone) were additionally developed and comprehensively characterized. Remarkably, the MSCs cultured on dBone scaffolds exhibit upregulation of genes associated with stemness as well as niche-related protein expression advocating for the conservation of the na{\"i}ve MSCs phenotype. vi On the other hand, the effect of biomimetic mineralization on MSCs osteogenic lineage differentiation potential was further addressed by hydroxyapatite functionalization of type-I collagen in presence of magnesium. Mineralized scaffolds exhibited higher cell viability and a clear trend of osteogenic genes upregulation comparing with non-mineralized scaffolds. Lastly, in order to mimic the complexity of the native MSCs environment, a dynamic culture system was applied to the 3D decellularized bone constructs, previously studied in single static conditions. Mechanical stimuli generated by (1) continuous perfusion of cell culture medium at 1.7 mL/min and (2) compressive stress from 10\% uniaxial load at 1 Hz, resulted in an improved cell repopulation within the scaffold and boosting of de novo ECM production. The stress-induced gene expression pattern suggested early MSCs commitment towards the osteogenic lineage mediated by integrin matrix adhesion, therefore further corroborating the recapitulation of a reliable in vitro bone niche model in dBone scaffolds. To conclude, the here developed in vitro models provide a progressive increased biomimicking complexity through which significant insights regarding MSC interactions with microenvironmental features in the skeletal niche can be obtained, thus surely paving the way for a better understanding of the role of MSCs in bone homeostasis and regeneration.}, language = {en} }