@phdthesis{Kerner2021, author = {Kerner, Florian Tobias}, title = {Reactions of rhodium(I) with diynes and studies of the photophysical behavior of the luminescent products}, doi = {10.25972/OPUS-20910}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-209107}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Chapter 1 deals with the reaction of [Rh(acac)(PMe3)2] with para-substituted 1,4-diphenylbuta-1,3-diynes at room temperature, in which a complex containing a bidentate organic fulvene moiety, composed of two diynes, σ-bound to the rhodium center is formed in an all-carbon [3+2] type cyclization reaction. In addition, a complex containing an organic indene moiety, composed of three diynes, attached to the rhodium center in a bis-σ-manner is formed in a [3+2+3] cyclization process. Reactions at 100 °C reveal that the third diyne inserts between the rhodium center and the bis-σ-bound organic fulvene moiety. Furthermore, the formation of a 2,5- and a 2,4-bis(arylethynyl)rhodacyclopentadiene is observed. The unique [3+2] cyclization product was used for the synthesis of a highly conjugated organic molecule, which is hard to access or even inaccessible by conventional methods. Thus, at elevated temperatures, reaction of the [3+2] product with para-tolyl isocyanate led to the formation of a purple organic compound containing the organic fulvene structure and one equivalent of para-tolyl isocyanate. The blue and green [3+2+3] complexes show an unusually broad absorption from 500 - 1000 nm with extinction coefficients ε of up to 11000 M-1 cm-1. The purple organic molecule shows an absorption spectrum similar to those of known diketopyrrolopyrroles. Additionally, the reaction of [Rh(acac)(PMe3)2] with para-tolyl isocyanate was investigated. A cis-phosphine complex of the form cis-[Rh(acac)(PMe3)2(isocyanate)2] with an isocyanate dimer bound to the rhodium center by one carbon and one oxygen atom was isolated. Replacing the trimethylphosphine ligands in [Rh(acac)(PMe3)2] with the stronger σ-donating NHC ligand Me2Im (1,3-dimethylimidazolin-2-ylidene), again, drastically alters the reaction. Similar [3+2] and [3+2+3] products to those discussed above could not be unambiguously assigned, but cis- and trans-π-complexes, which are in an equilibrium with the two starting materials, were formed. Chapters 2 is about the influence of the backbone of the α,ω-diynes on the formation and photophysical properties of 2,5-bis(aryl)rhodacyclopentadienes. Therefore, different α,ω-diynes were reacted with [Rh(acac)(PMe3)2] and [Rh(acac)(P(p-tolyl)3)2] in equimolar amounts. In general, a faster consumption of the rhodium(I) starting material is observed while using preorganized α,ω-diynes with electron withdrawing substituents in the backbone. The isolated PMe3-substituted rhodacyclopentadienes exhibit fluorescence, despite the presence of the heavy atom rhodium, with lifetimes τF of < 1 ns and photoluminescence quantum yields Φ of < 0.01 as in previously reported P(p-tolyl)-substituted 2,5-bis(arylethynyl)rhodacyclopentadienes. However, an isolated P(p-tolyl)-substituted 2,5-bis(aryl)rhodacyclopentadiene shows multiple lifetimes and different absorption and excitation spectra leading to the conclusion that different species may be present. Reaction of [Rh(acac)(Me2Im)2] with dimethyl 4,4'-(naphthalene-1,8-diylbis(ethyne-2,1-diyl))dibenzoate, results in the formation of a mixture trans- and cis-NHC-substituted 2,5-bis(aryl)rhodacyclopentadienes. In chapter 3 the reaction of various acac- and diethyldithiocarbamate-substituted rhodium(I) catalysts bearing (chelating)phosphines with α,ω-bis(arylethynyl)alkanes (α,ω-diynes), yielding luminescent dimers and trimers, is described. The photophysical properties of dimers and trimers of the α,ω-diynes were investigated and compared to para-terphenyl, showing a lower quantum yield and a larger apparent Stokes shift. Furthermore, a bimetallic rhodium(I) complex of the form [Rh2(ox)(P(p-tolyl)3)4] (ox: oxalate) was reacted with a CO2Me-substituted α,ω-tetrayne forming a complex in which only one rhodium(I) center reacts with the α,ω-tetrayne. The photophysical properties of this mixed rhodium(I)/(III) species shows only negligible differences compared to the P(p-tolyl)- and CO2Me-substituted 2,5-bis(arylethynyl)rhodacyclopentadiene, previously synthesized by Marder and co-workers.}, subject = {{\"U}bergangsmetallkomplexe}, language = {en} } @phdthesis{Yang2021, author = {Yang, Tao}, title = {Functional insights into the role of a bacterial virulence factor and a host factor in Neisseria gonorrhoeae infection}, doi = {10.25972/OPUS-20895}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-208959}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Neisseria gonorrhoeae (GC) is a human specific pathogenic bacterium. Currently, N. gonorrhoeae developed resistance to virtually all the available antibiotics used for treatment. N. gonorrhoeae starts infection by colonizing the cell surface, followed by invasion of the host cell, intracellular persistence, transcytosis and exit into the subepithelial space. Subepithelial bacteria can reach the bloodstream and disseminate to other tissues causing systemic infections, which leads to serious conditions such as arthritis and pneumonia. A number of studies have well established the host-pathogen interactions during the initial adherence and invasion steps. However, the mechanism of intracellular survival and traversal is poorly understood so far. Hence, identification of novel bacterial virulence factors and host factors involved in the host-pathogen interaction is a crucial step in understanding disease development and uncovering novel therapeutic approaches. Besides, most of the previous studies about N. gonorrhoeae were performed in the conventional cell culture. Although they have provided insights into host-pathogen interactions, much information about the native infection microenvironment, such as cell polarization and barrier function, is still missing. This work focused on determining the function of novel bacterial virulence factor NGFG_01605 and host factor (FLCN) in gonococcal infection. NGFG_01605 was identified by Tn5 transposon library screening. It is a putative U32 protease. Unlike other proteins in this family, it is not secreted and has no ex vivo protease activity. NGFG_01605 knockout decreases gonococcal survival in the epithelial cell. 3D models based on T84 cell was developed for the bacterial transmigration assay. NGFG_01605 knockout does not affect gonococcal transmigration. The novel host factor FLCN was identified by shRNA library screening in search for factors that affected gonococcal adherence and/or internalization. We discovered that FLCN did not affect N. gonorrhoeae adherence and invasion but was essential for bacterial survival. Since programmed cell death is a host defence mechanism against intracellular pathogens, we further explored apoptosis and autophagy upon gonococcal infection and determined that FLCN did not affect apoptosis but inhibited autophagy. Moreover, we found that FLCN inhibited the expression of E-cadherin. Knockdown of E- cadherin decreased the autophagy flux and supported N. gonorrhoeae survival. Both non-polarized and polarized cells are present in the cervix, and additionally, E-cadherin represents different polarization properties on these different cells. Therefore, we established 3-D models to better understand the functions of FLCN. We discovered that FLCN was critical for N. gonorrhoeae survival in the 3-D environment as well, but not through inhibiting autophagy. Furthermore, FLCN inhibits the E-cadherin expression and disturbs its polarization in the 3-D models. Since N. gonorrhoeae can cross the epithelial cell barriers through both cell-cell junctions and transcellular migration, we further explored the roles FLCN and E-cadherin played in transmigration. FLCN delayed N. gonorrhoeae transmigration, whereas the knockdown of E-cadherin increased N. gonorrhoeae transmigration. In summary, we revealed roles of the NGFG_01605 and FLCN-E-cadherin axis play in N. gonorrhoeae infection, particularly in relation to intracellular survival and transmigration. This is also the first study that connects FLCN and human-specific pathogen infection.}, language = {en} } @phdthesis{Klein2021, author = {Klein, Thomas}, title = {Establishing an in vitro disease model for Fabry Disease using patient specific induced pluripotent stem cell-derived sensory neurons}, doi = {10.25972/OPUS-19970}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199705}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Fabry disease (FD) is an X-linked lysosomal storage disorder caused by deficiency of the α-galactosidase A (GLA), leading to intracellular accumulations of globotriaosylceramide (Gb3). Acral burning pain, which can be triggered by heat, fever or physical activity is an early hallmark of FD and greatly reduces patients' quality of life. The pathophysiology of FD pain is unknown and research is hindered by the limited in vivo availability of suitable human biomaterial. To overcome this obstacle, we generated induced pluripotent stem cells (iPSC) from one female and two male patients with a differing pain phenotype, and developed a refined differentiation protocol for sensory neurons to increase reliability and survival of these neurons, serving as an in vitro disease model. Neurons were characterized for the correct neuronal subtype using immunocytochemistry, gene expression analysis, and for their functionality using electrophysiological measurements. iPSC and sensory neurons from the male patients showed Gb3 accumulations mimicking the disease phenotype, whereas no Gb3 depositions were detected in sensory neurons derived from the female cell line, likely caused by a skewed X-chromosomal inactivation in favor of healthy GLA. Using super-resolution imaging techniques we showed that Gb3 is localized in neuronal lysosomes of male patients and in a first experiment using dSTORM microscopy we were able to visualize the neuronal membrane in great detail. To test our disease model, we treated the neurons with enzyme replacement therapy (ERT) and analyzed its effect on the cellular Gb3 load, which was reduced in the male FD-lines, compared to non-treated cells. We also identified time-dependent differences of Gb3 accumulations, of which some seemed to be resistant to ERT. We also used confocal Ca2+ imaging to investigate spontaneous neuronal network activity, but analysis of the dataset proofed to be difficult, nonetheless showing a high potential for further investigations. We revealed that neurons from a patient with pain pain are more easily excitable, compared to cells from a patient without pain and a healthy control. We provide evidence for the potential of patient-specific iPSC to generate a neuronal in vitro disease model, showing the typical molecular FD phenotype, responding to treatment, and pointing towards underlying electrophysiological mechanisms causing different pain phenotypes. Our sensory neurons are suitable for state-of-the-art microscopy techniques, opening new possibilities for an in-depth analysis of cellular changes, caused by pathological Gb3 accumulations. Taken together, our system can easily be used to investigate the effect of the different mutations of GLA on a functional and a molecular level in affected neurons.}, subject = {Induzierte pluripotente Stammzelle}, language = {en} } @phdthesis{Vollmuth2021, author = {Vollmuth, Nadine}, title = {Role of the proto-oncogene c-Myc in the development of Chlamydia trachomatis}, doi = {10.25972/OPUS-20365}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-203655}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Chlamydia trachomatis, an obligate intracellular human pathogen, is the world's leading cause of infection related blindness and the most common, bacterial sexually transmitted disease. In order to establish an optimal replicative niche, the pathogen extensively interferes with the physiology of the host cell. Chlamydia switches in its complex developmental cycle between the infectious non-replicative elementary bodies (EBs) and the non-infectious replicative reticulate bodies (RBs). The transformation to RBs, shortly after entering a host cell, is a crucial process in infection to start chlamydial replication. Currently it is unknown how the transition from EBs to RBs is initiated. In this thesis, we could show that, in an axenic media approach, L glutamine uptake by the pathogen is crucial to initiate the EB to RB transition. L-glutamine is converted to amino acids which are used by the bacteria to synthesize peptidoglycan. Peptidoglycan inturn is believed to function in separating dividing Chlamydia. The glutamine metabolism is reprogrammed in infected cells in a c-Myc-dependent manner, in order to accomplish the increased requirement for L-glutamine. Upon a chlamydial infection, the proto-oncogene c-Myc gets upregulated to promote host cell glutaminolysis via glutaminase GLS1 and the L-glutamine transporter SLC1A5/ASCT2. Interference with this metabolic reprogramming leads to limited growth of C. trachomatis. Besides the active infection, Chlamydia can persist over a long period of time within the host cell whereby chronic and recurrent infections establish. C. trachomatis acquire a persistent state during an immune attack in response to elevated interferon-γ (IFN-γ) levels. It has been shown that IFN-γ activates the catabolic depletion of L-tryptophan via indoleamine 2,3-dioxygenase (IDO), resulting in the formation of non-infectious atypical chlamydial forms. In this thesis, we could show that IFN-γ depletes the key metabolic regulator c-Myc, which has been demonstrated to be a prerequisite for chlamydial development and growth, in a STAT1-dependent manner. Moreover, metabolic analyses revealed that the pathogen de routs the host cell TCA cycle to enrich pyrimidine biosynthesis. Supplementing pyrimidines or a-ketoglutarate helps the bacteria to partially overcome the persistent state. Together, the results indicate a central role of c-Myc induced host glutamine metabolism reprogramming and L-glutamine for the development of C. trachomatis, which may provide a basis for anti-infectious strategies. Furthermore, they challenge the longstanding hypothesis of L-tryptophan shortage as the sole reason for IFN-γ induced persistence and suggest a pivotal role of c-Myc in the control of the C. trachomatis dormancy.}, language = {en} } @phdthesis{Konrad2021, author = {Konrad, Charlotte}, title = {Biochemische Charakterisierung von cAMP-Gradienten - Einfluss von Phosphodiesterasen}, doi = {10.25972/OPUS-20572}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-205728}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Cyclisches Adenosinmonophosphat ist ein ubiquit{\"a}rer zweiter Botenstoff zahlreicher Signalwege im menschlichen K{\"o}rper. Auf eine Vielzahl verschiedenster extrazellul{\"a}rer Signale folgt jedoch eine Erh{\"o}hung desselben intrazellul{\"a}ren Botenstoffs - cAMP. Nichtsdestotrotz schafft es die Zelle, Signalspezifit{\"a}t aufrecht zu erhalten. Ein anerkanntes, wenn auch bisher unverstandenes Modell, um dieses zu erm{\"o}glichen, ist das Prinzip der Kompartimentierung. Die Zelle besitzt demnach Areale verschieden hoher cAMP-Konzentrationen, welche lokal begrenzt einzelne Signalkaskaden beeinflussen und somit eine differenzierte Signal{\"u}bertragung erm{\"o}glichen. Eine m{\"o}gliche Ursache f{\"u}r die Ausbildung solcher Bereiche geringerer cAMP- Konzentrationen (hier als Dom{\"a}nen bezeichnet), ist die hydrolytische Aktivit{\"a}t von Phosphodiesterasen (PDEs), welche als einzige Enzyme die F{\"a}higkeiten besitzen, cAMP zu degradieren. In dieser Arbeit wird der Einfluss der cAMP-Hydrolyse verschiedener PDEs auf die Gr{\"o}ße dieser Dom{\"a}nen evaluiert und mit denen der PDE4A1 verglichen, welche bereits durch unsere Arbeitsgruppe aufgrund ihrer Gr{\"o}ße als Nanodom{\"a}nen definiert wurden. Der Fokus wird dabei auf den Einfluss von kinetischen Eigenschaften der Phosphodiesterasen gelegt. So werden eine PDE mit hoher Umsatzgeschwindigkeit (PDE2A3) und eine PDE mit hoher Substrataffinit{\"a}t (PDE8A1) verglichen. Mithilfe sogenannter Linker, Abstandshaltern definierter L{\"a}nge, werden zus{\"a}tzlich die Nanodom{\"a}nen ausgemessen, um einen direkten Zusammenhang zwischen Gr{\"o}ße und kinetischer Eigenschaft anzugeben. Die Zusammenschau der Ergebnisse zeigt, dass die maximale Umsatzgeschwindigkeit der Phosphodiesterasen direkt mit der Gr{\"o}ße der Nanodom{\"a}nen korreliert. Durch den unmittelbaren Vergleich der gesamten PDE mit ihrer katalytischen Dom{\"a}ne wird zus{\"a}tzlich der Einfluss von regulatorischen Dom{\"a}nen evaluiert. Es wird gezeigt, dass diese cAMP-Gradienten modulieren k{\"o}nnen. Bei der PDE2A3 geschieht die Modulation u.a. durch Stimulation mit cGMP, welche h{\"o}chstwahrscheinlich dosisabh{\"a}ngig ist und somit graduell verl{\"a}uft. Hiermit pr{\"a}sentieren sich die Dom{\"a}nen als dynamische Bereiche, d.h. sie k{\"o}nnen in ihrer Auspr{\"a}gung reguliert werden. In dieser Arbeit wird die Hypothese best{\"a}tigt, dass Phosphodiesterasen eine wichtige Rolle in der Kompartimentierung von cAMP spielen, die Gruppe jedoch inhomogener ist, als bislang angenommen. Die Gradienten-Bildung l{\"a}sst sich nicht bei jeder Phosphodiesterase darstellen (PDE8A1). Einige Phosphodiesterasen (PDE2A3) jedoch bilden Kompartimente, die durch externe Stimuli in ihrer Gr{\"o}ße reguliert werden k{\"o}nnen. Die Arbeit legt den Grundstein zur breiteren Charakterisierung des spezifischen Einflusses weiterer PDEs auf cAMP-Kompartimentierung, welches nicht nur das Verst{\"a}ndnis der Kompartimentierungs-Strategien voranbringt, sondern auch essentiell f{\"u}r das Verst{\"a}ndnis der Pathophysiologie zahlreicher Krankheitsbilder, aber auch f{\"u}r das Verst{\"a}ndnis bereits angewandter aber auch potentiell neuer Medikamente ist.}, subject = {Cyclo-AMP}, language = {de} } @phdthesis{Mayer2021, author = {Mayer, Alexander E.}, title = {Protein kinase D3 signaling in the regulation of liver metabolism}, doi = {10.25972/OPUS-20797}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207978}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The liver plays a pivotal role in maintaining energy homeostasis. Hepatic carbohydrate and lipid metabolism are tightly regulated in order to adapt quickly to changes in nutrient availability. Postprandially, the liver lowers the blood glucose levels and stores nutrients in form of glycogen and triglycerides (TG). In contrast, upon fasting, the liver provides glucose, TG, and ketone bodies. However, obesity resulting from a discrepancy in food intake and energy expenditure leads to abnormal fat accumulation in the liver, which is associated with the development of hepatic insulin resistance, non-alcoholic fatty liver disease, and diabetes. In this context, hepatic insulin resistance is directly linked to the accumulation of diacylglycerol (DAG) in the liver. Besides being an intermediate product of TG synthesis, DAG serves as second messenger in response to G-protein coupled receptor signaling. Protein kinase D (PKD) family members are DAG effectors that integrate multiple metabolic inputs. However, the impact of PKD signaling on liver physiology has not been studied so far. In this thesis, PKD3 was identified as the predominantly expressed isoform in liver. Stimulation of primary hepatocytes with DAG as well as high-fat diet (HFD) feeding of mice led to an activation of PKD3, indicating its relevance during obesity. HFD-fed mice lacking PKD3 specifically in hepatocytes displayed significantly improved glucose tolerance and insulin sensitivity. However, at the same time, hepatic deletion of PKD3 in mice resulted in elevated liver weight as a consequence of increased hepatic lipid accumulation. Lack of PKD3 in hepatocytes promoted sterol regulatory element-binding protein (SREBP)-mediated de novo lipogenesis in vitro and in vivo, and thus increased hepatic triglyceride and cholesterol content. Furthermore, PKD3 suppressed the activation of SREBP by impairing the activity of the insulin effectors protein kinase B (AKT) and mechanistic target of rapamycin complexes (mTORC) 1 and 2. In contrast, liver-specific overexpression of constitutive active PKD3 promoted glucose intolerance and insulin resistance. Taken together, lack of PKD3 improves hepatic insulin sensitivity but promotes hepatic lipid accumulation. For this reason, manipulating PKD3 signaling might be a valid strategy to improve hepatic lipid content or insulin sensitivity. However, the exact molecular mechanism by which PKD3 regulates hepatocytes metabolism remains unclear. Unbiased proteomic approaches were performed in order to identify PKD3 phosphorylation targets. In this process, numerous potential targets of PKD3 were detected, which are implicated in different aspects of cellular metabolism. Among other hits, phenylalanine hydroxylase (PAH) was identified as a target of PKD3 in hepatocytes. PAH is the enzyme that is responsible for the conversion of phenylalanine to tyrosine. In fact, manipulation of PKD3 activity using genetic tools confirmed that PKD3 promotes PAH-dependent conversion of phenylalanine to tyrosine. Therefore, the data in this thesis suggests that PKD3 coordinates lipid and amino acid metabolism in the liver and contributes to the development of hepatic dysfunction.}, subject = {Metabolismus}, language = {en} } @phdthesis{Herz2021, author = {Herz, Michaela}, title = {Genome wide expression profiling of Echinococcus multilocularis}, doi = {10.25972/OPUS-20380}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-203802}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Alveolar echinococcosis, which is caused by the metacestode stage of the small fox tapeworm Echinococcus multilocularis, is a severe zoonotic disease with limited treatment options. For a better understanding of cestode biology the genome of E. multilocularis, together with other cestode genomes, was sequenced previously. While a few studies were undertaken to explore the E. multilocularis transcriptome, a comprehensive exploration of global transcription profiles throughout life cycle stages is lacking. This work represents the so far most comprehensive analysis of the E. multilocularis transcriptome. Using RNA-Seq information from different life cycle stages and experimental conditions in three biological replicates, transcriptional differences were qualitatively and quantitatively explored. The analyzed datasets are based on samples of metacestodes cultivated under aerobic and anaerobic conditions as well as metacestodes obtained directly from infected jirds. Other samples are stem cell cultures at three different time points of development as well as non-activated and activated protoscoleces, the larval stage that can develop into adult worms. In addition, two datasets of metacestodes under experimental conditions suitable for the detection of genes that are expressed in stem cells, the so-called germinative cells, and one dataset from a siRNA experiment were analyzed. Analysis of these datasets led to expression profiles for all annotated genes, including genes that are expressed in the tegument of metacestodes and play a role in host-parasite interactions and modulation of the host's immune response. Gene expression profiles provide also further information about genes that might be responsible for the infiltrative growth of the parasite in the liver. Furthermore, germinative cell-specific genes were identified. Germinative cells are the only proliferating cells in E. multilocularis and therefore of utmost importance for the development and growth of the parasite. Using a combination of germinative cell depletion and enrichment methods, genes with specific expression in germinative cells were identified. As expected, many of these genes are involved in translation, cell cycle regulation or DNA replication and repair. Also identified were transcription factors, many of which are involved in cell fate commitment. As an example, the gene encoding the telomerase reverse transcriptase (TERT) was studied further. Expression of E. multilocularis tert in germinative cells was confirmed experimentally. Cell culture experiments indicate that TERT is required for proliferation and development of the parasite, which makes TERT a potentially interesting drug target for chemotherapy of alveolar echinococcosis. Germinative cell specific genes in E. multilocularis also include genes of densoviral origin. More than 20 individual densovirus loci with information for non-structural and structural densovirus proteins were identified in the E. multilocularis genome. Densoviral elements were also detected in many other cestode genomes. Genomic integration of these elements suggests that densovirus-based vectors might be suitable tools for genetic manipulation of tapeworms. Interestingly, only three of more than 20 densovirus loci in the E. multilocularis genome are expressed. Since the canonical piRNA pathway is lacking in cestodes, this raises the question about potential silencing mechanisms. Exploration of RNA-Seq information indicated natural antisense transcripts as a potential gene regulation mechanism in E. multilocularis. Preliminary experiments further suggest DNA-methylation, which was previously shown to occur in platyhelminthes, as an interesting avenue to explore in future. The transcriptome datasets also contain information about genes that are expressed in differentiated cells, for example the serotonin transporter gene that is expressed in nerve cells. Cell culture experiments indicate that serotonin and serotonin transport play an important role in E. multilocularis proliferation, development and survival. Overall, this work provides a comprehensive transcription data atlas throughout the E. multilocularis life cycle. Identification of germinative cell-specific genes and genes important for host-parasite interactions will greatly facilitate future research. A global overview of gene expression profiles will also aide in the detection of suitable drug targets and the development of new chemotherapeutics against alveolar echinococcosis.}, subject = {Fuchsbandwurm}, language = {en} } @phdthesis{LiessneeEller2021, author = {Liess [n{\´e}e Eller], Anna Katharina Luise}, title = {Understanding the regulation of the ubiquitin-conjugating enzyme UBE2S}, doi = {10.25972/OPUS-20419}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204190}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The ubiquitination of proteins serves as molecular signal to control an enormous number of physiological processes and its dysregulation is connected to human diseases like cancer. The versatility of this signal stems from the diverse ways by which ubiquitin can be attached to its targets. Thus, specificity and tight regulation of the ubiquitination are pivotal requirements of ubiquitin signaling. Ubiquitin-conjugating enzymes (E2s) act at the heart of the ubiquitination cascade, transferring ubiquitin from a ubiquitin-activating enzyme (E1) to a ubiquitin ligase (E3) or substrate. When cooperating with a RING-type E3, ubiquitin-conjugating enzymes can determine linkage specificity in ubiquitin chain formation. Our understanding of the regulation of E2 activities is still limited at a structural level. The work described here identifies two regulation mechanisms in UBE2S, a cognate E2 of the human RING-type E3 anaphase-promoting complex/cyclosome (APC/C). UBE2S elongates ubiquitin chains on APC/C substrates in a Lys11 linkage-specific manner, thereby targeting these substrates for degradation and driving mitotic progression. In addition, UBE2S was found to have a role in DNA repair by enhancing non-homologous end-joining (NHEJ) and causing transcriptional arrest at DNA damage sites in homologous recombination (HR). Furthermore, UBE2S overexpression is a characteristic feature of many cancer types and is connected to poor prognosis and diminished response to therapy. The first regulatory mechanism uncovered in this thesis involves the intramolecular auto-ubiquitination of a particular lysine residue (Lys+5) close to the active site cysteine, presumably through conformational flexibility of the active site region. The Lys+5-linked ubiquitin molecule adopts a donor-like, 'closed' orientation towards UBE2S, thereby conferring auto-inhibition. Notably, Lys+5 is a major physiological ubiquitination site in ~25\% of the human E2 enzymes, thus providing regulatory opportunities beyond UBE2S. Besides the active, monomeric state and the auto-inhibited state caused by auto-ubiquitination, I discovered that UBE2S can adopt a dimeric state. The latter also provides an auto-inhibited state, in which ubiquitin transfer is blocked via the obstruction of donor binding. UBE2S dimerization is promoted by its unique C-terminal extension, suppresses auto-ubiquitination and thereby the proteasomal degradation of UBE2S. Taken together, the data provided in this thesis illustrate the intricate ways by which UBE2S activity is fine-tuned and the notion that structurally diverse mechanisms have evolved to restrict the first step in the catalytic cycle of E2 enzymes.}, subject = {E2}, language = {en} } @phdthesis{Dannhaeuser2021, author = {Dannh{\"a}user, Sven}, title = {Function of the Drosophila adhesion-GPCR Latrophilin/CIRL in nociception and neuropathy}, doi = {10.25972/OPUS-20158}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-201580}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Touch sensation is the ability to perceive mechanical cues which is required for essential behaviors. These encompass the avoidance of tissue damage, environmental perception, and social interaction but also proprioception and hearing. Therefore research on receptors that convert mechanical stimuli into electrical signals in sensory neurons remains a topical research focus. However, the underlying molecular mechanisms for mechano-metabotropic signal transduction are largely unknown, despite the vital role of mechanosensation in all corners of physiology. Being a large family with over 30 mammalian members, adhesion-type G protein-coupled receptors (aGPCRs) operate in a vast range of physiological processes. Correspondingly, diverse human diseases, such as developmental disorders, defects of the nervous system, allergies and cancer are associated with these receptor family. Several aGPCRs have recently been linked to mechanosensitive functions suggesting, that processing of mechanical stimuli may be a common feature of this receptor family - not only in classical mechanosensory structures. This project employed Drosophila melanogaster as the candidate to analyze the aGPCR Latrophilin/dCIRL function in mechanical nociception in vivo. To this end, we focused on larval sensory neurons and investigated molecular mechanisms of dCIRL activity using noxious mechanical stimuli in combination with optogenetic tools to manipulate second messenger pathways. In addition, we made use of a neuropathy model to test for an involvement of aGPCR signaling in the malfunctioning peripheral nervous system. To do so, this study investigated and characterized nocifensive behavior in dCirl null mutants (dCirlKO) and employed genetically targeted RNA-interference (RNAi) to cell-specifically manipulate nociceptive function. The results revealed that dCirl is transcribed in type II class IV peripheral sensory neurons - a cell type that is structurally similar to mammalian nociceptors and detects different nociceptive sensory modalities. Furthermore, dCirlKO larvae showed increased nocifensive behavior which can be rescued in cell specific reexpression experiments. Expression of bPAC (bacterial photoactivatable adenylate cyclase) in these nociceptive neurons enabled us to investigate an intracellular signaling cascade of dCIRL function provoked by light-induced elevation of cAMP. Here, the findings demonstrated that dCIRL operates as a down-regulator of nocifensive behavior by modulating nociceptive neurons. Given the clinical relevance of this results, dCirl function was tested in a chemically induced neuropathy model where it was shown that cell specific overexpression of dCirl rescued nocifensive behavior but not nociceptor morphology.}, subject = {Drosophila}, language = {en} } @phdthesis{Geiger2021, author = {Geiger, Ute}, title = {Erfassung der intraoperativen Ankopplungseffizienz mittels evozierten Potentialen bei mit Mittelohrimplantat versorgten Patienten}, doi = {10.25972/OPUS-20106}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-201068}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Patienten mit leicht bis hochgradigen Schallleitungs-, Schallempfindungs- und kombinierten Schwerh{\"o}rigkeiten werden routinem{\"a}ßig nach erfolglosem H{\"o}rger{\"a}tetrageversuch mit aktiven Mittelohrimplantaten versorgt. Aktive Mittelohrimplantate k{\"o}nnen an verschiedene Strukturen des Mittelohrs angekoppelt werden. Der Ort der Ankopplung ist abh{\"a}ngig vom H{\"o}rverlust und der individuellen Physiologie des Mittelohres. Die H{\"o}rverbesserung ist dabei stark von der Kopplungseffizienz des Implantatwandlers an die Mittelohrstruktur abh{\"a}ngig. Aktuell gibt es keine zufriedenstellende M{\"o}glichkeit die Kopplungseffizienz intraoperativ zu bestimmen. Daher wird eine objektive Methode eingef{\"u}hrt, um intraoperativ auditorische Hirnstammantworten (BERAs) bei Stimulation {\"u}ber das Implantat abzuleiten. Die Vibrant Soundbrigde® (VSB) wird dabei mit einem Drahtlos{\"u}bertr{\"a}ger (miniTEK, Signia GmbH, Erlangen) und der Carina®-Aktuator {\"u}ber ein Audiokabel mit der BERA-Anlage verbunden. Die BERA-Anlage {\"u}bertr{\"a}gt die Stimuli direkt an das Implantat, welches an die Mittelohrstruktur angekoppelt ist. Die BERA-Antworten werden bei der VSB durch einen optimierten VSB-CE-Chirp und beim Carina®-System durch den Standard CE-Chirp evoziert, beginnend bei Pegeln oberhalb der Knochenleitungsh{\"o}rschwelle bis unter die Registrierungsschwelle. Diese Methode kann die intraoperative Integrit{\"a}t des Implantats sowie die Kopplungseffizienz bestimmen, um eine Aussage {\"u}ber den zu erwartenden H{\"o}rerfolg treffen zu k{\"o}nnen. Dar{\"u}ber hinaus kann die versorgte H{\"o}rschwelle verwendet werden, um die Anpassung bei Kindern oder schwierigen F{\"a}llen zu unterst{\"u}tzen und um eine H{\"o}rverschlechterung {\"u}ber die Zeit zu erfassen. Zusammenfassend, konnte eine Methode zur Bestimmung der intraoperativen Kopplungseffizienz w{\"a}hrend der Implantation von VSBs und Carinas® etabliert werden. Dar{\"u}ber hinaus werden intraoperative BERA-Daten von 30 VSB- und 10-Carina®-Patienten sowie deren H{\"o}rergebnisse gezeigt.}, subject = {Mittelohrimplantat}, language = {de} } @phdthesis{Gruendl2021, author = {Gr{\"u}ndl, Marco}, title = {Biochemical characterization of the MMB-Hippo crosstalk and its physiological relevance for heart development}, doi = {10.25972/OPUS-21332}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-213328}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The Myb-MuvB (MMB) complex plays an essential role in the time-dependent transcriptional activation of mitotic genes. Recently, our laboratory identified a novel crosstalk between the MMB-complex and YAP, the transcriptional coactivator of the Hippo pathway, to coregulate a subset of mitotic genes (Pattschull et al., 2019). Several genetic studies have shown that the Hippo-YAP pathway is essential to drive cardiomyocyte proliferation during cardiac development (von Gise et al., 2012; Heallen et al., 2011; Xin et al., 2011). However, the exact mechanisms of how YAP activates proliferation of cardiomyocytes is not known. This doctoral thesis addresses the physiological role of the MMB-Hippo crosstalk within the heart and characterizes the YAP-B-MYB interaction with the overall aim to identify a potent inhibitor of YAP. The results reported in this thesis indicate that complete loss of the MMB scaffold protein LIN9 in heart progenitor cells results in thinning of ventricular walls, reduced cardiomyocyte proliferation and early embryonic lethality. Moreover, genetic experiments using mice deficient in SAV1, a core component of the Hippo pathway, and LIN9-deficient mice revealed that the correct function of the MMB complex is critical for proliferation of cardiomyocytes due to Hippo-deficiency. Whole genome transcriptome profiling as well as genome wide binding studies identified a subset of Hippo-regulated cell cycle genes as direct targets of MMB. By proximity ligation assay (PLA), YAP and B-MYB were discovered to interact in embryonal cardiomyocytes. Biochemical approaches, such as co-immunoprecipitation assays, GST-pulldown assays, and µSPOT-based peptide arrays were employed to characterize the YAP-B-MYB interaction. Here, a PY motif within the N-terminus of B-MYB was found to directly interact with the YAP WW-domains. Consequently, the YAP WW-domains were important for the ability of YAP to drive proliferation in cardiomyocytes and to activate MMB target genes in differentiated C2C12 cells. The biochemical information obtained from the interaction studies was utilized to develop a novel competitive inhibitor of YAP called MY-COMP (Myb-YAP competition). In MY-COMP, the protein fragment of B-MYB containing the YAP binding domain is fused to a nuclear localization signal. Co-immunoprecipitation studies as well as PLA revealed that the YAP-B-MYB interaction is robustly blocked by expression of MY-COMP. Adenoviral overexpression of MY-COMP in embryonal cardiomyocytes suppressed entry into mitosis and blocked the pro-proliferative function of YAP. Strikingly, characterization of the cellular phenotype showed that ectopic expression of MY-COMP led to growth defects, nuclear abnormalities and polyploidization in HeLa cells. Taken together, the results of this thesis reveal the mechanism of the crosstalk between the Hippo signaling pathway and the MMB complex in the heart and form the basis for interference with the oncogenic activity of the Hippo coactivator YAP.}, subject = {Zellzyklus}, language = {en} } @phdthesis{vonMeyer2021, author = {von Meyer, Katharina}, title = {Molecular characterization of defensin-like proteins in the fertilization process of \(Nicotiana\) \(tabacum\)}, doi = {10.25972/OPUS-19214}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192141}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Flowering plants or angiosperms have developed a fertilization mechanism that involves a female egg and central cell, as well as two male sperm cells. A male gametophyte carries the two non-mobile sperm cells, as they need to be delivered to the female gametophyte, the embryo sac. This transport is initiated by a pollen grain that is transmitted onto the stigma of the angiosperm flower. Here it hydrates, germinates, and forms a pollen tube, which navigates through the female plant tissue towards the ovary. The pollen tube grows into an ovule through the funiculus and into one of the two synergid cells. There, growth arrests and the pollen tube bursts, releasing the two sperm cells. One of the sperm cells fuses with the egg cell, giving rise to the embryo, the other one fuses with the central cell, developing into the endosperm, which nourishes the embryo during its development. After a successful fertilization, each ovule develops into a seed and a fruit is formed. This usually consists of several fertilized ovules. The directional growth of the pollen tube through the maternal tissues towards the ovule, as well as sperm cell release, requires a complex communication between the male and the female gametophyte to achieve reproductive success. Over the last years many studies have been performed, contributing to the understanding of cell-cell communication events between the two gametophytes, nevertheless still many aspects remain to be elucidated. This work focused on two topics: i.) Analysis of biological processes affected by pollination and fertilization in the Nicotiana tabacum flower and identification of cysteine rich proteins (CRPs) expressed via isolating and sequencing RNA from the tissue and analyzing the resulting data. ii.) Identification of the defensin-like protein (DEFL) responsible for pollen tube attraction towards the ovule in tobacco. First, tissue samples of pollen tubes and mature ovules were taken at different stages of the fertilization process (unpollinated ovules, after pollination, and after fertilization of the flower). RNA was then isolated and a transcriptome was created. The resulting reads were assembled and transcriptome data analysis was performed. Results showed that pollen tubes and mature ovules differ severely from each other, only sharing about 23 \% of the transcripts, indicating that different biological processes are dominant in the two gametophytes. A MapMan analysis revealed that in the pollen tube the most relevant biological processes are related to the cell wall, signaling, and transport, which supports the fact that the pollen tube grows fast to reach the ovule. On the other hand, in the ovule the values of highest significance were obtained for processes related to protein synthesis and regulation. Upon comparing the transcripts in the ovule before and after pollination, as well as after fertilization, it showed that pollination of the flower causes a bigger alteration in the ovule on the transcriptomic level compared to the step from pollination to fertilization. A total of 953 CRPs were identified in Nicotiana tabacum, including 116 DEFLs. Among those, the peptide responsible for pollen tube attraction towards the ovule should be found. Based on in-silico analysis four candidate peptides were chosen for further analysis, two of which had increased expression levels upon pollination and fertilization and the other two displayed an opposite expression. Quantitative real time PCR experiments were performed for the candidates, confirming the in-silico data in vivo. The candidate transcripts were then expressed in a cell free system and applied to pollen tubes in order to test their effect on the growing cells. Positive controls were used, where pollen tubes grew towards freshly dissected ovules. The four candidates did not provoke a pollen tube attraction towards the peptide, leaving open the chance to work on the 112 remaining DEFLs in the future.}, subject = {Samenpflanzen}, language = {en} } @phdthesis{Becker2021, author = {Becker, Isabelle Carlotta}, title = {The role of megakaryocytes and platelets in vascular and osteogenic development}, doi = {10.25972/OPUS-21024}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-210241}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Platelets, small anucleate cell fragments in the blood stream, derive from large precursor cells, so-called megakaryocytes (MK) residing in the bone marrow (BM). In addition to their role in wound healing, platelets have been shown to play a significant role during inflammatory bleeding. Above all, the immunoreceptor tyrosine-based activation motif (ITAM) receptors GPVI as well as CLEC-2 have been identified as main regulators of vascular integrity. In addition to ITAM-bearing receptors, our group identified GPV as another potent regulator of hemostasis and thrombosis. Surprisingly, concomitant lack of GPV and CLEC-2 deteriorated blood-lymphatic misconnections observed in Clec2-/- mice resulting in severe edema formation and intestinal inflammation. Analysis of lymphatic and vascular development in embryonic mesenteries revealed severely defective blood-lymph-vessel separation, which translated into thrombocytopenia and increased vascular permeability due to reduced tight junction density in mesenteric blood vessels and consequent leakage of blood into the peritoneal cavity. Recently, platelet granule release has been proposed to ameliorate the progression of retinopathy of prematurity (ROP), a fatal disease in newborns leading to retinal degradation. The mechanisms governing platelet activation in this process remained elusive nonetheless, which prompted us to investigate a possible role of ITAM signaling. In the second part of this thesis, granule release during ROP was shown to be GPVI- and partly CLEC-2-triggered since blockade or loss of these receptors markedly deteriorated ROP progression. Proplatelet formation from MKs is highly dependent on a functional microtubule and actin cytoskeleton, the latter of which is regulated by several actin-monomer binding proteins including Cofilin1 and Twinfilin1 that have been associated with actin-severing at pointed ends. In the present study, a redundancy between both proteins especially important for the guided release of proplatelets into the bloodstream was identified, since deficiency in both proteins markedly impaired MK functionality mainly due to altered actin-microtubule crosstalk. Besides ITAM-triggered activation, platelets and MKs are dependent on inhibitory receptors, which prevent overshooting activation. We here identified macrothrombocytopenic mice with a mutation within Mpig6b encoding the ITIM-bearing receptor G6b-B. G6b-B-mutant mice developed a severe myelofibrosis associated with sex-specific bone remodeling defects resulting in osteosclerosis and -porosis in female mice. Moreover, G6b-B was shown to be indispensable for MK maturation as verified by a significant reduction in MK-specific gene expression in G6b-B-mutant MKs due to reduced GATA-1 activity.}, subject = {Megakaryozyt}, language = {en} } @phdthesis{Lange2021, author = {Lange, Manuel}, title = {Mutanten im RES-Oxylipin Signalweg von \(Arabidopsis\) \(thaliana\)}, doi = {10.25972/OPUS-16608}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-166085}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Reaktive elektrophile Spezies-Oxylipine (RES-Oxylipine) finden sich in Pflanzen- und Tierzellen und zeichnen sich durch eine f{\"u}r sie typische Anordnung von Atomen aus: einer α,β unges{\"a}ttigten Carbonyl Gruppe. In Pflanzenzellen geh{\"o}ren unter anderem 2-(E)-Hexenal und die Vorstufe der Jasmons{\"a}ure 12-Oxophytodiens{\"a}ure (OPDA) zu den RES-Oxylipinen, in Tierzellen z.B. Prostaglandin A1 (PGA). RES-Oxylipine {\"u}ben Signalfunktionen aus, wie dies in Pflanzenzellen funktioniert ist jedoch noch nicht bekannt. Ziel dieser Arbeit ist dabei einen m{\"o}glichen RES-Oxylipin Signalweg aufzukl{\"a}ren und die beteiligten Gene zu identifizieren. Es konnte aber gezeigt werden, dass die Expressionsrate von bestimmten Genen wie z.B. GST6 durch RES-Oxylipine spezifisch induziert wird. Zur Untersuchung des RES-Oxylipin Signalweges wurde der GST6 Promotor vor das Luciferase-Gen fusioniert, um so ein RES-Oxylipin spezifisches Reportersystem zu erhalten. Die Ethylmethansulfonat mutagenisierten Linien wurden auf ge{\"a}nderte Luciferase-Aktivit{\"a}t hin untersucht. Dabei wurden drei Mutanten isoliert, die in dieser Arbeit n{\"a}her untersucht wurden. Eine zeigte basal erh{\"o}hte Luciferase-Aktivit{\"a}t (constitutive overexpresser 3 = coe3) und die anderen beiden erniedrigte Luciferase-Aktivit{\"a}t nach PGA Gabe (non responsive 1 und 2 = nr1 und nr2). In dieser Arbeit konnte gezeigt werden, dass die Ph{\"a}notypen in allen 3 Mutanten rezessiv vererbt werden und die Mutanten nicht zueinander allel sind. Zudem war die ver{\"a}nderte Luciferase-Aktivit{\"a}t nicht durch ge{\"a}nderte Phytohormonspiegel oder durch Mutationen im GST6 Promotor erkl{\"a}rbar. Auf die Gabe von RES, wie Benzylisothiocyanat oder Sulforaphan, sowie auf endogene RES-Oxylipine, wie OPDA und Hexenal, reagierten die Mutanten auf {\"a}hnliche Weise, wie nach PGA Gabe. Weiterf{\"u}hrende Untersuchungen zeigten, dass sich die drei Mutanten stark voneinander unterschieden. Das Transkriptom kontrollbehandelter coe3 Pflanzen unterschied sich stark von dem der GST6::LUC Pflanzen. Die Mutante war trockenstressresistenter zudem war sie sensibler gegen{\"u}ber NaCl, was jedoch nicht von einer ver{\"a}nderten Reaktion auf Abscisins{\"a}ure herr{\"u}hrte. Des Weiteren war der Chlorophyllabbau bei dunkel inkubierten Bl{\"a}ttern geringer. Bei der Lokalisierung der Mutation, die noch nicht abgeschlossen ist, konnten Chromosom 2 und 5 als die wahrscheinlichsten Kandidaten ermittelt werden. Weitere Analysen sind n{\"o}tig um den Bereich weiter eingrenzen zu k{\"o}nnen. Die Mutante nr1, die sich durch verminderte Reaktion auf RES-Oxylipine auszeichnete, zeigte einen kleineren Wuchs und ein deutlich verz{\"o}gertes Bl{\"u}hen. Außerdem wies die Mutante erh{\"o}hte Argininspiegel in ihren Bl{\"a}ttern auf. Das Transkriptom unterschied sich sowohl bei kontrollbehandelten, als auch bei PGA behandelten nr1 Pflanzen massiv von denen der gleichbehandelten Kontrollen. Auch die nr1 schien trockenstressresistenter zu sein, sie war im Gegensatz zur coe3 aber robuster gegen{\"u}ber h{\"o}heren Konzentrationen an NaCl. Mit Hilfe eines „Next Generation Genome-Mappings" war es m{\"o}glich die Mutation am Ende von Chromosom 3 zu lokalisieren und auf f{\"u}nf m{\"o}gliche Gene einzugrenzen. Weitere Untersuchungen m{\"u}ssen nun kl{\"a}ren, welches dieser Gene urs{\"a}chlich f{\"u}r den Ph{\"a}notyp der ge{\"a}nderten Luciferase-Aktivit{\"a}t ist. Die zweite Mutante mit einer reduzierten Reaktion auf RES-Oxylipine war die nr2. {\"U}berraschender Weise unterschied sich das Transkriptom kontrollbehandelter nr2 Pflanzen deutlich st{\"a}rker von dem der gleichbehandelten GST6::LUC Pflanzen, als das nach PGA Gabe der Fall war. Sie reagierte nur mit sehr schwacher Luciferase-Aktivit{\"a}t auf Verwundung und war zudem deutlich sensibler gegen{\"u}ber Trockenheit. F{\"u}r eine zuk{\"u}nftige Lokalisation der urs{\"a}chlichen Mutation wurden entsprechende Kreuzungen durchgef{\"u}hrt aus deren Samen jederzeit mit einer Selektionierung begonnen werden kann. Mit dieser Arbeit konnte ein erster großer Schritt in Richtung Identifikation der, f{\"u}r die ge{\"a}nderte Luciferase-Aktivit{\"a}t, verantwortlichen Mutation gemacht werden, sowie erste Reaktionen der Mutanten auf abiotische Stressfaktoren untersucht werden. Somit ist man der Entdeckung von Signaltransduktionsfaktoren, die RES-Oxylipinabh{\"a}ngig reguliert werden, einen wichtigen Schritt n{\"a}her gekommen.}, subject = {Arabidopsis thaliana}, language = {de} } @phdthesis{Weigand2021, author = {Weigand, Isabel}, title = {Consequences of Protein Kinase A mutations in adrenocortical cells and tumours}, doi = {10.25972/OPUS-16064}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-160646}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Adrenal Cushing's Syndrome (CS) is a rare but life-threatening disease and therefore it is of great importance to understand the pathogenesis leading to adrenal CS. It is well accepted that Protein Kinase A (PKA) signalling mediates steroid secretion in adrenocortical cells. PKA is an inactive heterotetramer, consisting of two catalytic and two regulatory subunits. Upon cAMP binding to the regulatory subunits, the catalytic subunits are released and are able to phosphorylate their target proteins. Recently, activating somatic mutations affecting the catalytic subunit a of PKA have been identified in a sub-population of cortisol-producing adenomas (CPAs) associated with overt CS. Interestingly, the PKA regulatory subunit IIb has long been known to have significantly lower protein levels in a sub-group of CPAs compared to other adrenocortical tumours. Yet, it is unknown, why these CPAs lack the regulatory subunit IIb, neither are any functional consequences nor are the underlying regulation mechanisms leading to reduced RIIb levels known. The results obtained in this thesis show a clear connection between Ca mutations and reduced RIIb protein levels in CPAs but not in other adrenocortical tumours. Furthermore, a specific pattern of PKA subunit expression in the different zones of the normal adrenal gland is demonstrated. In addition, a Ca L206R mutation-mediated degradation of RIIb was observed in adrenocortical cells in vitro. RIIb degradation was found to be mediated by caspases and by performing mutagenesis experiments of the regulatory subunits IIb and Ia, S114 phosphorylation of RIIb was identified to make RIIb susceptible for degradation. LC-MS/MS revealed RIIb interaction partners to differ in the presence of either Ca WT and Ca L206R. These newly identified interaction partners are possibly involved in targeting RIIb to subcellular compartments or bringing it into spatial proximity of degrading enzymes. Furthermore, reducing RIIb protein levels in an in vitro system were shown to correlate with increased cortisol secretion also in the absence of PRKACA mutations. The inhibiting role of RIIb in cortisol secretion demonstrates a new function of this regulatory PKA subunit, improving the understanding of the complex regulation of PKA as key regulator in many cells.}, subject = {Cushing-Syndrom}, language = {en} } @phdthesis{Thomas2021, author = {Thomas, Sarah Katharina}, title = {Design of novel IL-4 antagonists employing site-specific chemical and biosynthetic glycosylation}, doi = {10.25972/OPUS-17517}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-175172}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The cytokines interleukin 4 (IL-4) and IL-13 are important mediators in the humoral immune response and play a crucial role in the pathogenesis of chronic inflammatory diseases, such as asthma, allergies, and atopic dermatitis. Hence, IL-4 and IL-13 are key targets for treatment of such atopic diseases. For cell signalling IL-4 can use two transmembrane receptor assemblies, the type I receptor consisting of receptors IL-4R and γc, and type II receptor consisting of receptors IL-4R and IL-13R1. The type II receptor is also the functional receptor of IL-13, receptor sharing being the molecular basis for the partially overlapping effects of IL-4 and IL-13. Since both cytokines require the IL-4R receptor for signal transduction, this allows the dual inhibition of both IL-4 and IL-13 by specifically blocking the receptor IL-4R. This study describes the design and synthesis of novel antagonistic variants of human IL-4. Chemical modification was used to target positions localized in IL-4 binding sites for γc and IL-13R1 but outside of the binding epitope for IL-4R. In contrast to existing studies, which used synthetic chemical compounds like polyethylene glycol for modification of IL-4, we employed glycan molecules as a natural alternative. Since glycosylation can improve important pharmacological parameters of protein therapeutics, such as immunogenicity and serum half-life, the introduced glycan molecules thus would not only confer a steric hindrance based inhibitory effect but simultaneously might improve the pharmacokinetic profile of the IL-4 antagonist. For chemical conjugation of glycan molecules, IL-4 variants containing additional cysteine residues were produced employing prokaryotic, as well as eukaryotic expression systems. The thiol-groups of the engineered cysteines thereby allow highly specific modification. Different strategies were developed enabling site-directed coupling of amine- or thiol- functionalized monosaccharides to introduced cysteine residues in IL-4. A linker-based coupling procedure and an approach requiring phenylselenyl bromide activation of IL-4 thiol-groups were hampered by several drawbacks, limiting their feasibility. Surprisingly, a third strategy, which involved refolding of IL-4 cysteine variants in the presence of thiol- glycans, readily allowed synthesis of IL-4 glycoconjugates in form of mixed disulphides in milligram amount. This approach, therefore, has the potential for large-scale synthesis of IL-4 antagonists with highly defined glycosylation. Obtaining a homogenous glycoconjugate with exactly defined glycan pattern would allow using the attached glycan structures for fine-tuning of pharmacokinetic properties of the IL-4 antagonist, such as absorption and metabolic stability. The IL-4 glycoconjugates generated in this work proved to be highly effective antagonists inhibiting IL-4 and/or IL-13 dependent responses in cell-based experiments and in in vitro binding studies. Glycoengineered IL-4 antagonists thus present valuable alternatives to IL-4 inhibitors used for treatment of atopic diseases such as the neutralizing anti-IL-4R antibody Dupilumab.}, subject = {Glykosylierung}, language = {en} } @phdthesis{Ruedenauer2021, author = {R{\"u}denauer, Fabian}, title = {Nutrition facts of pollen: nutritional quality and how it affects reception and perception in bees}, doi = {10.25972/OPUS-21254}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-212548}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Nutrients belong to the key elements enabling life and influencing an organism's fitness. The intake of nutrients in the right amounts and ratios can increase fitness; strong deviations from the optimal intake target can decrease fitness. Hence, the ability to assess the nutritional profile of food would benefit animals. To achieve this, they need the according nutrient receptors, the ability to interpret the receptor information via perceptive mechanisms, and the ability to adjust their foraging behavior accordingly. Additionally, eventually existing correlations between the nutrient groups and single nutrient compounds in food could help them to achieve this adjustment. A prominent interaction between food and consumer is the interaction between flowering plants (angiosperms) and animal pollinators. Usually both of the interacting partners benefit from this mutualistic interaction. Plants are pollinated while pollinators get a (most of the times) nutritional reward in form of nectar and/or pollen. As similar interactions between plants and animals seem to have existed even before the emergence of angiosperms, these interactions between insects and angiosperms very likely have co-evolved right from their evolutionary origin. Therefore, insect pollinators with the ability to assess the nutritional profile may have shaped the nutritional profile of plant species depending on them for their reproduction via selection pressure. In Chapter I of this thesis the pollen nutritional profile of many plant species was analyzed in the context of their phylogeny and their dependence on insect pollinators. In addition, correlations between the nutrients were investigated. While the impact of phylogeny on the pollen protein content was little, the mutual outcome of both of the studies included in this chapter is that protein content of pollen is mostly influenced by the plant's dependence on insect pollinators. Several correlations found between nutrients within and between the nutrient groups could additionally help the pollinators to assess the nutrient profile of pollen. An important prerequisite for this assessment would be that the pollinators are able to differentiate between pollen of different plant species. Therefore, in Chapter II it was investigated whether bees have this ability. Specifically, it was investigated whether honeybees are able to differentiate between pollen of two different, but closely related plant species and whether bumblebees prefer one out of three pollen mixes, when they were fed with only one of them as larvae. Honeybees indeed were able to differentiate between the pollen species and bumblebees preferred one of the pollen mixes to the pollen mix they were fed as larvae, possibly due to its nutritional content. Therefore, the basis for pollen nutrient assessment is given in bees. However, there also was a slight preference for the pollen fed as larvae compared to another non-preferred pollen mix, at least hinting at the retention of larval memory in adult bumblebees. Chapter III looks into nutrient perception of bumblebees more in detail. Here it was shown that they are principally able to perceive amino acids and differentiate between them as well as different concentrations of the same amino acid. However, they do not seem to be able to assess the amino acid content in pollen or do not focus on it, but instead seem to focus on fatty acids, for which they could not only perceive concentration differences, but also were able to differentiate between. These findings were supported by feeding experiments in which the bumblebees did not prefer any of the pollen diets containing less or more amino acids but preferred pollen with less fatty acids. In no choice feeding experiments, bumblebees receiving a diet with high fatty acid content accepted undereating other nutrients instead of overeating fat, leading to increased mortality and the inability to reproduce. Hence, the importance of fat in pollen needs to be looked into further. In conclusion, this thesis shows that the co-evolution of flowering plants and pollinating insects could be even more pronounced than thought before. Insects do not only pressure the plants to produce high quality nectar, but also pressure those plants depending on insect pollination to produce high quality pollen. The reason could be the insects' ability to receive and perceive certain nutrients, which enables them to forage selectively leading to a higher reproductive success of plants with a pollinator-suitable nutritional pollen profile.}, subject = {Pollen}, language = {en} } @phdthesis{Lodes2021, author = {Lodes, Nina Theresa}, title = {Tissue Engineering f{\"u}r seltene Erkrankungen mit St{\"o}rungen des mukozili{\"a}ren Transports}, doi = {10.25972/OPUS-20017}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-200178}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Bei der zystischen Fibrose (CF) sowie der prim{\"a}ren Ziliendyskinesie (PCD) handelt es sich um zwei seltene Erkrankungen, die unter anderem den mukozili{\"a}ren Transport beeintr{\"a}chtigen. CF geh{\"o}rt hierbei zu den am h{\"a}ufigsten vorkommenden angeborenen Stoffwechselerkrankungen, wobei Betroffene unter einem Defekt des Cystic Fibrosis Transmembrane Conductor Regulator (CFTR)-Gens leiden, der durch die Produktion von hochviskosem Sekret in muzinproduzierenden Organen, wie dem gastrointestinalen Trakt und der Lunge, gekennzeichnet ist. Patienten, die an PCD leiden, weisen Defekte in, zum jetzigen Zeitpunkt, ca. 38 bekannten und PCD-assoziierten Genen auf, die in strukturellen Defekten des zili{\"a}ren Apparats und somit in dysfunktionalen Kinozilien resultieren. Da aktuell weder f{\"u}r die CF noch f{\"u}r die PCD eine Heilung m{\"o}glich ist, steht bei der Therapie vor allem die Linderung der Symptome im Fokus. Grundlegendes Ziel ist der langfristige Erhalt der Lungenfunktion sowie die Pr{\"a}vention bakterieller Infekte. Als bisherige Modellsysteme zur Erforschung m{\"o}glicher Therapeutika gelten Tiermodelle, die den humanen Ph{\"a}notyp aufgrund von Speziesdiversit{\"a}t nicht vollst{\"a}ndig abbilden k{\"o}nnen. Als vielversprechende Testsysteme f{\"u}r die zystische Fibrose gelten humane intestinale Organoidkulturen. Nachdem allerdings vorwiegend respiratorische Symptome f{\"u}r die Mortalit{\"a}t der Patienten verantwortlich sind, stellen CF-Atemwegsmodelle bessere Testsysteme f{\"u}r zuk{\"u}nftige Therapeutika dar. Atmungsorganoidkulturen wurden verwendet, um die CFTR-Funktionalit{\"a}t zu untersuchen, repr{\"a}sentieren aber nicht vollst{\"a}ndig die in vivo Situation. Deshalb werden zur Entwicklung neuer Therapiestrategien patientenspezifische 3D in vitro Testsysteme der humanen Atemwege ben{\"o}tigt, die insbesondere im Hinblick auf personalisierte Medizin ihren Einsatz finden. In der vorliegenden Arbeit wurde eine f{\"u}r den Lehrstuhl neue Methode zur Zellgewinnung aus nasalen Schleimhautabstrichen etabliert, die eine standardisierte Versorgung mit humanem Prim{\"a}rmaterial garantiert. Zur Generierung einer krankheitsspezifischen Zelllinie, wie beispielsweise einer PCD-Zelllinie mit Hilfe des CRISPR/Cas9-Systems, ist eine Atemwegszelllinie erforderlich, die die in vivo Situation vollst{\"a}ndig repr{\"a}sentiert. So wurden vier verschiedene respiratorische Epithelzelllinien (HBEC3-KT, Calu-3, VA10 und Cl-huAEC) auf ihren mukozili{\"a}ren Ph{\"a}notyp hin untersucht, wobei lediglich die Zelllinie HBEC3-KT in zilientragende Zellen differenzierte. Diese zeigten jedoch nur auf ca. 5 \% der Modelloberfl{\"a}che Kinozilien, wodurch die humane respiratorische Mukosa nicht komplett abgebildet werden konnte und die HBEC3-KT-Zelllinie keine geeignete Zelllinie zur Generierung einer PCD-Zelllinie darstellte. Mit Hilfe des Tissue Engineering war es m{\"o}glich, 3D in vitro Testsysteme basierend auf zwei unterschiedlichen Matrices, der biologischen SIS (small intestinal submucosa) und der synthetischen Polyethylenterephthalat (PET)-Membran, aufzubauen. Es wurden 3D Atemwegstestsysteme mit humanen prim{\"a}ren nasalen und tracheobronchialen Epithelzellen generiert. Erg{\"a}nzend zu histologischen Untersuchungen und zur Charakterisierung spezifischer Marker des respiratorischen Systems mittels Immunfluoreszenz, wurde die Ultrastruktur der Modelle, mit speziellem Fokus auf zili{\"a}re Strukturen, analysiert. Um R{\"u}ckschl{\"u}sse auf die zili{\"a}re Funktionalit{\"a}t ziehen zu k{\"o}nnen und somit eine hohe in vivo Korrelation zu best{\"a}tigen, wurde im Rahmen dieser Arbeit am Lehrstuhl f{\"u}r Tissue Engineering und Regenerative Medizin die Methode der Hochgeschwindigkeitsvideomikroskopie etabliert, welche die Analyse der Zilienschlagfrequenz sowie des mukozili{\"a}ren Transports erm{\"o}glicht. Ebenfalls wurde der Einfluss von isotoner Kochsalzl{\"o}sung und des � 2-adrenergen Agonisten Salbutamol, das vor allem als Bronchodilatator bei Asthmapatienten eingesetzt wird, auf die Zilienschlagfrequenz analysiert. Es konnte gezeigt werden, dass beide Substanzen den Zilienschlag im Atemwegsmodell erh{\"o}hen. Zur Generierung der Testsysteme der beiden seltenen Erkrankungen CF und PCD wurden Epithelzellen der betroffenen Patienten zun{\"a}chst mittels nicht-invasiver Raman-Spektroskopie auf einen potentiellen Biomarker untersucht, welcher Einsatz in der Diagnostik der beiden Krankheiten finden k{\"o}nnte. Es konnte jedoch weder f{\"u}r die CF noch f{\"u}r die PCD ein Biomarker aufgedeckt werden. Jedoch zeigten PCD-Zellen eine geringe Auftrennung gegen{\"u}ber nicht-PCD Zellen. Anschließend wurden 3D-Atemwegstestsysteme basierend auf Patientenzellen aufgebaut. Der Ph{\"a}notyp der CF-Modelle wurde mittels immunhistologischer F{\"a}rbung und der Analyse des gest{\"o}rten mukozili{\"a}ren Transports verifiziert. Strukturelle zili{\"a}re Defekte konnten durch die ultrastrukturelle Analyse von Zilienquerschnitten in drei donorspezifischen PCD-Modellen identifiziert werden. Dar{\"u}ber hinaus konnte die zili{\"a}re Funktionalit{\"a}t mit Hilfe der Hochgeschwindigkeitsvideomikroskopie nicht nachgewiesen werden. Zusammenfassend ist es in dieser Arbeit gelungen, eine neue Methode zur vollst{\"a}ndigen Charakterisierung von 3D-Atemwegstestsystemen zu etablieren, die die Analyse der Zilienschlagfrequenz sowie des mukozili{\"a}ren Transports erm{\"o}glicht. Es konnte erstmalig gezeigt werden, dass mit Hilfe des Tissue Engineering ein personalisiertes Krankheitsmodell f{\"u}r die PCD auf Segmenten eines dezellularisierten porzinen Jejunums generiert werden kann, das zuk{\"u}nftig ein Testsystem f{\"u}r potentielle Therapeutika darstellen kann.}, subject = {In-vitro-Kultur}, language = {de} } @phdthesis{Bluemel2021, author = {Bl{\"u}mel, Rabea}, title = {Der Zebrab{\"a}rbling (Danio rerio) als in vivo Modell zur Untersuchung der Entstehung von Kraniosynostosen}, doi = {10.25972/OPUS-20743}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207436}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Die Entwicklung des Sch{\"a}deldachs beginnt beim Menschen bereits in der fr{\"u}hen Embryogenese und ist erst im Erwachsenenalter abgeschlossen. Das Wachstum der Sch{\"a}delknochen muss sich w{\"a}hrend der Entwicklung fortw{\"a}hrend dem Gehirnwachstum anpassen. An den Stellen, wo zwei Sch{\"a}delknochen aufeinandertreffen, formen sich Sch{\"a}deln{\"a}hte, die aus mesenchymalem Bindegewebe bestehen und als Wachstumsfugen des Sch{\"a}dels dienen. Tritt eine fr{\"u}hzeitige Verkn{\"o}cherung innerhalb einer oder mehrerer Sch{\"a}deln{\"a}hte auf, spricht man von einer Kraniosynostose. Als Konsequenz wird ein weiteres Knochenwachstum verhindert, sodass sich das Neurokranium in dieser Region nicht dem expansiven Wachstum des Gehirns anpassen kann. Dies geht in der Regel mit einem kompensatorischen Wachstum des Sch{\"a}dels und infolgedessen mit kraniofazialen Dysmorphien und einem erh{\"o}hten intrakraniellen Druck einher. Klinische Studien und Forschungen an Modellorganismen konnten bereits eine Vielzahl an Genen mit der Entstehung von Kraniosynostosen assoziieren, darunter die Transkriptionsfaktoren TCF12 und TWIST1. Beim Menschen sind heterozygote Mutationen in TCF12 und TWIST1 mit Kraniosynostosen der Koronarnaht assoziiert. Bei M{\"a}usen hingegen f{\"u}hrt eine heterozygote Tcf12 Mutation nur in Kombination mit einer heterozygoten Twist1 Mutation zu Fusionen der Koronarnaht. Der Zebrab{\"a}rbling (Danio rerio, {\"u}berwiegend auch Zebrafisch genannt) weist eine bemerkenswerte {\"A}hnlichkeit bez{\"u}glich der Anatomie und Morphologie des Sch{\"a}deldachs zum Menschen auf. Um die genaue Funktion von TCF12 bei der Ausbildung der Sch{\"a}deln{\"a}hte zu untersuchen, wurde im Rahmen dieser Arbeit der Zebrafisch als in vivo Modell f{\"u}r die Entstehung tcf12-induzierter Kraniosynostosen etabliert. Zu Beginn der Arbeit wurde das Expressionsmuster von tcf12 {\"u}ber die Entwicklung hinweg analysiert. Ein besonderer Fokus lag dabei auf einem Expressionsnachweis w{\"a}hrend der Entwicklung der Sch{\"a}delplatten und der Sch{\"a}deln{\"a}hte. Ein erster Expressionsnachweis von tcf12 mittels PCR-Analysen und Whole-mount RNA in-situ Hybridisierungen zeigte eine breite Expression von tcf12 ab dem 1-3 Somiten Stadium an. F{\"u}r tiefergehende in vivo Analysen wurden im Zuge dieser Arbeit tcf12:EGFP Reportergenlinien generiert. Mit diesen gelang ein Nachweis der tcf12 Expression entlang der Wachstumsfronten der Sch{\"a}delplatten, innerhalb der Sch{\"a}deln{\"a}hte sowie im Periost und der Dura mater. Mit den tcf12:EGFP Fischen als Referenz wurde in weiterf{\"u}hrenden Experimenten die Aktivit{\"a}t drei hochkonservierter CNEs (engl. conserved non-coding elements) in vivo im Zebrafisch untersucht. Zwei der CNEs konnten als tcf12 Enhancer verifiziert werden, die eine Genexpression w{\"a}hrend der Neurogenese des zentralen Nervensystems (ZNS) steuern. Die beiden Enhancer-Elemente zeichnen sich durch eine hohe Konservierung vom Menschen bis hin zum Zebrafisch aus. Aufgrund der unterschiedlichen Sensitivit{\"a}t gegen{\"u}ber einem Funktionsverlust von TCF12 und TWIST1 in Mensch und Maus sollte die Auswirkung eines Knockouts der orthologen Gene auf die Entwicklung der Sch{\"a}deln{\"a}hte des Zebrafisches untersucht werden. Mittels CRISPR/Cas9 wurden verschiedene Knockout-Linien f{\"u}r die Gene tcf12, twist1a und twist1b generiert. Analysen der Knockoutmutanten zeigten, dass ein heterozygoter Verlust von tcf12 und twist1b in seltenen F{\"a}llen zu partiellen Fusionen der Koronarn{\"a}hte im Zebrafisch f{\"u}hrt. Des Weiteren konnte bei tcf12 und twist1b Einzel- und Doppelmutanten ein abnormes Wachstum der Sch{\"a}delplatten im Bereich der Suturen beobachtet werden. Die Expressionsstudien und die Analysen der Knockoutmutanten deuten auf eine Regulation von TCF12 bei der Differenzierung der Stammzellen sowie der Proliferation der Osteoblasten innerhalb der Sch{\"a}deln{\"a}hte hin. Um die Auswirkung von TCF12 Mutationen auf funktioneller Ebene zu untersuchen wurden im Verlauf dieser Arbeit Luciferase-Reporter Assays durchgef{\"u}hrt. Anhand dieser konnte nachgewiesen werden, dass Mutationen, die die basic helix-loop-helix (bHLH)-Dom{\"a}ne beeintr{\"a}chtigen, die Transaktivierungsf{\"a}higkeit von TCF12 aufheben. Co-Transfektions-Experimente mit TWIST1 offenbarten eine Regulation der Transaktivierung von TCF12 durch TWIST1, sowohl im Menschen, als auch im Zebrafisch. Im Rahmen dieser Arbeit konnten die genauen Expressionsorte von TCF12 w{\"a}hrend der Morphogenese des Sch{\"a}deldachs nachgwiesen und die Funktion von TCF12 und seinem Interaktionspartner TWIST1 bei der Entstehung von Kraniosynostosen weiter aufgekl{\"a}rt werden.}, subject = {Kraniosynostose}, language = {de} } @phdthesis{Krimmer2021, author = {Krimmer, Elena}, title = {Agri-environment schemes and ecosystem services: The influence of different sown flower field characteristics on pollination, natural pest control and crop yield}, doi = {10.25972/OPUS-20657}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-206577}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Insects are responsible for the major part of the ecosystem services pollination and natural pest control. If insects decline, these ecosystem services can not longer be reliably delivered. Agricultural intensification and the subsequent loss and fragmentation of habitats has among others been identified to cause insect decline. Ecological intensification aims to promote alternative and sustainable management practices in agricultural farming, for example to decrease the use of external inputs such as pesticides. Agri-environment schemes make amends for farmers if they integrate ecologically beneficial measures into their farming regime and can therefore promote ecological intensification. There is a wide variety of agri-environment schemes, but the implementation of sown flower fields on crop fields is often included. Flower fields offer foraging resources as well as nesting sites for many different insect species and should be able to support insect populations as well as to increase ecosystem services to adjacent fields. However, the potential of flower fields to exhibit these effects is depending on many factors. Among others, the age and size of the flower field can influence if and how different insects profit from the measure. Additionally, the complexity of the surrounding landscape and therefore the existing biodiversity is influencing the potential of flower fields to increase ecosystem services locally. The goal of this study is to disentangle to which degree these factors influence the ecosystem services pollination and natural pest control and if these factors interact with each other. Furthermore, it will be examined if and how flower fields and ecosystem services influence crop yield. Additional factors examined in this study are distance decay and pesticide use. The abundance of beneficial insects can decrease strongly with increasing distance to suitable habitats. Pesticide use in turn could abrogate positive effects of flower fields on beneficial insects. To examine these different aspects and to be able to make recommendations for flower field implementation, field experiments were conducted on differently composed sown flower fields and adjacent oilseed rape fields. Flower fields differed in their age and continuity as well as in their size. Additionally, flower and oilseed rape fields were chosen in landscapes with different amounts of semi-natural habitat. Oilseed rape fields adjacent to calcareous grasslands and conventional crop fields served as controls. Pollinator observations and pollen beetle and parasitism surveys were conducted in the oilseed rape fields. Additionally, different yield parameters of the oilseed rape plants were recorded. Observations were conducted and samples taken in increasing distance to the flower fields to examine distance decay functions. Spray windows were established to inspect the influence of pesticides on ecosystem services and crop yields. Linear mixed models were used for statistical analysis. The results show, that newly established flower fields with high amounts of flower cover are very attractive for pollinators. If the flower fields reached a certain size (> 1.5ha), the pollinators tended to stay in these fields and did not distribute into the surroundings. High amounts of semi-natural habitat in the surrounding landscape increased the value of small flower fields as starting points for pollinators and their subsequent spillover into crop fields. Additionally, high amounts of semi-natural habitat decreased the decay of pollinators with increasing distance to the flower fields. Based on these results, it can be recommended to establish many small flower fields in landscapes with high amounts of semi-natural habitat and large flower fields in landscapes with low amounts of semi-natural habitat. However, it is mentionable that flower fields are no substitute for perennial semi-natural habitats. These still must be actively conserved to increase pollination to crop fields. Furthermore, the lowest amount of pollen beetle infestation was found on oilseed rape fields adjacent to continuous flower fields aged older than 6 years. Flower fields and calcareous grasslands in general increased pollen beetle parasitism in adjacent oilseed rape fields compared to conventional crop fields. The threshold for effective natural pest control could only be reached in the pesticide free areas in the oilseed rape fields adjacent to continuous flower fields and calcareous grasslands. Parasitism and superparasitism declined with increasing distance to the adjacent fields in pesticide treated areas of the oilseed rape fields. However, they remained on a similar level in spray windows without pesticides. Large flower fields increased parasitism and superparasitism more than small flower fields. Flower fields generally have the potential to increase pollen beetle parasitism rates, but pesticides can abrogate these positive effects of flower fields on natural pest control. Last but not least, effects of flower fields and ecosystem services on oilseed rape yield were examined. No positive effects of pollination on oilseed rape yield could be found. Old and continuous flower fields increased natural pest control in oilseed rape fields, which in turn increased seed set and total seed weight of oilseed rape plants. The pesticide treatment had negative effects on natural pest control, but positive effects on crop yield. Pollination and natural pest control decreased with increasing distance to the field edge, but fruit set slightly increased. The quality of the field in terms of soil and climatic conditions did not influence the yield parameters examined in this study. Yield formation in oilseed rape plants is a complex process with many factors involved, and it is difficult to disentangle indirect effects of flower fields on yield. However, perennial flower fields can promote ecological intensification by increasing crop yield via natural pest control. This study contributes to a better understanding of the effects of differently composed flower fields on pollination, natural pest control and oilseed rape yield.}, subject = {{\"O}kologie}, language = {en} } @phdthesis{RuedtvonCollenberg2021, author = {R{\"u}dt von Collenberg, Cora Freifrau}, title = {The role of Ciliary Neurotrophic Factor in hippocampal synaptic plasticity and learning}, doi = {10.25972/OPUS-20664}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-206646}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Ciliary neurotrophic factor (Cntf) acts as a differentiation and survival factor for different types of neurons and glial cells. It is expressed by peripheral Schwann cells and astrocytes in the central nervous system and mediates its effects via a receptor complex involving CntfRα, LifRß and gp130, leading to downstream activation of Stat3. Recent studies by our group have shown that Cntf modulates neuronal microtubule dynamics via Stat3/stathmin interaction. In a mouse model for motor neuron disease, i.e. pmn, Cntf is able to rescue axonal degeneration through Stat3/stathmin signaling. While these findings suggest a role of Cntf in controlling axonal functions in the neuromuscular system, additional data indicate that Cntf might also play a role in synaptic plasticity in the hippocampus. Electrophysiological recordings in hippocampal organotypic cultures and acute slices revealed a deficit in long-term potentiation (LTP) in Cntf -/- mice. This deficit was rescued by 24 h stimulation with Cntf, combined with an acute application of Cntf during LTP-measurements indicating that Cntf is both necessary and sufficient for hippocampal LTP, and possibly synaptic plasticity. Therefore, Cntf knockout mice were investigated to elucidate this possible role of Cntf in hippocampal LTP and synaptic plasticity. First, we validated the presence of Cntf in the target tissue: in the hippocampus, Cntf was localized in Gfap-positive astrocytes surrounding small blood vessels in the fissure and in meningeal areas close to the dentate gyrus. Laser micro-dissection and qPCR analysis showed a similar distribution of Cntf-coding mRNA validating the obtained immunofluorescent results. Despite the strong LTP deficit in organotypic cultures, in vivo behavior of Cntf -/- mice regarding hippocampus-dependent learning and anxiety-related paradigms was largely inconspicuous. However, western blot analysis of hippocampal organotypic cultures revealed a significant reduction of pStat3 levels in Cntf -/- cultures under baseline conditions, which in turn were elevated upon Cntf stimulation. In order to resolve and examine synaptic structures we turned to in vitro analysis of cultured hippocampal neurons which indicated that pStat3 is predominantly located in the presynapse. In line with these findings, presynapses of Cntf -/- cultures were reduced in size and when in contact to astrocytes, contained less pStat3 immunoreactivity compared to presynapses in wildtype cultures. In conclusion, our findings hypothesize that despite of a largely inconspicuous behavioral phenotype of Cntf -/- mice, Cntf appears to have an influence on pStat3 levels at hippocampal synapses. In a next step these two key questions need to be addressed experimentally: 1) is there a compensatory mechanism by members of the Cntf family, possibly downstream of pStat3, which explains the in vivo behavioral results of Cntf -/- mice and can likewise account for the largely inconspicuous phenotype in CNTF-deficient humans? 2) How exactly does Cntf influence LTP through Stat3 signaling? To unravel the underlying mechanism further experiments should therefore investigate whether microtubule dynamics downstream of Stat3 and stathmin signaling are involved in the Cntf-induced modulation of hippocampal synaptic plasticity, similar to as it was shown in motoneurons.}, subject = {Hippocampus}, language = {en} } @phdthesis{Reich2021, author = {Reich, Sebastian}, title = {Computergest{\"u}tztes Auffinden obliterierter Wurzelkan{\"a}le mit Hilfe der Planungssoftware SicatEndo und CDX - eine In-vitro-Vergleichsstudie}, doi = {10.25972/OPUS-20687}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-206875}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Ziel der Untersuchung: Verglichen wurden die r{\"a}umlichen Abweichungen der Bohrpfade nach virtueller Planung von Schablonen gef{\"u}hrten Trepanationen mit Hilfe der Softwaresysteme SicatEndo (SE) und coDiagnostiX (CDX) und der ben{\"o}tigte Arbeitsaufwand. Material und Methode: Basierend auf µCT-Datens{\"a}tzen von humanen obliterierten Frontz{\"a}hnen wurden identische Kunststoffz{\"a}hne und acht Zahnmodelle (4 Ober-, 4 Unterkiefer) hergestellt. Es wurde jeweils ein DVT und ein Oberfl{\"a}chenscan angefertigt. Diese Datens{\"a}tze (DICOM; STL) wurden in die Softwaresysteme importiert und fusioniert. Anschließend wurden die Bohrpfade f{\"u}r je 16 Probenz{\"a}hne pro Software geplant. Mit Hilfe der erstellten Schablonen wurden alle Trepanationen an den im Phantomkopf fixierten Modellen von einem Behandler durchgef{\"u}hrt. Nach Erschließung des apikalen Wurzelkanalanteils wurde ein DVT angefertigt und mit dem pr{\"a}operativen DVT {\"u}berlagert. Die r{\"a}umliche drei-dimensionale (3D) Abweichung zwischen virtuell geplantem und tats{\"a}chlichem Bohrpfad wurde {\"u}ber die Vektorl{\"a}nge bestimmt und der Arbeitsaufwand anhand der Planungszeit und der Anzahl der Mausklicks pro Kiefer erfasst. Ergebnisse: F{\"u}r die Trepanationen mit SE zeigten sich signifikant geringe Abweichungen an der Bohrerspitze vestibul{\"a}r-oral [CDX 0,54mm ± 0,32mm; SE 0,12mm ± 0,11mm; p < 0.05], 3D [CDX 0,74mm ± 0,26 mm; SE 0,35mm ± 0,17mm; p < 0.05] und hinsichtlich des Winkels [CDX 1,57° ± 0,76°; SE 0,68° ± 0,41°; p < 0.05] als mit CDX. F{\"u}r CDX war der Planungsaufwand signifikant geringer als f{\"u}r SE hinsichtlich Planungszeit [CDX {\O} 10min 50sec; SE {\O} 20min 28sec] und hinsichtlich der Anzahl der Klicks pro Kiefer [CDX {\O} 107; SE {\O} 341]. Zusammenfassung: Beide Planungssysteme erm{\"o}glichen ausreichend pr{\"a}zise Schablonen gef{\"u}hrte Bohrungen zur Erschließung apikaler Wurzelkanalanteile.}, subject = {Wurzelkanalbehandlung}, language = {de} } @phdthesis{Schuster2021, author = {Schuster, Sarah}, title = {Analysis of \(Trypanosoma\) \(brucei\) motility and the infection process in the tsetse fly vector}, doi = {10.25972/OPUS-19269}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192691}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {African trypanosomes are protist pathogens that are infective for a wide spectrum of mammalian hosts. Motility has been shown to be essential for their survival and represents an important virulence factor. Trypanosoma brucei is transmitted by the bite of the bloodsucking tsetse fly, the only vector for these parasites. The voyage through the fly is complex and requires several migration, proliferation and differentiation steps, which take place in a defined order and in specific fly tissues. The first part of this doctoral thesis deals with the establishment of the trypanosome tsetse system as a new model for microswimmer analysis. There is an increasing interdisciplinary interest in microbial motility, but a lack of accessible model systems. Therefore, this work introduces the first enclosed in vivo host parasite system that is suitable for analysis of diverse microswimmer types in specific microenvironments. Several methods were used and adapted to gain unprecedented insights into trypanosome motion, the fly´s interior architecture and the physical interaction between host and parasite. This work provides a detailed overview on trypanosome motile behavior as a function of development in diverse host surroundings. In additional, the potential use of artificial environments is shown. This can be used to partly abstract the complex fly architecture and analyze trypanosome motion in defined nature inspired geometries. In the second part of the thesis, the infection of the tsetse fly is under investigation. Two different trypanosome forms exist in the blood: proliferative slender cells and cell cycle arrested stumpy cells. Previous literature states that stumpy cells are pre adapted to survive inside the fly, whereas slender cells die shortly after ingestion. However, infection experiments in our laboratory showed that slender cells were also potentially infective. During this work, infections were set up so as to minimize the possibility of stumpy cells being ingested, corroborating the observation that slender cells are able to infect flies. Using live cell microscopy and fluorescent reporter cell lines, a comparative analysis of the early development following infection with either slender or stumpy cells was performed. The experiments showed, for the first time, the survival of slender trypanosomes and their direct differentiation to the procyclic midgut stage, contradicting the current view in the field of research. Therefore, we can shift perspectives in trypanosome biology by proposing a revised life cycle model of T. brucei, where both bloodstream stages are infective for the vector.}, subject = {Motilit{\"a}t}, language = {en} } @phdthesis{Heiby2021, author = {Heiby, Julia}, title = {Insight into molecular mechanisms of folding and self-association of spider silk protein domains}, doi = {10.25972/OPUS-19345}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-193455}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Spider silk is a biomaterial of extraordinary toughness paired with elasticity. The assembly of silk proteins, so-called spidroins (from "spider" and "fibroin"), generates the silk threads we typically see in our garden or the corners of our houses. Although spider webs from different species vary considerably in geometry and size, many sections of spidroin sequences are conserved. Highly conserved regions, found in all spidroins, relate to the terminal domains of the protein, i.e., the N-terminal (NTD) and C-terminal domains (CTD). Both have an essential function in the silk fibre association and polymerisation. The NTD is a 14 kDa five-helix bundle, which self-associates via a pH-driven mechanism. This process is critical for starting the polymerisation of the fibre. However, detailed insights into how conserved this mechanism is in different species and the quantitative thermodynamic comparison between homologous NTDs was missing. For this reason, four homologous NTDs of the major ampullate gland (MaSp) from spider species Euprosthenops australis, Nephila clavipes, Latrodectus hesperus, and Latrodectus geometricus were investigated. I analysed and quantified equilibrium thermodynamics, kinetics of folding, and self-association. Methods involved dynamic light scattering (MALS), stopped-flow fluorescence and circular dichroism spectroscopy in combination with thermal and chemical denaturation experiments. The results showed conserved, cooperative two-state folding on a sub-millisecond time scale. All homologous NTDs showed a similarly fast association in the order of 10^9 M^-1 s^-1, while the resulting equilibrium dissociation constants were in the low nanomolar range. Electrostatic forces were found to be of great importance for protein association. Monomeric protein stability increased with salt concentration while enhancing its folding speed. However, due to Debye-H{\"u}ckel effects, we found intermolecular electrostatics to be shielded, which reduced the NTDs association capacity significantly at high ionic strength. Altogether, the energetics and kinetics of the NTD dimerisation was conserved for all analysed homologs. Comparable to the NTD, the spider silks CTD is also a α-helix bundle, which covalently links two spidroins. The orientation of the domains predetermines the future fibre geometry. Here again, the detailed quantitative characterisation of the folding and dimerisation was missing. Therefore, the CTD from the E. australis was analysed in-depth. The protein folded via a three-state mechanism and was placed in the family of knotted proteins. By analysing the amino acid composition of the NTD of the MaSp1 of the Euprosthenops australis, we found an unusually high content of methionine residues (Met). To elucidate why this protein exhibits so many Met residues, I mutated all core Mets simultaneously to leucine (Leu). Results revealed a dramatically stabilised NTD, which now folded 50 times faster. After solving the tertiary structure of the mutant by NMR (nuclear magnetic resonance) spectroscopy, the structure of the monomeric mutant was found to be identical with the wild-type protein. However, when probing the dimerisation of the NTD, I could show that the association capacity was substantially impaired for the mutant. Our findings lead to the conclusion that Met provides the NTD with enhanced conformational dynamics and thus mobilises the protein, which results in tightly associated dimers. In additional experiments, I first re-introduced new Met residues into the Met-depleted protein at sequence positions containing native Leu. Hence, the mutated NTD protein was provided with the same number of Leu, which were previously removed by mutation. However, the protein did not regain wild-type characteristics. The functionality was not restored, but its stability was decreased as expected. To probe our hypothesis gained from the MaSp NTD, I transferred the experiment to another protein, namely the Hsp90 chaperone. Therefore, I incorporated methionine residues in the protein, which resulted in a slight improvement of its function. Finally, trial experiments were performed aiming at the synthesis of shortened spidroin constructs containing less repetitive middle-segments than the wild-type protein. The objective was to study the findings of the terminal domains in the context of an intact spidroin. The synthesis of these engineered spidroins was challenging. Nevertheless, preliminary results encourage the assumption that the characteristics observed in the isolated domains hold true in the context of a full-length spidroin.}, subject = {Spinnenseide}, language = {en} } @phdthesis{Markert2021, author = {Markert, Sebastian Matthias}, title = {Enriching the understanding of synaptic architecture from single synapses to networks with advanced imaging techniques}, doi = {10.25972/OPUS-18993}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-189935}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Because of its complexity and intricacy, studying the nervous system is often challenging. Fortunately, the small nematode roundworm Caenorhabditis elegans is well established as a model system for basic neurobiological research. The C. elegans model is also the only organism with a supposedly complete connectome, an organism-wide map of synaptic connectivity resolved by electron microscopy, which provides some understanding of how the nervous system works as a whole. However, the number of available data-sets is small and the connectome contains errors and gaps. One example of this concerns electrical synapses. Electrical synapses are formed by gap junctions and difficult to map due to their often ambiguous morphology in electron micrographs, leading to misclassification or omission. On the other hand, chemical synapses are more easily mapped, but many aspects of their mode of operation remain elusive and their role in the C. elegans connectome is oversimplified. A comprehensive understanding of signal transduction of neurons between each other and other cells will be indispensable for a comprehensive understanding of the nervous system. In this thesis, I approach these challenges with a combination of advanced light and electron microscopy techniques. First, this thesis describes a strategy to increase synaptic specificity in connectomics. Specifically, I classify gap junctions with a high degree of confidence. To achieve this, I utilized array tomography (AT). In this thesis, AT is adapted for high-pressure freezing to optimize for structure preservation and for super-resolution light microscopy; in this manner, I aim to bridge the gap between light and electron microscopy resolutions. I call this adaptation super-resolution array tomography (srAT). The srAT approach made it possible to clearly identify and map gap junctions with high precision and accuracy. The results from this study showcased the feasibility of incorporating electrical synapses into connectomes in a systematic manner, and subsequent studies have used srAT for other models and questions. As mentioned above, the C. elegans connectomic model suffers from a shortage of datasets. For most larval stages, including the special dauer larval stage, connectome data is completely missing up to now. To obtain the first partial connectome data-set of the C. elegans dauer larva, we used focused ion-beam scanning electron microscopy (FIB-SEM). This technique offers an excellent axial resolution and is useful for acquiring large volumes for connectomics. Together with our collaborators, I acquired several data-sets which enable the analysis of dauer stage-specific "re-wiring" of the nervous system and thus offer valuable insights into connectome plasticity/variability. While chemical synapses are easy to map relative to electrical synapses, signal transduction via chemical transmitters requires a large number of different proteins and molecular processes acting in conjunction in a highly constricted space. Because of the small spatial scale of the synapse, investigating protein function requires very high resolution, which electron tomography provides. I analyzed electron tomograms of a worm-line with a mutant synaptic protein, the serine/threonine kinase SAD-1, and found remarkable alterations in several architectural features. My results confirm and re-contextualize previous findings and provide new insight into the functions of this protein at the chemical synapse. Finally, I investigated the effectiveness of our methods on "malfunctioning," synapses, using an amyotrophic lateral sclerosis (ALS) model. In the putative synaptopathy ALS, the mechanisms of motor neuron death are mostly unknown. However, mutations in the gene FUS (Fused in Sarcoma) are one known cause of the disease. The expression of the mutated human FUS in C. elegans was recently shown to produce an ALS-like phenotype in the worms, rendering C. elegans an attractive disease model for ALS. Together with our collaboration partners, I applied both srAT and electron tomography methods to "ALS worms" and found effects on vesicle docking. These findings help to explain electrophysiological recordings that revealed a decrease in frequency of mini excitatory synaptic currents, but not amplitudes, in ALS worms compared to controls. In addition, synaptic endosomes appeared larger and contained electron-dense filaments in our tomograms. These results substantiate the idea that mutated FUS impairs vesicle docking and also offer new insights into further molecular mechanisms of disease development in FUS-dependent ALS. Furthermore, we demonstrated the broader applicability of our methods by successfully using them on cultured mouse motor neurons. Overall, using the C. elegans model and a combination of light and electron microscopy methods, this thesis helps to elucidate the structure and function of neuronal synapses, towards the aim of obtaining a comprehensive model of the nervous system.}, subject = {Caenorhabditis elegans}, language = {en} } @phdthesis{BergmannBueno2021, author = {Bergmann Bueno, Amauri}, title = {Ecophysiological adaptations of cuticular water permeability of plants to hot arid biomes}, doi = {10.25972/OPUS-16783}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167832}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Arid environments cover almost one-third of the land over the world. Plant life in hot arid regions is prone to the water shortage and associated high temperatures. Drought-stressed plants close the stomata to reduce water loss. Under such conditions, the remaining water loss exclusively happens across the plant cuticle. The cuticular water permeability equals the minimum and inevitable water loss from the epidermal cells to the atmosphere under maximally stomatal closure. Thus, low cuticular water permeability is primordial for plant survival and viability under limited water source. The assumption that non-succulent xerophytes retard water loss due to the secretion of a heavier cuticle is often found in the literature. Intuitively, this seems to be plausible, but few studies have been conducted to evaluate the cuticular permeability of xerophilous plants. In chapter one, we investigated whether the cuticular permeability of Quercus coccifera L. grown in the aridest Mediterranean-subtype climate is indeed lower than that of individuals grown under temperate climate conditions. Also, the cuticular wax chemical compositions of plants grown in both habitats were qualitatively and quantitatively analysed by gas-chromatography. In few words, our findings showed that although the cuticular wax deposition increased in plants under Mediterranean climate, the cuticular permeability remained unaltered, regardless of habitat. The associated high temperatures in arid regions can drastically increase the cuticular water permeability. Thereby, the thermal stability of the cuticular transpirational barrier is decisive for safeguarding non-succulent xerophytes against desiccation. The successful adaptation of plants to hot deserts might be based on finding different solutions to cope with water and heat stresses. Water-saver plants close the stomata before the leaf water potential drastically changes in order to prevent damage, whereas water-spender plants reduce the leaf water potential by opening the stomata, which allow them to extract water from the deep soil to compensate the high water loss by stomatal transpiration. In chapter two, we compare the thermal stability of the cuticular transpiration barrier of the desert water-saver Phoenix dactylifera L. and the water-spender Citrullus colocynthis (L.) Schrad. In short, the temperature-dependent increase of the cuticular permeability of P. dactylifera was linear over the whole temperature range (25-50°C), while that of C. colocynthis was biphasic with a steep increase at temperatures ≥ 40°C. This drastic increase of cuticular permeability indicates a thermally induced breakdown of the C. colocynthis cuticular transpiration barrier, which does not occur in P. dactylifera. We further discussed how the specific chemical composition of the cutin and cuticular waxes might contribute to the pronounced thermal resistance of the P. dactylifera cuticular transpiration barrier. A multitude of morpho and physiological modifications, including photosynthetic thermal tolerance and traits related to water balance, led to the successful plant colonisation of hot arid regions over the globe. High evaporative demand and elevated temperatures very often go along together, thereby constraining the plant life in arid environments. In chapter 3, we surveyed cuticular permeability, leaf thermal tolerance, and cuticular wax chemical composition of 14 non-succulent plant species native from some of the hottest and driest biomes in South-America, Europe, and Asia. Our findings showed that xerophilous flowering plants present high variability for cuticular permeability and leaf thermal tolerance, but both physiological features could not be associated with the species original habitat. We also provide substantial evidence that non-succulent xerophytes with more efficient cuticular transpirational barrier have higher leaf thermal tolerance, which might indicate a potential coevolution of these features in hot arid biomes. We further discussed the efficiency of the cuticular transpiration barrier in function to the cuticular wax chemical composition in the general discussion section.}, subject = {Plant cuticle}, language = {en} } @phdthesis{Schoenwetter2021, author = {Sch{\"o}nwetter, Elisabeth Sofie}, title = {Towards an understanding of the intricate interaction network of TFIIH}, doi = {10.25972/OPUS-16892}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168926}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The integrity of its DNA is fundamental for every living cell. However, DNA is constantly threatened by exogenous and endogenous damaging agents that can cause a variety of different DNA lesions. The severe consequences of an accumulation of DNA lesions are reflected in cancerogenesis and aging. Several DNA repair mechanisms ensure the repair of DNA lesions and thus maintain DNA integrity. One of these DNA repair mechanisms is nucleotide excision repair (NER), which is famous for its ability to address a large variety of structurally unrelated DNA lesions. A key component of eukaryotic NER is the transcription factor II H (TFIIH) complex, which is not only essential for DNA repair but also for transcription. The TFIIH complex is composed of ten subunits. How these subunits work together during NER to unwind the DNA around the lesion is, however, not yet fully understood. High-resolution structural data and biochemical insights into the function of every subunit are thus indispensable to understand the functional networks within TFIIH. The importance of an intact TFIIH complex is reflected in the severe consequences of patient mutations in the TFIIH subunits XPB, XPD or p8 leading to the hallmark diseases xeroderma pigmentosum, Cockayne syndrome and trichothiodystrophy. Defects in the NER pathway are further associated with several types of cancer including skin cancer. The herein described work focused on five TFIIH subunits derived from the thermophilic fungus Chaetomium thermophilum, the p34/p44 pair and the ternary XPB/p52/p8 complex. The interaction between p34 and p44 was characterized based on a high-resolution structure of the p34_vWA/p44_RING minimal complex. Biochemical studies of the p34/p44 interaction led to the disclosure of an additional interaction between the p34 and p44 subunits, which had not been characterized so far. The p34/p44 interaction was shown to be central to TFIIH, which justifies the presence of several redundant interfaces to safeguard the interaction between the two proteins and might explain why so far, no patient mutations in these subunits have been identified. The p52 subunit of TFIIH was known to be crucial to stimulate the ATPase activity of XPB, which is required during NER. This work presents the first entire atomic resolution structural characterization of p52, which was derived of several crystal structures of p52 variants and a p52/p8 variant thereby demonstrating the interaction between p52 and p8. The precise structural model of p52 offered the possibility to investigate interactions with other TFIIH subunits in more detail. The middle domain 2 of p52 and the N-terminal domain of XPB were shown to mediate the main interaction between the two subunits. An analysis of the p52 crystal structures within recently published cryo-electron microscopy structures of TFIIH provides a model of how p52 and p8 stimulate the ATPase activity of XPB, which is essential for NER and transcription. The structural and biochemical findings of this work provide an additional building block towards the uncovering of the architecture and function of this essential transcription factor.}, subject = {DNS-Reparatur}, language = {en} } @phdthesis{Brosi2021, author = {Brosi, Cornelia}, title = {Functional characterization of the TTF complex and its role in neurodevelopmental disorders}, doi = {10.25972/OPUS-15778}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-157783}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The eukaryotic gene expression requires extensive regulations to enable the homeostasis of the cell and to allow dynamic responses due to external stimuli. Although many regulatory mechanisms involve the transcription as the first step of the gene expression, intensive regulation occurs also in the post-transcriptional mRNA metabolism. Thereby, the particular composition of the mRNPs plays a central role as the components associated with the mRNA form a specific "mRNP code" which determines the fate of the mRNA. Many proteins which are involved in this regulation and the mRNA metabolism are affected in diseases and especially neurological disorders often result from an aberrant mRNP code which leads to changes in the regulation and expression of mRNPs. The focus of this work was on a trimeric protein complex which is termed TTF complex based on its subunits TDRD3, TOP3β and FMRP. Biochemical investigations revealed that the three components of the TTF complex are nucleo-cytosolic shuttle proteins which localize in the cytoplasm at the steady-state, associate with mRNPs and are presumably connected to the translation. Upon cellular stress conditions, the TTF components concentrate in stress granules. Thus, the TTF complex is part of the mRNP code, however its target RNAs and function are still completely unknown. Since the loss of functional FMRP results in the fragile X syndrome and TOP3β is associated with schizophrenia and intellectual disability, the TTF complex connects these phenotypically related neuro-psychiatric disorders with each other on a molecular level. Therefore, the aim of this work was to biochemically characterize the TTF complex and to define its function in the mRNA metabolism. In this work, evidence was provided that TDRD3 acts as the central unit of the TTF complex and directly binds to FMRP as well as to TOP3β. Thereby, the interaction of TDRD3 and TOP3β is very stable, whereas FMRP is a dynamic component. Interestingly, the TTF complex is not bound directly to mRNA, but is recruited via the exon junction complex (EJC) to mRNPs. This interaction is mediated by a specific binding motif of TDRD3, the EBM. Upon biochemical and biological investigations, it was possible to identify the interactome of the TTF complex and to define the role in the mRNA metabolism. The data revealed that the TTF complex is mainly associated with "early" mRNPs and is probably involved in the pioneer round of translation. Furthermore, TOP3β was found to bind directly to the ribosome and thus, establishes a connection between the EJC and the translation machinery. A reduction of the TTF components resulted in selective changes in the proteome in cultured cells, whereby individual protein subsets seem to be regulated rather than the global protein expression. Moreover, the enzymatic analysis of TOP3β indicated that TOP3β is a type IA topoisomerase which can catalytically attack not only DNA but also RNA. This aspect is particularly interesting with regard to the connection between early mRNPs and the translation which has been revealed in this work. The data obtained in this work suggest that the TTF complex plays a role in regulating the metabolism of an early mRNP subset possibly in the course of the pioneer round of translation. Until now, the link between an RNA topoisomerase and the mRNA metabolism is thereby unique and thus provides a completely new perspective on the steps in the post-transcriptional gene expression and its regulation.}, subject = {Messenger-RNP}, language = {en} } @phdthesis{Auer2021, author = {Auer, Daniela}, title = {Impact of the chlamydial deubiquitinase ChlaDUB1 on host cell defense}, doi = {10.25972/OPUS-17846}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-178462}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The human pathogen Chlamydia trachomatis is the main cause of sexually transmitted infections worldwide. The obligate intracellular bacteria are the causative agent of several diseases that reach from conjunctivitis causing trachoma and blindness as well as salpingitis and urethritis which can lead to infertility if left untreated. In order to gain genetically engineered Chlamydia that inducible knock down specific gene expression, the CRISPRi system was established in C. trachomatis. In a proof of principle experiment it was shown that C. trachomatis pCRISPRi:gCdu1III target ChlaDUB1 expression and reduce the protein amount up to 50 \%. Knock-down of the DUB did not influence protein levels of anti-apoptotic Mcl-1 and did not make cells susceptible for apoptosis. However, reduced dCas9 protein size, bacterial growth impairment and off target effects interfering with the GFP signal, form obstacles in CRISPRi system in Chlamydia. For routinely use of the CRISPRi method in C. trachomatis further investigation is needed. Since the bacterial life cycle includes two morphological and functional distinct forms, it is essential for chlamydial spread to complete the development cycle and form infectious progeny. Therefore, Chlamydia has evolved strategies to evade the host immune system in order to stay undetected throughout the developmental cycle. The bacteria prevent host cell apoptosis via stabilization of anti-apoptotic proteins like Mcl-1, Survivin and HIF-1α and activate pro-survival pathways, inhibiting invasion of immune cells to the site of infection. The host cell itself can destroy intruders via cell specific defense systems that involve autophagy and recruitment of professional immune cells. In this thesis the role of the chlamydial deubiuqitinase ChlaDUB1 upon immune evasion was elucidated. With the mutant strain Ctr Tn-cdu1 that encodes for a truncated DUB due to transposon insertion, it was possible to identify ChlaDUB1 as a potent opponent of the autophagic system. Mutant inclusions were targeted by K48 and K63 chain ubiquitination. Subsequently the inclusion was recognized by autophagic receptors like p62, NBR1 and NDP52 that was reversed again by complementation with the active DUB. Xenophagy was promoted so far as LC3 positive phagosomes formed around the inclusion of Ctr Tn-cdu1, which did not fuse with the lysosome. The detected growth defect in human primary cells of Chlamydia missing the active DUB was not traced back to autophagy, but was due to impaired development and replication. It was possible to identify Ankib1, the E3 ligase, that ubiquitinates the chlamydial inclusion in a siRNA based screen. The activating enzyme Ube1 and the conjugating enzyme Ube2L3 are also essential in this process. Chlamydia have a reduced genome and depend on lipids and nutrients that are translocated from the host cell to the inclusion to proliferate. Recruitment of fragmented Golgi stacks to the inclusion surface was prevented when ChlaDUB1 was inactive, probably causing diminished bacterial growth. Additionally, the modification of the inclusion by Ankib1 and subsequent decoration by autophagic markers was not only present in human but also murine cells. Comparison of other Chlamydia strains and species revealed Ankib1 to be located at the proximity of the inclusion in C. trachomatis strains only but not in C. muridarum or C. pneumoniae, indicating that Ankib1 is specifically the E3 ligase of C. trachomatis. Moreover, the role of ChlaDUB1 in infected tissue was of interest, since ChlaDUB1 protein was also found in early EB stage and so might get in contact with invading immune cells after cell lysis. While bacteria spread and infect new host cells, Chlamydia can also infect immune cells. Infection of human neutrophils with Ctr Tn-cdu1 shows less bacterial survival and affirms the importance of the DUB for bacterial fitness in these cells.}, subject = {Chlamydia}, language = {en} } @phdthesis{Mueller2021, author = {M{\"u}ller, Heike Milada}, title = {Anpassung an Trocken- und Salzstress: Untersuchungen an Modellpflanzen und Extremophilen}, doi = {10.25972/OPUS-17900}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-179005}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Die wahrscheinlich gr{\"o}ßten Probleme des 21. Jahrhunderts sind der Klimawandel und die Sicherstellung der Nahrungsmittelversorgung f{\"u}r eine steigende Zahl an Menschen. Durch die Zunahme von extremen Wetterbedingungen wie Trockenheit und Hitze wird der Anbau konventioneller, wenig toleranter Nutzpflanzen erschwert und die dadurch notwendige, steigende Bew{\"a}sserung der Fl{\"a}chen f{\"u}hrt dar{\"u}ber hinaus zu einer zus{\"a}tzlichen Versalzung der B{\"o}den mit f{\"u}r Pflanzen toxischen Natrium- und Chlorid-Ionen. Kenntnisse {\"u}ber Anpassungsstrategien salztoleranter Pflanzen an Salzstress, aber auch detailliertes Wissen {\"u}ber die Steuerung der Transpiration und damit des Wasserverlusts von Pflanzen sind daher wichtig, um auch k{\"u}nftig ertragreiche Landwirtschaft betreiben zu k{\"o}nnen. In dieser Arbeit habe ich verschiedene Aspekte der pflanzlichen Stressphysiologie bearbeitet, die im Folgenden getrennt voneinander zusammengefasst werden. I. Funktionelle Unterschiede der PYR/PYL-Rezeptoren von Schließzellen Entscheidend f{\"u}r den Wasserstatus von Pflanzen ist die Kontrolle des Wasserverlusts durch Spalt{\"o}ffnungen (Stomata), die von einem Paar Schließzellen gebildet werden. Externe Faktoren wie Licht, Luftfeuchtigkeit und CO2, sowie interne Faktoren wie das Phytohormon Abszisins{\"a}ure (ABA) regulieren {\"u}ber Signalkaskaden die Stomaweite und dadurch den Wasserverlust. Die zugrunde liegenden Signalkaskaden {\"u}berlappen teilweise. Vor allem der Stomaschluss durch erh{\"o}htes CO2 und ABA weisen viele Gemeinsamkeiten auf und die Identifizierung des Konvergenzpunktes beider Signale ist immer noch aktueller Gegenstand der Forschung. Von besonderem Interesse sind dabei die in Schließzellen exprimierten ABA-Rezeptoren der PYR/PYL-Familie. Denn obwohl bislang nicht nachgewiesen werden konnte, dass CO2 zu einem Anstieg des ABA-Gehalts von Schließzellen f{\"u}hrt deuten einige Studien darauf hin, dass die ABA-Rezeptoren selbst am CO2-Signalweg beteiligt sind. Durch Untersuchungen der Stomareaktion von Arabidopsis ABA-Rezeptormutanten konnte ich in dieser Arbeit zeigen, dass die in Schließzellen exprimierten ABA-Rezeptoren der PYR/PYL-Familie funktionale Unterschiede aufweisen. F{\"u}nffach-Verlustmutanten der ABA-Rezeptoren PYR1, PYL2, 4, 5 und 8 (12458) waren in ihrem ABA-induzierten Stomaschluss beeintr{\"a}chtigt und nur die Komplementation mit PYL2 und in geringerem Maße PYR1 konnte die ABA-Sensitivit{\"a}t wiederherstellen. Die Stomata von 12458-Verlustmutanten waren außerdem insensitiv gegen{\"u}ber erh{\"o}htem CO2, was auf eine Beteiligung der ABA-Rezeptoren am CO2-induzierten Stomaschluss hindeutet und diese Sensitivit{\"a}t konnte nur durch die Komplementation mit PYL4 oder PYL5, nicht aber mit PYL2 wiederhergestellt werden. Somit konnten in dieser Arbeit erstmals funktionelle Unterschiede der PYR/PYLs beim Stoma-Schluss nachgewiesen werden. Alle externen und internen Stomaschluss-Signale haben außerdem Einfluss auf die Genexpression der Schließzellen und f{\"u}hren zu individuellen expressionellen Adaptionen. In vorangegangenen Microarray Studien konnte gezeigt werden, dass jeder Stimulus auch die Expression eines distinkten Sets an ABA-Rezeptoren beeinflusst. Im Rahmen dieser Arbeit konnte ich außerdem zeigen, dass die Expression der ABA-Rezeptoren bereits auf kleine {\"A}nderungen der ABA-Konzentration der Schließzellen reagiert und dass diese sich außerdem in ihrer Sensitivit{\"a}t gegen{\"u}ber ABA unterschieden. Geringe {\"A}nderungen der ABA-Konzentration von Schließzellen haben demnach Auswirkungen auf deren Rezeptor-zusammensetzung. Dar{\"u}ber hinaus konnte ich zeigen, dass die Rezeptoren die Expression unterschiedlicher nachgeschalteter Gene beeinflussen, was darauf hindeutet, dass Anpassungen des Rezeptorpools durch geringe {\"A}nderungen des ABA-Gehalts von Schließzellen schlussendlich auf genexpressioneller Ebene zur l{\"a}ngerfristigen Adaption an externe Bedingungen f{\"u}hren und die Rezeptoren auch hier funktional verschieden sind. II. Stomat{\"a}re Besonderheiten der toleranten Dattelpalme (Phoenix dactylifera) Dattelpalmen kommen nat{\"u}rlicherweise an besonders trockenen und heißen Standorten vor, an denen es aufgrund der harschen Bedingungen nur sehr wenigen Pflanzen m{\"o}glich ist {\"u}berhaupt zu wachsen. Ein naheliegender Grund f{\"u}r die herausragende Toleranz dieser Art gegen{\"u}ber wasserlimitierenden Bedingungen ist eine Anpassung der stomat{\"a}ren Regulation zu Gunsten des Wasserhaushalts. In dieser Arbeit konnte ich durch vergleichende Untersuchungen der lichtabh{\"a}ngigen Transpiration sowie dem ABA-induzierten Stomaschluss grundlegende Unterschiede in der Stomaphysiologie der Dattelpalmen und der eher sensitiven Modellpflanze Arabidopsis thaliana nachweisen. Blattgaswechselmessungen zeigten, dass Dattelpalmen in der Lage sind die Spalt{\"o}ffnungen bei niedrigen Lichtintensit{\"a}ten, bei denen Arabidopsis bereits deutlich ge{\"o}ffnete Stomata aufwies, geschlossen zu halten. Der bedeutendste Unterschied in der Stomaphysiologie von Dattelpalmen und Arabidopsis lag aber im ABA-induzierten Stomaschluss. W{\"a}hrend {\"u}ber die Petiole verabreichtes ABA bei Arabidopsis innerhalb von 15 Minuten zu einem vollst{\"a}ndigen Stomaschluss f{\"u}hrte, konnte ich in dieser Arbeit zeigen, dass der ABA-induzierte Stomaschluss der Datteln nitratabh{\"a}ngig ist. ABA allein f{\"u}hrte nur zu einem sehr langsamen Stomaschluss der innerhalb einer Stunde nicht vollst{\"a}ndig abgeschlossen war. Nur in Gegenwart von Nitrat f{\"u}hrte die ABA-Gabe in den Transpirationsstrom der Fiederbl{\"a}tter der Datteln zu einem schnellen und vollst{\"a}ndigen Stomaschluss. In Arabidopsis wird der in Schließzellen vorkommende Anionenkanal AtSLAC1 durch eine {\"u}ber den ABA-Signalweg vermittelte Phosphorylierung aktiviert, was schlussendlich zur Aktivierung spannungsabh{\"a}ngiger Kationenkan{\"a}le und zum Ausstrom von Kalium aus den Schließzellen f{\"u}hrt. Es konnte gezeigt werden, dass die Nitratabh{\"a}ngigkeit der ABA-Antwort der Schließzellen von Dattelpalmen auf Eigenschaften von PdSLAC1 zur{\"u}ckzuf{\"u}hren ist und dieser Kanal nur in Anwesenheit von extrazellul{\"a}rem Nitrat aktivierbar ist. Mittlerweile konnte, unter anderem basierend auf diesen Ergebnissen, eine Tandem-Aminos{\"a}uresequenz identifiziert werden, die die SLAC-Homologe monokotyler Pflanzen wie der Dattelpalme von der dikotyler Pflanzen unterscheidet und zumindest teilweise f{\"u}r die nitratabh{\"a}ngige Aktivierung des Stomaschlusses vieler monokotyler verantwortlich ist. III. Die Salztoleranz von Phoenix dactylifera und Chenopodium quinoa Sowohl Dattelpalmen als auch C. quinoa weisen, verglichen mit den meisten anderen Pflanzen, eine hohe Toleranz gegen{\"u}ber NaCl-haltigen B{\"o}den auf. In dieser Arbeit habe ich die Salztoleranz beider Arten untersucht, um so Strategien zu identifizieren, die diesen Pflanzen diese gesteigerte Toleranz erm{\"o}glichen. Dattelpalmen k{\"o}nnen nat{\"u}rlicherweise auf salzigen B{\"o}den wachsen. Makroskopisch weisen diese Pflanzen aber keine Anpassungen wie bspw. Salzdr{\"u}sen auf und bislang ist unklar wie Dattelpalmen mit dem NaCl aus dem Boden umgehen. In dieser Arbeit konnte ich zeigen, dass der Natriumgehalt der Fiederbl{\"a}tter der Datteln durch eine sechsw{\"o}chige Bew{\"a}sserung mit 600mM NaCl, was ungef{\"a}hr der Konzentration von Meerwasser entspricht, nicht zunimmt. Demnach sind Datteln so genannte „Exkluder", also Pflanzen, die eine {\"u}berm{\"a}ßige Natriumaufnahme in photosynthetisch aktives Gewebe vermeiden. Der Natriumgehalt der Wurzeln dagegen nahm unter Salzstress aber zu. Diese Zunahme war allerdings in unterschiedlichen Bereichen der Wurzeln verschieden stark. Flammenphotometrische Messungen ergaben einen vom Wurzelansatz ausgehenden graduellen Anstieg des Natriumgehalts, der an der Wurzelspitze am h{\"o}chsten war. Dar{\"u}ber hinaus konnte eine Induktion von PdSOS1, einem putativen Na+/H+-Antiporter in diesen unteren, natriumhaltigen Bereichen nachgewiesen werden. Eine hohe SOS1-Aktivit{\"a}t gilt bereits in anderen toleranten Arten als Schl{\"u}sselmerkmal f{\"u}r deren Toleranz und die gesteigerte Expression von PdSOS1 deutet auf eine erh{\"o}hte Natrium-Exportrate aus der Wurzel zur{\"u}ck in den Boden in diesen unteren Bereichen hin, was schlussendlich den Ausschluss von Natrium vermitteln k{\"o}nnte. In sensitiven Arten f{\"u}hrt Salzstress h{\"a}ufig zu einer Abnahme der Kaliumkonzentration des Gewebes. Interessanterweise war dies weder f{\"u}r das Blatt- noch das Wurzelgewebe der Dattelpalmen der Fall. Der Kaliumgehalt beider Gewebe blieb trotz der Bew{\"a}sserung der Pflanzen mit Salzwasser konstant. Auf expressioneller Ebene konnte ich dar{\"u}ber hinaus zeigen, dass PdHAK5, ein putativer hochaffiner Kaliumtransporter, der unter Kontrollbedingungen {\"u}berwiegend in den oberen Wurzelabschnitten exprimiert wurde, durch den Salzstress dort reprimiert wurde. PdKT, ebenfalls ein putatives Kalium-Transportprotein dagegen, wurde nicht durch die Salzbehandlung beeinflusst, was zusammengenommen darauf hindeutet, dass das Aufrechterhalten des Kaliumgehalts bei Salzstress durch die differentielle Regulation verschiedener Kaliumaufnahmesysteme gew{\"a}hrleistet wird. Der effiziente Ausschluss von Natrium zusammen mit dem hohen K+/Na+-Verh{\"a}ltnis k{\"o}nnten demnach Schl{\"u}sselmerkmale f{\"u}r die hohe Salztoleranz von Phoenix dactylifera darstellen. Quinoa ist, {\"a}hnlich wie die Dattelpalme, eine salztolerante Nutzpflanze. Im Gegensatz zu Dattelpalmen weist Quinoa allerdings besondere Strukturen auf der Epidermis auf, die so genannten epidermalen Blasenhaare (englisch: epidermal bladder cells, EBCs). Die Funktion dieser ballonartig vergr{\"o}ßerten Zellen als externe Salzspeicher wird seit l{\"a}ngerem diskutiert. Flammenphotometrische Messungen des Natriumgehalts von Quinoa unter Salzstressbedingungen ergaben, dass Quinoa anders als Dattelpalmen, Natrium in die oberirdischen, photosynthetisch aktiven Organe aufnimmt. Auch die Zunahme des Natriumgehalts der EBCs konnte ich nachweisen. Junge Bl{\"a}tter haben eine hohe Dichte an intakten EBCs, was deren Funktion als externe Salzspeicher besonders zum Schutz dieser jungen Bl{\"a}tter nahelegt. mRNA-Sequenzierungen ergaben dar{\"u}ber hinaus, dass die EBCs bereits unter Kontrollbedingungen viele in grundlegende Stoffwechselprozesse involvierte Gene sowie membranst{\"a}ndige Transportproteine differentiell exprimieren. Diese Unterschiede im Transkriptom der EBCs zum Blattgewebe zeigen, dass katabole Stoffwechselwege nur eine untergeordnete Rolle in den hochspezialisierten EBCs spielen und deren Stoffwechsel auf dem Import energiereicher Zucker und Aminos{\"a}uren basiert. Mittels qPCR-Messungen und RNA-Sequenzierungen konnte ich die gewebespezifische Expression verschiedener Transportproteine nachweisen, die eine gerichtete Aufnahme von Natrium in EBCs erm{\"o}glichen k{\"o}nnten. Besonders die differentielle Expression eines Natriumkanals der HKT1-Familie deutet auf dessen Beteiligung an der Natriumbeladung der EBCs hin. CqHKT1.2 wurde ausschließlich in EBCs exprimiert und die elektrophysiologische Charakterisierung dieses Transportproteins ergab eine spannungsabh{\"a}ngige Natriumleitf{\"a}higkeit. Dieser Natriumkanal kann demnach die Natriumaufnahme bei Membranspannungen nahe dem Ruhepotential in die EBCs vermitteln und die Deaktivierung des CqHKT1.2 bei depolarisierenden Membranspannungen kann dar{\"u}ber hinaus einen Efflux von Na+ aus den EBCs verhindern. Auch das Expressionsmuster eines putativen Na+/H+-Antiporters (CqSOS1) der nur sehr gering in EBCs aber deutlich h{\"o}her in Blattgewebe exprimiert wurde, deutet auf eine indirekte Beteiligung dieses SOS1 an der Beladung der EBCs hin. Bereits charakterisierte SOS1-Proteine anderer Pflanzen zeigten unter physiologischen Bedingungen eine Natriumexport-Aktivit{\"a}t. CqSOS1 k{\"o}nnte demnach den Export von Natrium aus Mesophyll- und Epidermiszellen der Bl{\"a}tter in den Apoplasten vermitteln, welches dann {\"u}ber CqHKT1.2 in die EBCs aufgenommen wird. Trotz der Natriumaufnahme in die oberirdischen Teile und die EBCs f{\"u}hrte die Salzbehandlung {\"a}hnlich wie bei den Datteln nicht zu einer Abnahme des bemerkenswert hohen Kaliumgehalts. Mittels qPCR-Untersuchungen konnte ich die Expression verschiedener HAK-Orthologe nachweisen, deren Aktivit{\"a}t die Aufrechterhaltung des Kaliumgehalts unter Salzstress vermitteln k{\"o}nnten. Fr{\"u}here Studien konnten zeigen, dass Salzstress bei Quinoa wie bei vielen salztoleranten Arten zu einem Anstieg der Konzentration von kompatiblen gel{\"o}sten Substanzen und besonders von Prolin f{\"u}hrt. In dieser Arbeit konnte ich die hohe Expression eines Prolintransporters in EBCs nachweisen, was eher auf einen importbasierten Anstieg der Prolinkonzentration als auf die Synthese innerhalb der EBCs schließen l{\"a}sst. Zusammengefasst ergaben der Anstieg des Natriumgehalts der EBCs in Verbindung mit den Ergebnissen der RNA-Sequenzierung und den erg{\"a}nzenden qPCR Messungen, dass die EBCs von Quinoa bereits unter Kontrollbedingen f{\"u}r die Aufnahme von {\"u}bersch{\"u}ssigen Ionen unter Salzstress spezialisierte Zellen sind, deren Spezialisierung auf dem Import von energiereichreichen Zucken und anderen Substanzen basiert.}, subject = {Botanik}, language = {de} } @phdthesis{KimbadiLombe2021, author = {Kimbadi Lombe, Blaise}, title = {Novel-Type Dimeric Naphthylisoquinoline Alkaloids from Congolese Ancistrocladus Lianas: Isolation, Structural Elucidation, and Antiprotozoal and Anti-Tumoral Activities}, doi = {10.25972/OPUS-19178}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-191789}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Herein described is the discovery of three novel types of dimeric naphthylisoquinoline alkaloids, named mbandakamines, cyclombandakamines, and spirombandakamines. They were found in the leaves of a botanically as yet unidentified, potentially new Ancistrocladus species, collected in the rainforest of the Democratic Republic of the Congo (DRC). Mbandakamines showed an exceptional 6′,1′′-coupling, in the peri-position neighboring one of the outer axes, leading to an extremely high steric hindrance at the central axis, and to U-turn-like molecular shape, which - different from all other dimeric NIQs, whose basic structures are all quite linear - brings three of the four bicyclic ring systems in close proximity to each other. This created an unprecedented follow-up chemistry, involving ring closure reactions, leading to two further, structurally even more intriguing subclasses, the cyclo- and the spirombandakamines, displaying eight stereogenic elements (the highest total number ever found in naphthylisoquinoline alkaloids). The metabolites exhibited pronounced antiplasmodial and antitrypanosomal activities. Likewise reported in this doctoral thesis are the isolation and structural elucidation of naphthylisoquinoline alkaloids from two further potentially new Ancistrocladus species from DRC. Some of these metabolites have shown pronounced antiausterity activities against human pancreatic cancer PANC-1 cells.}, subject = {Naphthylisochinolinalkaloide}, language = {en} } @phdthesis{Spieler2021, author = {Spieler, Valerie}, title = {Bioinspired drug delivery of interleukin-4}, doi = {10.25972/OPUS-19359}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-193590}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Chronic inflammatory diseases such as rheumatoid arthritis, type 2 diabetes and cardiovascular diseases, are associated with the homeostatic imbalance of one of several physiological systems combined with the lack of spontaneous remission, which causes the disease to persevere throughout patients' lives. The inflammatory response relies mainly on tissue-resident, pro-inflammatory M1 type macrophages and, consequently, a chance for therapeutic intervention lies in driving macrophage polarization towards the anti-inflammatory M2 phenotype. Therefore, anti-inflammatory cytokines that promote M2 polarization, including interleukin-4 (IL4), have promising therapeutic potential. Unfortunately, their systemic use is hampered by a short serum half-life and dose-limiting toxicity. On the way towards cytokine therapies with superior safety and efficacy, this thesis is focused on designing bioresponsive delivery systems for the anti-inflammatory cytokine IL4. Chapter 1 describes how anti-inflammatory cytokines are tightly regulated in chronic, systemic inflammation as in rheumatoid arthritis but also in acute, local inflammation as in myocardial infarction. Both diseases show a characteristic progression during which anti-inflammatory cytokine delivery is of variable benefit. A conventional, passive drug delivery system is unlikely to release the cytokines such that the delivery matches the dynamic course of the (patho-)physiological progress. This chapter presents a blueprint for active drug delivery systems equipped with a 24/7 inflammation detector that continuously senses for matrix metalloproteinases (MMP) as surrogate markers of the disease progress and responds by releasing cytokines into the affected tissues at the right time and place. Because they are silent during phases of low disease activity, bioresponsive depots could be used to treat patients in asymptomatic states, as a preventive measure. The drug delivery system only gets activated during flares of inflammation, which are then immediately suppressed by the released cytokine drug and could prevent the steady damage of subclinical chronic inflammation, and therefore reduce hospitalization rates. In a first proof of concept study on controlled cytokine delivery (chapter 2), we developed IL4-decorated particles aiming at sustained and localized cytokine activity. Genetic code expansion was deployed to generate muteins with the IL4's lysine 42 replaced by two different unnatural amino acids bearing a side chain suitable for click chemistry modification. The new IL4 muteins were thoroughly characterized to ensure proper folding and full bioactivity. Both muteins showed cell-stimulating ability and binding affinity to IL4 receptor alpha similar to those of wild type IL4. Copper-catalyzed (CuAAC) and strain-promoted (SPAAC) azide-alkyne cycloadditions were used to site-selectively anchor IL4 to agarose particles. These particles had sustained IL4 activity, as demonstrated by the induction of TF-1 cell proliferation and anti-inflammatory M2 polarization of M-CSF-generated human macrophages. This approach of site-directed IL4 anchoring on particles demonstrates that cytokine-functionalized particles can provide sustained and spatially controlled immune-modulating stimuli. The idea of a 24/7 sensing, MMP driven cytokine delivery system, as described in the introductory chapter, was applied in chapter 3. There, we simulated the natural process of cytokine storage in the extracellular matrix (ECM) by using an injectable solution of IL4 for depot formation by enzyme-catalyzed covalent attachment to ECM components such as fibronectin. The immobilized construct is meant to be cleaved from the ECM by matrix-metalloproteinases (MMPs) which are upregulated during flares of inflammation. These two functionalities are facilitated by a peptide containing two sequences: a protease-sensitive peptide linker (PSL) for MMP cleavage and a sequence for covalent attachment by activated human transglutaminase FXIIIa (TGase) included in the injection mix for co-administration. This peptide was site-selectively conjugated to the unnatural amino acid at IL4 position 42 allowing to preserve wild type bioactivity of IL4. In vitro experiments confirmed the anticipated MMP response towards the PSL and TGase-mediated construct attachment to fibronectin of the ECM. Furthermore, the IL4-peptide conjugates were able to reduce inflammation and protect non-load bearing cartilage along with the anterior cruciate ligament from degradation in an osteoarthritis model in rabbits. This represents the first step towards a minimally invasive treatment option using bioresponsive cytokine depots with potential clinical value for inflammatory conditions. One of the challenges with this approach was the production of the cytokine conjugate, with incorporation of the unnatural amino acid into IL4 being the main bottleneck. Therefore, in chapter 4, we designed a simplified version of this depot system by genetically fusing the bifunctional peptide via a flexible peptide spacer to murine IL4. While human IL4 loses its activity upon C-terminal elongation, murine IL4 is not affected by this modification. The produced murine IL4 fusion protein could be effectively bound to in vitro grown extracellular matrix in presence of TGase. Moreover, the protease-sensitive linker was selectively recognized and cleaved by MMPs, liberating intact and active IL4, although at a slower rate than expected. Murine IL4 offers the advantage to evaluate the bioresponsive cytokine depot in many available mouse models, which was so far not possible with human IL4 due to species selectivity. For murine IL4, the approach was further extended to systemic delivery in chapter 5. To increase the half-life and specifically target disease sites, we engineered a murine IL4 variant conjugated with a folate-bearing PEG chain for targeting of activated macrophages. The bioactive IL4 conjugate had a high serum stability and the PEGylation increased the half-life to 4 h in vivo. Surprisingly, the folate moiety did not improve targeting in an antigen-induced arthritis (AIA) mouse model. IL4-PEG performed better in targeting the inflamed joint, while IL4-PEG-folate showed stronger accumulation in the liver. Fortunately, the modular nature of the IL4 conjugate facilitates convenient adaption of PEG chain length and the targeting moiety to further improve the half-life and localization of the cytokine. In summary, this thesis describes a platform technology for the controlled release of cytokines in response to inflammation. By restricting the release of the therapeutic to the site of inflammation, the benefit-risk ratio of this potent class of biologics can be positively influenced. Future research will help to deepen our understanding of how to perfectly combine cytokine, protease-sensitive linker and immobilization tag or targeting moiety to tackle different diseases.}, subject = {Targeted drug delivery}, language = {en} } @phdthesis{Wurst2021, author = {Wurst, Catherina}, title = {Eingeschr{\"a}nktes Furchtlernen bei {\"a}ngstlich und nicht-{\"a}ngstlich depressiven Patienten}, doi = {10.25972/OPUS-20503}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-205034}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Depressionen und Angstst{\"o}rungen sind die beiden h{\"a}ufigsten psychischen Erkrankungen. F{\"u}r Angstst{\"o}rungen wurde in zahlreichen Untersuchungen die Bedeutung ver{\"a}nderter Muster in den basalen emotional-assoziativen Lernprozessen f{\"u}r die {\"A}tiologie und Aufrechterhaltung der Erkrankung gezeigt. Hierzu z{\"a}hlen eine verst{\"a}rkte Akquisitionsreaktion auf den konditionierten Stimulus, Defizite in der Inhibition der Furchtreaktion auf den Sicherheit signalisierenden Stimulus, {\"U}bergeneralisierung und Beeintr{\"a}chtigungen in der Extinktion konditionierter Reaktionen. Aufgrund der hohen Pr{\"a}valenzen einer Komorbidit{\"a}t mit Depressionen r{\"u}ckte in den letzten Jahren zunehmend die Untersuchung der genannten Prozesse bei Depressionen in den Fokus. Hierf{\"u}r konnten bisher keine einheitlichen Ergebnisse gezeigt werden. Weiterhin wird der Subtyp der {\"a}ngstlichen Depression einerseits mit hohen Pr{\"a}valenzen beschrieben, andererseits zeigen Untersuchungen eine schlechtere Prognose, st{\"a}rkere Einschr{\"a}nkungen in der Funktionalit{\"a}t und ein schlechteres Ansprechen auf die Therapie im Vergleich zu depressiven Patienten ohne hohes {\"A}ngstlichkeitsniveau. In dieser Arbeit wurden die Akquisition, Generalisierung und Extinktion in einem differentiellen Konditionierungsparadigma bei schwer depressiven {\"a}ngstlichen und nicht {\"a}ngstlich-depressiven Patienten sowie einer gesunden Kontrollgruppe untersucht. {\"A}ngstliche und nicht {\"a}ngstlich-depressive Patienten zeigten ein beeintr{\"a}chtigtes Sicherheitslernen in der Akquisition und Beeintr{\"a}chtigungen in der Extinktion der konditionierten Furcht. Es ergaben sich keine Unterschiede hinsichtlich der St{\"a}rke der Generalisierung zwischen Patienten und den gesunden Kontrollen und es konnten keine differenzierenden Muster zwischen den {\"a}ngstlich- und den nicht {\"a}ngstlich-depressiven Patienten gezeigt werden. Zusammenfassend weisen die Ergebnisse auf Ver{\"a}nderungen im Furchtlernen bei Patienten mit Depressionen hin. Es konnten keine Belege f{\"u}r unterschiedliche Mechanismen im Furchtlernen von {\"a}ngstlich- und nicht {\"a}ngstlich-depressiven Patienten gefunden werden. Unsere Ergebnisse st{\"u}tzen somit die Klassifikation der {\"a}ngstlichen Depression als Subtyp der Depression. Weiterhin weisen die Ergebnisse der beeintr{\"a}chtigten Extinktion bei Patienten mit Depressionen darauf hin, dass Expositionselemente, welche bei der Therapie von Angstst{\"o}rungen als Verfahren der Wahl eingesetzt werden, auch bei der Behandlung von Depressionen integriert werden sollten, um so den Therapieerfolg zu verbessern.}, subject = {Depression}, language = {de} } @phdthesis{daCruzGueerisoli2021, author = {da Cruz G{\"u}erisoli, Irene Maria}, title = {Investigating the murine meiotic telomere complex TERB1-TERB2-MAJIN: spatial organization and evolutionary history}, doi = {10.25972/OPUS-21056}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-210562}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Einess der faszinierenden Merkmale der meiotischen Prophase I sind die hochkonservierten kr{\"a}ftigen Bewegungen homologer Chromosomen. Diese Bewegungen sind entscheidend f{\"u}r den Erfolg von Schl{\"u}sselereignissen wie die Ausrichtung, Paarung und Rekombination der homologen Chromosomen. Mehrere bisher untersuchte Organismen, darunter S{\"a}ugetiere, W{\"u}rmer, Hefen und Pflanzen, erreichen diese Bewegungen, indem sie die Chromosomenenden an spezialisierten Stellen in der Kernh{\"u}lle verankern. Diese Verankerung erfordert Telomer-Adapterproteine, die bisher in der Spalthefe und der Maus identifiziert wurden. Die meiosespezifischen Telomer-Adapterproteine der Maus, TERB1, TERB2 und MAJIN, sind an der Verankerung des ubiquit{\"a}ren Telomer-Shelterin-protein an den LINC-Komplex beteiligt, mit einem analogen Mechanismus, wie er die Spalthefe beschrieben wird. Obgleich die meiose-spezifischen TelomerAdapterproteine eine wesentliche Rolle spielen, ist der genaue Mechanismus der Verankerung der Telomere an die Kernh{\"u}lle sowie ihre evolution{\"a}re Geschichte bisher noch wenig verstanden. Das Hauptziel dieser Arbeit ist daher die Untersuchung der Organisation des meiosespezifischen TelomerAdapterkomplexes TERB1-TERB2-MAJIN der Maus und dessen Evolutionsgeschichte. Im ersten Teil dieser Arbeit wurde die Organisation des TERB1-TERB2-MAJIN Komplexes mittels hochaufl{\"o}sender Mikroskopie (SIM), an Mausspermatozyten untersucht, sowie die Lokalisation in Bezug auf TRF1 des Telomer-ShelterinKomplexes und die telomerische DNA analysiert. In den Stadien Zygot{\"a}n und Pachyt{\"a}n zeigten die Fluoreszenzsignale eine starke {\"U}berlappung der Verteilung der meiotischen Telomer-Komplex-Proteine, wobei die Organisation von TERB2 an den Chromosomenenden heterogener war als die von TERB1 und MAJIN. Außerdem konnte die TRF1-Lokalisation an den Enden der Lateralelemente (LEs) mit einer griffartigen Anordnung um die TERB1- und MAJIN-Signale im Zygot{\"a}n- und Pachyt{\"a}n-Stadium gezeigt werden. Interessanterweise erwies sich die telomerische DNA als lateral verteilt und teilweise {\"u}berlappend mit der zentralen Verteilung der meiotischen Telomer-Komplex-Proteine an den Enden der LEs. Die Kombination dieser Ergebnisse erlaubte die Beschreibung eines alternativen Modells der Verankerung der Telomer an die Kernh{\"u}lle w{\"a}hrend der meiotischen Prophase I. Der zweite Teil dieser Arbeit analysiert die Evolutionsgeschichte der Mausproteine von TERB1, TERB2 und MAJIN. Die fehlende {\"U}bereinstimmung zwischen den Meiose-spezifische Telomer-Adapteproteinen der Maus und der Spalthefe hat die Frage nach dem evolutionsbedingten Ursprung dieses spezifischen Komplexes aufgeworfen. Um vermeintliche Orthologen der Mausproteinevon TERB1, TERB2 und MAJIN {\"u}ber Metazoen hinweg zu identifizieren, wurden computergest{\"u}tzte Verfahren und phylogenetische Analysen durchgef{\"u}hrt. Dar{\"u}ber hinaus wurden Expressionsstudien implementiert, um ihre potenzielle Funktion w{\"a}hrend der Meiose zu testen. Die Analysen haben ergeben, dass der Meiose-spezifische Telomer-Komplex der Maus sehr alt ist, da er bereits in den Eumetazoen entstand, was auf einen einzigen Ursprung hindeutet. Das Fehlen jeglicher Homologen des meiosespezifischen Telomerkomplexes in Nematoden und die einigen wenigen in Arthropoden nachgewiesenen Kandidaten, deuten darauf hin, dass die Telomer-Adapterproteine in diesen Abstammungslinien verloren/ersetzt oder stark diversifiziert worden sind. Bemerkenswerterweise zeigten Proteindom{\"a}nen von TERB1, TERB2 und MAJIN, die an der Bildung des Komplexes sowie an der Interaktion mit dem Telomer-Shelterin-Protein und den LINC-Komplexen beteiligt sind, eine hohe Sequenz{\"a}hnlichkeit {\"u}ber alle Kladen hinweg. Abschließend lieferte die Genexpression im Nesseltier Hydra vulgaris den Beweis, dass der TERB1-TERB2-MAJIN-Komplex selektiv in der Keimbahn exprimiert wird, was auf die Konservierung meiotischer Funktionen {\"u}ber die gesamte Metazoen-Evolution hinweg hindeutet. Zusammenfassend bietet diese Arbeit bedeutende neue Erkenntnisse hinsichtlich des Meiose-spezifischen Telomer-Adapterkomplex, seines Mechanismus zur Verankerung der Telomer an die Kernh{\"u}lle und die Entschl{\"u}sselung seines Ursprungs in den Metazoen.}, language = {en} } @phdthesis{MezaChincha2021, author = {Meza Chincha, Ana Lucia}, title = {Catalytic Water Oxidation with Functionalized Ruthenium Macrocycles}, doi = {10.25972/OPUS-20962}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-209620}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {In light of the rapidly increasing global demand of energy and the negative effects of climate change, innovative solutions that allow an efficient transition to a carbon-neutral economy are urgently needed. In this context, artificial photosynthesis is emerging as a promising technology to enable the storage of the fluctuating energy of sunlight in chemical bonds of transportable "solar fuels". Thus, in recent years much efforts have been devoted to the development of robust water oxidation catalysts (WOCs) leading to the discovery of the highly reactive Ru(bda) (bda: 2,2'-bipyridine-6,6'-dicarboxylic acid) catalyst family. The aim of this thesis was the study of chemical and photocatalytic water oxidation with functionalized Ruthenium macrocycles to explore the impact of substituents on molecular properties and catalytic activities of trinuclear macrocyclic Ru(bda) catalysts. A further objective of this thesis comprises the elucidation of factors that influence the light-driven water oxidation process with this novel class of supramolecular WOCs.}, subject = {Rutheniumkomplexe}, language = {en} } @phdthesis{Prieschl2021, author = {Prieschl, Dominic}, title = {Reaktivit{\"a}tsstudien zu Diboranen(4) und NHC-stabilisierten µ-Hydridodiboranen(5)}, doi = {10.25972/OPUS-21074}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-210749}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Die vorliegende Arbeit behandelt im ersten Abschnitt die Synthese und Reaktivit{\"a}t neuartiger Diborane(4). Ebenfalls wurde die Reaktivit{\"a}t von Dihalogendiboranen(4) gegen{\"u}ber Phenylazid untersucht, wobei symmetrische Vertreter unter Beibehalt der B-B-Bindung die f{\"u}nfgliedrigen B2N3 Heterocyclen 14 und 15 lieferten. Der zweite Abschnitt dieser Arbeit besch{\"a}ftigt sich mit der unerwarteten Reaktivit{\"a}t der NHC-stabilisierten μ-Hydridodiborane(5) XXIII und XXIV. Der abschließende Teil dieser Arbeit befasst sich mit den ersten Versuchen zur Darstellung eines CAAC-stabilisierten, Diboranyl-substituierten Borylens.}, subject = {Diborane}, language = {de} } @phdthesis{Hock2021, author = {Hock, Andreas}, title = {NHC-stabilized Alanes and Gallanes}, doi = {10.25972/OPUS-21252}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-212525}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {This thesis describes the synthesis and reactivity of NHC-stabilized Lewis-acid/Lewis-base adducts of alanes and gallanes (NHC = Me2ImMe, iPr2Im, iPr2ImMe, Dipp2Im, Dipp2ImH). As this field of research has developed tremendously, especially in the last five years, the first chapter provides an overview of the current state of knowledge. The influence of electronegative π-donor-substituents on the stability of the NHC alane adducts is examined in chapter 2. For this purpose, the carbene stabilized alanes (NHC)∙AlH3 (NHC = iPr2Im, Dipp2Im) were reacted with secondary amines of different steric demand and with phenols. The π-donor substituents saturate the Lewis acidic aluminium center and coordination of a second NHC-ligand was not observed. The strongly electronegative N and O substituents increase the Lewis acidity of the aluminium atom, which leads to stronger Al-CNHC as well as Al-H bonds, which inhibits the insertion of the carbene into the Al-H bond. In Chapter 3 the development of the synthesis and reactivity of carbene-stabilized gallanes is presented. The synthesis of NHC gallane adducts (NHC)∙GaH3, (NHC)∙GaH2Cl and (NHC)∙GaHCl2 and their reactivity towards NHCs and cAACMe were investigated in detail. The reaction of the mono- and dichlorogallanes (NHC)∙GaH2Cl and (NHC)∙GaHCl2 (NHC = iPr2ImMe, Dipp2Im) with cAACMe led to insertion of the cAACMe with formation of chiral and achiral compounds depending on the sterically demand of the used NHC. Furthermore, the formation of bis-alkylgallanes was observed for the insertion of two equivalents of cAACMe with release of the NHC ligand. Chapter 4 describes investigations concerning the synthesis and reactivity of NHC-stabilized iodoalanes and iodogallanes, which are suitable for the formation of cationic aluminium and gallium dihydrides. The reaction of (NHC)∙EH2I (E = Al, Ga) stabilized by the sterically less demanding NHCs (NHC = Me2ImMe, iPr2Im, iPr2ImMe) with an additional equivalent of the NHC led to the formation of the cationic bis-NHC aluminium and gallium dihydrides [(NHC)2∙AlH2]+I- and [(NHC)2∙GaH2]+I-. Furthermore, the influence of the steric demand of the used NHC was investigated. The adduct (Dipp2Im)∙GaH2I was reacted with an additional equivalent of Dipp2Im. Due to the bulk of the NHC used, rearrangement of one of the NHC ligands from normal to abnormal coordination occurred and the cationic gallium dihydride [(Dipp2Im)∙GaH2(aDipp2Im)] was isolated. Chapter 5 of this thesis reports investigations concerning the reduction of cyclopentadienyl-substituted alanes and gallanes with singlet carbenes. NHC stabilized pentamethylcyclopentadienyl aluminium and gallium dihydrides (NHC)∙Cp*MH2 (E = Al, Ga) were prepared by the reaction of (AlH2Cp*)3 with the corresponding NHCs or by the salt elimination of (NHC)∙GaH2I with KCp*. The gallane adducts decompose at higher temperatures with reductive elimination of Cp*H and formation of Cp*GaI. . The reductive elimination is preferred for sterically demanding NHCs (Dipp2Im > iPr2ImMe > Me2ImMe). In addition, NHC ring expansion of the backbone saturated carbene Dipp2ImH was observed for the reaction of the NHC with (AlH2Cp*)3, which led to (RER-Dipp2ImHH2)AlCp*. Furthermore, the reactivity of the adducts (NHC)∙Cp*EH2 (E = Al, Ga) towards cAACMe was investigated. The reaction of the alane adducts stabilized by the sterically more demanding NHCs iPr2ImMe and Dipp2Im afforded the exceptionally stable insertion product (cAACMeH)Cp*AlH V-10 with liberation of the NHC. The reaction of the gallium hydrides (NHC)∙Cp*GaH2 with cAACMe led to the reductive elimination of cAACMeH2 and formation of Cp*GaI. A variety of neutral and cationic carbene-stabilized alanes and gallanes are presented in this work. The introduction of electronegative π-donor substituents (Cl-, I-, OR-, NR2-) and the investigations on the thermal stability of these compounds led to the conclusion that the stability of alanes and gallanes increased significantly by such a substitution. Investigations on the reactivity of the NHC adducts towards cAACMe resulted in various insertion products of the carbene into the Al-H or Ga-H bonds and the first cAACMe stabilized dichlorogallane was isolated. Furthermore, a first proof was provided that carbenes can be used specifically for the (formal) reduction of group 13 hydrides of the higher homologues. Thus, the synthesis of Cp*GaI from the reaction of (NHC)∙Cp*GaH2 with cAACMe was developed. In the future, this reaction pathway could be of interest for the preparation of other low-valent compounds of aluminium and gallium.}, subject = {Aluminiumhydridderivate}, language = {en} } @phdthesis{PeethambaranNairSyamala2021, author = {Peethambaran Nair Syamala, Pradeep}, title = {Bolaamphiphilic Rylene Bisimides: Thermodynamics of Self-assembly and Stimuli-responsive Properties in Water}, doi = {10.25972/OPUS-21342}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-213424}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The present thesis demonstrates how different thermodynamic aspects of self-assembly and stimuli-responsive properties in water can be encoded on the structure of π-amphiphiles, consisting of perylene or naphthalene bisimide cores. Initially, quantitative thermodynamic insights into the entropically-driven self-assembly was studied for a series of naphthalene bisimides with UV/Vis and ITC measurements, which demonstrated that their thermodynamic profile of aggregation is heavily influenced by the OEG side chains. Subsequently, a control over the bifurcated thermal response of entropically driven and commonly observed enthalpically driven self-assembly was achieved by the modulation of glycol chain orientation. Finally, Lower Critical Solution Temperature (LCST) phenomenon observed for these dyes was investigated as a precise control of this behavior is quintessential for self-assembly studies as well as to generate 'smart' materials. It could be shown that the onset of phase separation for these molecules can be encoded in their imide substituents, and they are primarily determined by the supramolecular packing, rather than the hydrophobicity of individual monomers.}, subject = {Supramolekulare Chemie}, language = {en} } @phdthesis{Wehner2021, author = {Wehner, Marius}, title = {Supramolecular Polymorphism in Homo- and Heterochiral Supramolecular Polymerizations}, doi = {10.25972/OPUS-21151}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-211519}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The aim of the first part of this thesis was to investigate (R,R)-PBI as a model system for polymorphism at its origin by a supramolecular approach. The pathway complexity of (R,R)-PBI was fine-tuned by experimental parameters such as solvent, temperature and concentration to make several supramolecular polymorphs accessible. Mechanistic and quantum chemical studies on the kinetics and thermodynamics of the supramolecular polymerization of (R,R)-PBI were conducted to shed light on the initial stages of polymorphism. The second part of this work deals with mechanistic investigations on the supramolecular polymerization of the racemic mixture of (R,R)- and (S,S)-PBI with regard to homochiral and heterochiral aggregation leading to conglomerates and a racemic supramolecular polymer, respectively.}, subject = {Supramolekulare Chemie}, language = {en} } @phdthesis{Hermann2021, author = {Hermann, Alexander}, title = {Untersuchung von B-B-Doppelbindungen als Bestandteil konjugierter p-Systeme}, doi = {10.25972/OPUS-20459}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204592}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Der erste Teil dieser Arbeit besch{\"a}ftigt sich mit der "Synthese und Reaktivit{\"a}t sterisch anspruchsvoller Iminoborane". Dabei war es m{\"o}glich, ausgehend von einem Terphenylamin geeignete Aminoborane zu synthetisieren, welche anschließend mit starken, nicht-nukleophilen Basen umgesetzt wurden. Mittels formaler HCl-Eliminierung mit LiTmp gelang auf diese Weise die Darstellung sterisch anspruchsvoller Iminoborane. Der zweite Teil dieser Arbeit befasst sich mit der "Untersuchung von B-B-Doppelbindungen als Bestandteil konjugierter p-Systeme". Durch die Verwendung von sterisch wenig anspruchsvollen Liganden oder Boryl-Substituenten war es m{\"o}glich planare Diboren-Systeme zu generieren und dar{\"u}berhinaus Divinyldiborene darzustellen.}, subject = {Konjugation}, language = {de} } @phdthesis{Tylek2021, author = {Tylek, Tina}, title = {Establishment of a Co-culture System of human Macrophages and hMSCs to Evaluate the Immunomodulatory Properties of Biomaterials}, doi = {10.25972/OPUS-20357}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-203570}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The outcome of the innate immune response to biomaterials mainly determines whether the material will be incorporated in the body to fulfill its desired function or, when it gets encapsulated, will be rejected in the worst case. Macrophages are key players in this process, and their polarization state with either pro- (M1), anti-inflammatory (M2), or intermediate characteristics is crucial for deciding on the biomaterial's fate. While a transient initial pro-inflammatory state is helpful, a prolonged inflammation deteriorates the proper healing and subsequent regeneration. Therefore, biomaterial-based polarization may aid in driving macrophages in the desired direction. However, the in vivo process is highly complex, and a mono-culture of macrophages in vitro displays only one part of the cellular system, but, to this date, there is a lack of established co-cultures to assess the immune response to biomaterials. Thus, this thesis aimed to establish a functional co-culture system of human macrophages and human mesenchymal stromal cells (hMSCs) to improve the assessment of the immune response to biomaterials in vitro. Together with macrophages, hMSCs are involved in tissue regeneration and inflammatory reactions and can modulate the immune response. In particular, endogenously derived hMSCs considerably contribute to the successful engrafting of biomaterials. This thesis focused on poly(ε-caprolactone) (PCL) fiber-based scaffolds produced by the technique of melt electrowriting (MEW) as biomaterial constructs. Via this fabrication technique, uniform, precisely ordered scaffolds varying in geometry and pore size have been created in-house. To determine the impact of scaffold geometries and pore sizes on macrophages, mono-cultures incubated on scaffolds were conducted. As a pre-requisite to achieve a functional co-culture system on scaffolds, setups for direct and indirect systems in 2D have initially been established. These setups were analyzed for the capability of cell-cell communication. In parallel, a co-culture medium suitable for both cell types was defined, prior to the establishment of a step-by-step procedure for the co-cultivation of human macrophages and hMSCs on fiber-based scaffolds. Regarding the scaffold morphologies tested within this thesis to improve M2-like polarization, box-shaped scaffolds outperformed triangular-, round- or disordered-shaped ones. Upon further investigation of scaffolds with box-shaped pores and precise inter-fiber spacing from 100 µm down to only 40 µm, decreasing pore sizes facilitated primary human macrophage elongation accompanied by their differentiation towards the M2 type, which was most pronounced for the smallest pore size of 40 µm. To the best of my knowledge, this was the first time that the elongation of human macrophages in a 3D environment has been correlated to their M2-like polarization. Thus, these results may set the stage for the design, the assessment, and the selection of new biomaterials, which can positively affect the tissue regeneration. The cell communication of both cell types, detected via mitochondria exchange in direct and indirect co-cultures systems, took place in both directions, i.e., from hMSCs to macrophages and vice versa. Thereby, in direct co-culture, tunneling nanotubes enabled the transfer from one cell type to the respective other, while in indirect co-culture, a non-directional transfer through extracellular vesicles (EVs) released into the medium seemed likely. Moreover, the phagocytic activity of macrophages after 2D co-cultivation and hence immunomodulation by hMSCs increased with the highest phagocytic rate after 48 h being most pronounced in direct co-cultivation. As the commonly used serum supplements for macrophages and hMSCs, i.e., human serum (hS) and fetal calf serum (FCS), respectively, failed to support the respective other cell type during prolonged cultivation, these sera were replaced by human platelet lysate (hPL), which has been proven to be the optimal supplement for the co-cultivation of human macrophages with hMSCs within this thesis. Thereby, the phenotype of both cell types, the distribution of both cell populations, the phagocytic activity of macrophages, and the gene expression profiles were maintained and comparable to the respective standard mono-culture conditions. This was even true when hPL was applied without the anticoagulant heparin in all cultures with macrophages, and therefore, heparin was omitted for further experiments comprising hPL and macrophages. Accordingly, a step-by-step operating procedure for the co-cultivation on fiber-based scaffolds has been established comprising the setup for 3D cultivation as well as the description of methods for the analysis of phenotypical and molecular changes upon contact with the biomaterial. The evaluation of the macrophage response depending on the cultivation with or without hMSCs and either on scaffolds or on plastic surfaces has been successfully achieved and confirmed the functionality of the suggested procedures. In conclusion, the functional co-culture system of human macrophages and hMSCs established here can now be employed to assess biomaterials in terms of the immune response in a more in vivo-related way. Moreover, specifically designed scaffolds used within the present thesis showed auspicious design criteria positively influencing the macrophage polarization towards the anti-inflammatory, pro-healing type and might be adaptable to other biomaterials in future approaches. Hence, follow-up experiments should focus on the evaluation of the co-culture outcome on promising scaffolds, and the suggested operating procedures should be adjusted to further kinds of biomaterials, such as cements or hydrogels.}, subject = {Makrophage}, language = {en} } @phdthesis{Joshi2021, author = {Joshi, Hemant Kumar}, title = {Function of IRAK2 in macrophages and HECTD1 in B cells}, doi = {10.25972/OPUS-15084}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-150846}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The Immune system exerts its response against invading pathogens via a cumulative, sequential cooperation of immune cells coordinated by their secreted products. Immune cells, such as macrophages and dendritic cells (DCs), express toll-like receptors (TLRs) to sense the presence of pathogens through pathogen-associated molecular patterns (PAMPs). The interaction of PAMPs with TLRs elicits a cytosolic signaling cascade that enhances the expression of genes to stimulate inflammation. Interleukin 1 receptor-associated kinase 2 (IRAK2) is a component of the TLR signaling pathway. IRAK2 transduces the TLR signal via a direct interaction with TNF receptor-associated factor 6 (TRAF6) and subsequent enhancement of its ubiquitination. During my PhD thesis, I determined that a 55-amino acid long stretch at the C-terminal end of IRAK2 is important for TLR signaling. Overexpression of C-terminal truncated IRAK2 (IRAK2Δ55) in the murine macrophage cell line RAW 264.7 led to impaired CD40 expression after TLR4 stimulation by Lipopolysaccharide (LPS). I observed attenuated competency of IRAK2Δ55 in restoring a full TLR signaling response i.e. IL-6 secretion, NO production and CD40 expression in IRAK2-deficient RAW cells generated via CRISPR-Cas9 approach. Additionally, diminished TLR4 induced activation of nuclear factor κB (NF-κB) and extracellular signal related kinase (ERK) was observed with IRAK2Δ55 reconstituted RAW cells as compared to cell reconstituted with wildtype IRAK2. IRAK2Δ55 reconstituted RAW cells also exhibited reduced TLR4-induced cell death and phosphorylation of receptor interacting protein kinase 3 (RIP3). Co-immunoprecipitation experiments in HEK 293T cells showed that IRAK2Δ55 was still able to bind to TRAF6 alike IRAK2 but failed to induce ubiquitination of TRAF6. In conclusion, the results suggest that the IRAK2 TRAF6 interaction is not sufficient to sustain full TLR signaling. An C-terminus-dependent unknown molecular mechanism is also involved. Through my PhD work, I also analyzed a B cell lineage-specific HECTD1 knock-out mice. HECTD1 is an E3 ubiquitin ligase for various substrate proteins, such as heat shock protein 90 (HSP90), adenomatous polyposis coli and phosphatidylinositol phosphate kinase type 1 γ. Hsp90 regulates a variety of signaling molecules in NF-κB activation pathways which are essential for an optimal B cell response. HECTD1-deficient pro-B cells developed normally into mature B cells. However, TLR4 stimulated HECTD1-deficient B cells displayed reduced immunoglobulin (Ig) production in in vitro cultures. In addition, mice with HECTD1-deficient B cells showed a diminished Ig response after nitrophenylacetyl-keyhole limpet hemocyanin immunization. Thus, HECTD1 is necessary for efficient Ig secretion.}, subject = {Toll-like-Rezeptoren}, language = {en} } @phdthesis{Blum2021, author = {Blum, Carina}, title = {A first step to an integral biointerface design for the early phase of regeneration}, doi = {10.25972/OPUS-21211}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-212117}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The implantation of any foreign material into the body automatically starts an immune reaction that serves as the first, mandatory step to regenerate tissue. The course of this initial immune reaction decides on the fate of the implant: either the biomaterial will be integrated into the host tissue to subsequently fulfill its intended function (e.g., tissue regeneration), or it will be repelled by fibrous encapsulation that determines the implant failure. Especially neutrophils and macrophages play major roles during this inflammatory response and hence mainly decide on the biomaterial's fate. For clinically relevant tissue engineering approaches, biomaterials may be designed in shape and morphology as well as in their surface functionality to improve the healing outcome, but also to trigger stem cell responses during the subsequent tissue regeneration phase. The main focus of this thesis was to unravel the influence of scaffold characteristics, including scaffold morphology and surface functionality, on primary human innate immune cells (neutrophils and macrophages) and human mesenchymal stromal cells (hMSCs) to assess their in vitro immune response and tissue regeneration capacity, respectively. The fiber-based constructs were produced either via melt electrowriting (MEW), when the precise control over scaffold morphology was required, or via solution electrospinning (ES), when the scaffold design could be neglected. All the fiber-based scaffolds used throughout this thesis were composed of the polymer poly(ε caprolactone) (PCL). A novel strategy to model and alleviate the first direct cell contact of the immune system with a peptide-bioactived fibrous material was presented in chapter 3 by treating the material with human neutrophil elastase (HNE) to imitate the neutrophil attack. The main focus of this study was put on the effect of HNE towards an RGDS-based peptide that was immobilized on the surface of a fibrous material to improve subsequent L929 cell adhesion. The elastase efficiently degraded the peptide-functionality, as evidenced by a decreased L929 cell adhesion, since the peptide integrated a specific HNE-cleavage site (AAPV-motif). A sacrificial hydrogel coating based on primary oxidized hyaluronic acid (proxHA), which dissolved within a few days after the neutrophil attack, provided an optimal protection of the peptide-bioactivated fibrous mesh, i.e, the hydrogel alleviated the neutrophil attack and largely ensured the biomaterial's integrity. Thus, according to these results, a means to protect the biomaterial is required to overcome the neutrophil attack. Chapter 4 was based on the advancement of melt electrowriting (MEW) to improve the printing resolution of MEW scaffolds in terms of minimal inter-fiber distances and a concomitant high stacking precision. Initially, to gain a better MEW understanding, the influence of several parameters, including spinneret diameter, applied pressure, and collector velocity on mechanical properties, crystallinity, fiber diameter and fiber surface morphology was analyzed. Afterward, innovative MEW designs (e.g., box-, triangle-, round , and wall-shaped scaffolds) have been established by pushing the printing parameters to their physical limits. Further, the inter-fiber distance within a standardized box-structured scaffold was successfully reduced to 40 µm, while simultaneously a high stacking precision was maintained. In collaboration with a co-worker of my department (Tina Tylek, who performed all cell-based experiments in this study), these novel MEW scaffolds have been proven to facilitate human monocyte-derived macrophage polarization towards the regenerative M2 type in an elongation-driven manner with a more pronounced effect with decreasing pore sizes. Finally, a pro-adipogenic platform for hMSCs was developed in chapter 5 using MEW scaffolds with immobilized, complex ECM proteins (e.g., human decellularized adipose tissue (DAT), laminin (LN), and fibronectin (FN)) to test for the adipogenic differentiation potential in vitro. Within this thesis, a special short-term adipogenic induction regime enabled to more thoroughly assess the intrinsic pro-adipogenic capacity of the composite biomaterials and prevented any possible masking by the commonly used long-term application of adipogenic differentiation reagents. The scaffolds with incorporated DAT consistently showed the highest adipogenic outcome and hence provided an adipo-inductive microenvironment for hMSCs, which holds great promise for applications in soft tissue regeneration. Future studies should combine all three addressed projects in a more in vivo-related manner, comprising a co-cultivation setup of neutrophils, macrophages, and MSCs. The MEW-scaffold, particularly due to its ability to combine surface functionality and adjustable morphology, has been proven to be a successful approach for wound healing and paves the way for subsequent tissue regeneration.}, subject = {Scaffold }, language = {en} } @phdthesis{ScheideNoeth2021, author = {Scheide-N{\"o}th, Jan-Philipp}, title = {Activation of the Interleukin-5 receptor and its inhibition by cyclic peptides}, doi = {10.25972/OPUS-18250}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-182504}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The cytokine interleukin-5 (IL-5) is part of the TH2-mediated immune response. As a key regulator of eosinophilic granulocytes (eosinophils), IL-5 controls multiple aspects of eosinophil life. Eosinophils play a pathogenic role in the onset and progression of atopic diseases as well as hypereosinophilic syndrome (HES). Here, cytotoxic proteins and pro-inflammatory mediators stored in intracellular vesicles termed granula are released upon activation thereby causing local inflammation to fight the pathogen. However, if such inflammation persists, tissue damage and organ failure can occur. Due to the close relationship between eosinophils and IL-5 this cytokine has become a major pharmaceutical target for the treatment of atopic diseases or HES. As observed with other cytokines, IL-5 signals by assembling a heterodimeric receptor complex at the cell surface in a stepwise mechanism. In the first step IL-5 binds to its receptor IL-5Rα (CD125). This membrane-located complex then recruits the so-called common beta chain βc (CD131) into a ternary ligand receptor complex, which leads to activation of intracellular signaling cascades. Based on this mechanism various strategies targeting either IL-5 or IL-5Rα have been developed allowing to specifically abrogate IL-5 signaling. In addition to the classical approach of employing neutralizing antibodies against IL 5/IL-5Rα or antagonistic IL-5 variants, two groups comprising small 18 to 30mer peptides have been discovered, that bind to and block IL-5Rα from binding its activating ligand IL-5. Structure-function studies have provided detailed insights into the architecture and interaction of IL-5IL-5Rα and βc. However, structural information for the ternary IL-5 complex as well as IL-5 inhibiting peptides is still lacking. In this thesis three areas were investigated. Firstly, to obtain insights into the second receptor activation step, i.e. formation of the ternary ligand-receptor complex IL-5•IL-5Rα•βc, a high-yield production for the extracellular domain of βc was established to facilitate structure determination of the ternary ligand receptor assembly by either X-ray crystallography or cryo-electron microscopy. In a second project structure analysis of the ectodomain of IL-5Rα in its unbound conformation was attempted. Data on IL-5Rα in its ligand-free state would provide important information as to whether the wrench-like shaped ectodomain of IL-5Rα adopts a fixed preformed conformation or whether it is flexible to adapt to its ligand binding partner upon interaction. While crystallization of free IL-5Rα failed, as the crystals obtained did not diffract X rays to high resolution, functional analysis strongly points towards a selection fit binding mechanism for IL-5Rα instead of a rigid and fixed IL-5Rα structure. Hence IL-5 possibly binds to a partially open architecture, which then closes to the known wrench-like architecture. The latter is then stabilized by interactions within the D1-D2 interface resulting in the tight binding of IL-5. In a third project X-ray structure analysis of a complex of the IL-5 inhibitory peptide AF17121 bound to the ectodomain of IL-5Rα was performed. This novel structure shows how the small cyclic 18mer peptide tightly binds into the wrench-like cleft formed by domains D1 and D2 of IL-5Rα. Due to the partial overlap of its binding site at IL-5Rα with the epitope for IL-5 binding, the peptide blocks IL-5 from access to key residues for binding explaining how the small peptide can effectively compete with the rather large ligand IL-5. While AF17121 and IL-5 seemingly bind to the same site at IL-5Rα, functional studies however showed that recognition and binding of both ligands differ. With the structure for the peptide-receptor complex at hand, peptide design and engineering could be performed to generate AF17121 analogies with enhanced receptor affinity. Several promising positions in the peptide AF17121 could be identified, which could improve inhibition capacity and might serve as a starting point for AF17121-based peptidomimetics that can yield either superior peptide based IL-5 antagonists or small-molecule-based pharmacophores for future therapies of atopic diseases or the hypereosinophilic syndrome.}, subject = {Interleukin 5}, language = {en} } @phdthesis{Tian2021, author = {Tian, Yaming}, title = {Selective C-X and C-H Borylation by N-Heterocyclic Carbene Nickel(0) Complex}, doi = {10.25972/OPUS-21300}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-213004}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Organoboron compounds are important building blocks in organic synthesis, materials science, and drug discovery. The development of practical and convenient ways to synthesize boronate esters attracted significant interest. Photoinduced borylations originated with stoichiometric reactions of arenes and alkanes with well-defined metal-boryl complexes. Now photoredox-initiated borylations, catalyzed either by transition-metal or organic photocatalysts, and photochemical borylations with high efficiency have become a burgeoning area of research. In this chapter, we summarize research in the field of photocatalytic C-X borylation, especially emphasizing recent developments and trends, based on transition-metal catalysis, metal-free organocatalysis and direct photochemical activation. We focus on reaction mechanisms involving single electron transfer (SET), triplet energy transfer (TET), and other radical processes. We developed a highly selective photocatalytic C-F borylation method that employs a rhodium biphenyl complex as a triplet sensitizer and the nickel catalyst [Ni(IMes)2] (IMes = 1,3-dimesitylimidazolin-2-ylidene) for the C-F bond activation and defluoroborylation process. This tandem catalyst system operates with visible (400 nm) light and achieves borylation of a wide range of fluoroarenes with B2pin2 at room temperature in excellent yields and with high selectivity. Direct irradiation of the intermediary C-F bond oxidative addition product trans-[NiF(ArF)(IMes)2] leads to fast decomposition when B2pin2 is present. This destructive pathway can be bypassed by indirect excitation of the triplet states of the nickel(II) complex via the photoexcited rhodium biphenyl complex. Mechanistic studies suggest that the exceptionally long-lived triplet excited state of the Rh biphenyl complex used as the photosensitizer allows for efficient triplet energy transfer to trans-[NiF(ArF)(IMes)2], which leads to dissociation of one of the NHC ligands. This contrasts with the majority of current photocatalytic transformations, which employ transition metals as excited state single electron transfer agents. We have previously reported that C(arene)-F bond activation with [Ni(IMes)2] is facile at room temperature, but that the transmetalation step with B2pin2 is associated with a high energy barrier. Thus, this triplet energy transfer ultimately leads to a greatly enhanced rate constant for the transmetalation step and thus for the whole borylation process. While addition of a fluoride source such as CsF enhances the yield, it is not absolutely required. We attribute this yield-enhancing effect to (i) formation of an anionic adduct of B2pin2, i.e. FB2pin2-, as an efficient, much more nucleophilic {Bpin-} transfer reagent for the borylation/transmetalation process, and/or (ii) trapping of the Lewis acidic side product FBpin by formation of [F2Bpin]- to avoid the formation of a significant amount of NHC-FBpin and consequently of decomposition of {Ni(NHC)2} species in the reaction mixture. We reported a highly selective and general photo-induced C-Cl borylation protocol that employs [Ni(IMes)2] (IMes = 1,3-dimesitylimidazoline-2-ylidene) for the radical borylation of chloroarenes. This photo-induced system operates with visible light (400 nm) and achieves borylation of a wide range of chloroarenes with B2pin2 at room temperature in excellent yields and with high selectivity, thereby demonstrating its broad utility and functional group tolerance. Mechanistic investigations suggest that the borylation reactions proceed via a radical process. EPR studies demonstrate that [Ni(IMes)2] undergoes very fast chlorine atom abstraction from aryl chlorides to give [NiI(IMes)2Cl] and aryl radicals. Control experiments indicate that light promotes the reaction of [NiI(IMes)2Cl] with aryl chlorides generating additional aryl radicals and [NiII(IMes)2Cl2]. The aryl radicals react with an anionic sp2-sp3 diborane [B2pin2(OMe)]- formed from B2pin2 and KOMe to yield the corresponding borylation product and the [Bpin(OMe)]•- radical anion, which reduces [NiII(IMes)2Cl2] under irradiation to regenerate [NiI(IMes)2Cl] and [Ni(IMes)2] for the next catalytic cycle. A highly efficient and general protocol for traceless, directed C3-selective C-H borylation of indoles with [Ni(IMes)2] as the catalyst was achieved. Activation and borylation of N-H bonds by [Ni(IMes)2] is essential to install a Bpin moiety at the N-position as a traceless directing group, which enables the C3-selective borylation of C-H bonds. The N-Bpin group which is formed is easily converted in situ back to an N-H group by the oxidiative addition product of [Ni(IMes)2] and in situ-generated HBpin. The catalytic reactions are operationally simple, allowing borylation of of a variety of substituted indoles with B2pin2 in excellent yields and with high selectivity. The C-H borylation can be followed by Suzuki-Miyaura cross-coupling of the C-borylated indoles in an overall two-step, one-pot process providing an efficient method for synthesizing C3-functionalized heteroarenes.}, subject = {Borylierung}, language = {en} } @phdthesis{Miesler2021, author = {Miesler, Tobias Hans-Herbert}, title = {Development of diagnostic systems targeting the human tongue as a 24/7 available detector}, doi = {10.25972/OPUS-21449}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-214490}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {To diagnose diseases correctly requires not only trained and skilled personnel, but also cost-intensive and complex equipment. Rapid tests can help with the initial evaluation, but result generation can also take up to several hours, depending on the test system. At this point, novel bioresponsive diagnostic systems are used, responding to the disease related shift of biological processes. They monitor changes in the biological environment and can react to them e.g. with the release of substances. This can be used in drug delivery formulations but can also help to diagnose diseases occurring in the oral cavity and inform patients of their state of health. The tongue is herein used as a 24/7 available detector. In section I of this work, the foundation for the development of these diagnostic systems was laid. A suitable flavoring agent was found, which is stable, can be coupled to the N-terminus of peptides and has a strongly conceivable taste. For the optimization of the protease-sensitive linker (PSL), an analytical system was established (PICS assay), which determines protease-specific cleavable amino acid sequences. In order to replace the PMMA particles previously required, an acetyl protecting group was introduced N-terminally as it protects peptides and proteins in the human body from degradation by human aminopeptidase. The new synthesized flavor was examined with a NIH cell line for cytotoxicity and with an electronic tongue setup for its bitterness. Section II deals with the structure of a system which detects severe inflammations in the oral cavity, e.g. PA. The established PICS assay was used to confirm the previously used PSL sequence in its application. Using solid phase peptide synthesis, 3 linkers were synthesized which respond to the elevated MMP concentrations present in inflammation. The resulting peptides were acetylated and coupled with HATU/DIPEA to the modified denatonium. Cutting experiments with MMPs over different concentration and time ranges confirmed the response of the diagnostic sensor to these enzymes. The obtained construct was examined for cell toxicity by WST assay. The masked bitterness of the sensors was confirmed by an electronic tongue setup. To address non-human proteases (and thereby infections), section III focuses on the establishment of detection system of a cysteine protease SpeB expressed by Streptococcus pyogenes. The in-house expression of SpeB using E. coli cells was established for this purpose. An analysis of the SpeB cleavage sites was performed using a PICS assay setup. Four constructs with different PSL were synthesized analogous to section II. Cleavage experiments with the expressed and purified SpeB showed a response of two constructs to the protease. In addition, a system was established to quantify the concentration of SpeB in human saliva using western blot technique with subsequent quantification. In section IV a compound was synthesized which can now be coupled to a flavor. The final coupled construct is able to detect present NA activity specifically from influenza A and B. The market for existing influenza diagnostics was explored to determine the need for such a system. A neuraminic acid was modified in positions 4 and 7 and protected in such a way that subsequent coupling via the hydroxy-group in position 2 was selectively possible. In summary, this results in a diagnostic platform that can be used anywhere, by anyone and at any time. This represents a new dimension in the rapid diagnosis of inflammations and bacterial or viral infections.}, subject = {Diagnostik}, language = {en} } @phdthesis{Pernitzsch2021, author = {Pernitzsch, Sandy Ramona}, title = {Functional Characterization of the abundant and conserved small regulatory RNA RepG in Helicobacter pylori}, doi = {10.25972/OPUS-12268}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-122686}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Bacterial small non-coding RNAs (sRNAs) play fundamental roles in controlling and finetuning gene expression in a wide variety of cellular processes, including stress responses, environmental signaling and virulence in pathogens. Despite the identification of hundreds of sRNA candidates in diverse bacteria by genomics approaches, the mechanisms and regulatory capabilities of these posttranscriptional regulators have most intensively been studied in Gram-negative Gammaproteobacteria such as Escherichia coli and Salmonella. So far, almost nothing is known about sRNA-mediated regulation (riboregulation) in Epsilonproteobacteria, including the major human pathogen Helicobacter pylori. H. pylori was even thought to be deficient for riboregulation as none of the sRNAs known from enterobacteria are conserved in Helicobacter and since it lacks the major RNA chaperone Hfq, which is crucial for sRNA function as well as stability in many bacteria. Nonetheless, more than 60 cis- and trans-acting sRNA candidates were recently identified in H. pylori by a global RNA sequencing approach, indicating that this pathogen, in principle, has the capability to use riboregulation for its gene expression control. However, the functions and underlying mechanisms of H. pylori sRNAs remained unclear. This thesis focused on the first functional characterization and target gene identification of a trans-acting sRNA, RepG (Regulator of polymeric G-repeats), in H. pylori. Using in-vitro and in-vivo approaches, RepG was shown to directly base-pair with its C/Urich terminator loop to a variable homopolymeric G-repeat in the 5' untranslated region (UTR) of the tlpB mRNA, thereby regulating expression of the chemotaxis receptor TlpB. While the RepG sRNA is highly conserved, the length of the G-repeat in the tlpB mRNA leader varies among different H. pylori isolates, resulting in a strain-specific tlpB regulation. The modification of the number of guanines within the G-stretch in H. pylori strain 26695 demonstrated that the length of the homopolymeric G-repeat determines the outcome of posttranscriptional control (repression or activation) of tlpB by RepG. This lengthdependent targeting of a simple sequence repeat by a trans-acting sRNA represents a new twist in sRNA-mediated regulation and a novel mechanism of gene expression control, since it uniquely links phase variation by simple sequence repeats to posttranscriptional regulation. In almost all sequenced H. pylori strains, tlpB is encoded in a two gene operon upstream of HP0102, a gene of previously unknown function. This study provided evidence that HP0102 encodes a glycosyltransferase involved in LPS O-chain and Lewis x antigen production. Accordingly, this glycosyltransferase was shown to be essential for mice colonization by H. pylori. The coordinated posttranscriptional regulation of the tlpB-HP0102 operon by antisense base-pairing of RepG to the phase-variable G-repeat in the 5' UTR of the tlpB mRNA allows for a gradual, rather than ON/OFF, control of HP0102 expression, thereby affecting LPS biosynthesis in H. pylori. This fine-tuning of O-chain and Lewis x antigen expression modulates H. pylori antibiotics sensitivity and thus, might be advantageous for Helicobacter colonization and persistence. Whole transcriptome analysis based on microarray and RNA sequencing was used to identify additional RepG target mRNAs and uncover the physiological role of this riboregulator in H. pylori. Altogether, repG deletion affected expression of more than 40 target gene candidates involved various cellular processes, including membrane transport and adhesion, LPS modification, amino acid metabolism, oxidative and nitrosative stress, and nucleic acid modification. The presence of homopolymeric G-repeats/G-rich sequences in almost all target mRNA candidates indicated that RepG hijacks a conserved motif to recognize and regulate multiple target mRNAs in H. pylori. Overall, this study demonstrates that H. pylori employs riboregulation in stress response and virulence control. In addition, this thesis has successfully established Helicobacter as a new model organism for investigating general concepts of gene expression control by Hfq-independent sRNAs and sRNAs in bacterial pathogens.}, subject = {Small RNA}, language = {en} } @phdthesis{Adenugba2021, author = {Adenugba, Akinbami Raphael}, title = {Functional analysis of the gene organization of the pneumoviral attachment protein G}, doi = {10.25972/OPUS-12814}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-128146}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The putative attachment protein G of pneumonia virus of mice (PVM), a member of the Pneumoviruses, is an important virulence factor with so far ambiguous function in a virus-cell as well as in virus-host context. The sequence of the corresponding G gene is characterized by significant heterogeneity between and even within strains, affecting the gene and possibly the protein structure. This accounts in particular for the PVM strain J3666 for which two differing G gene organizations have been described: a polymorphism in nucleotide 65 of the G gene results in the presence of an upstream open reading frame (uORF) that precedes the main ORF in frame (GJ366665A) or extension of the major G ORF for 18 codons (GJ366665U). Therefore, this study was designed to analyse the impact of the sequence variations in the respective G genes of PVM strains J3666 and the reference strain 15 on protein expression, replication and virulence. First, the controversy regarding the consensus sequence of PVM J3666 was resolved. The analysis of 45 distinct cloned fragments showed that the strain separated into two distinct virus populations defined by the sequence and structure of the G gene. This division was further supported by nucleotide polymorphisms in the neighbouring M and SH genes. Sequential passage of this mixed strain in the cell line standardly used for propagation of virus stocks resulted in selection for the GJ366665A-containing population in one of two experiments pointing towards a moderate replicative advantage. The replacement of the G gene of the recombinant PVM 15 with GJ366665A or GJ366665U, respectively, using a reverse genetic approach indicated that the presence of uORF within the GJ366665A significantly reduced the expression of the main G ORF on translational level while the potential extension of the ORF in GJ366665U increased G protein expression. In comparison, the effect of the G gene-structure on virus replication was inconsistent and dependent on cell line and type. While the presence of uORF correlated with a replication advantage in the standardly used BHK-21 cells and primary murine embryonic fibroblasts, replication in the murine macrophage cell line RAW 264.7 did not. In comparison, the GJ366665U variant was not associated with any effect on replication in cultured cells at all. Nonetheless, in-vivo analysis of the recombinant viruses associated the GJ366665U gene variant, and hence an increased G expression, with higher virulence whereas the GJ366665A gene, and therefore an impaired G expression, conferred an attenuated phenotype to the virus. To extend the study to other G gene organizations, a recombinant PVM expressing a G protein without the cytoplasmic domain and for comparison a G-deletion mutant, both known to be attenuated in vivo, were studied. Not noticed before, this structure of the G gene was associated with a 75\% reduction in G protein expression and a significant attenuation of replication in macrophage-like cells. This attenuation was even more prominent for the virus lacking G. Taking into consideration the higher reduction in G protein levels compared to the GJ366665A variant indicates that a threshold amount of G is required for efficient replication in these cells. In conclusion, the results gathered indicated that the expression levels of the G protein were modulated by the sequence of the 5' untranslated region of the gene. At the same time the G protein levels modulated the virulence of PVM.}, subject = {G glycoprotein}, language = {en} } @phdthesis{Weiner2021, author = {Weiner, Simon Joseph}, title = {Charakterisierung von Patienten mit pulmonaler Hypertonie als Folge einer Linksherzerkrankung}, doi = {10.25972/OPUS-21720}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-217208}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Pulmonale Hypertonie (PH) als Folge einer Linksherzerkrankung ist die h{\"a}ufigste Form der PH. Die Identifikation des klinischen Ph{\"a}notyps der Erkrankung ist oft herausfordernd. Im Rahmen dieser Studie wurden anthropometrische, h{\"a}modynamische und funktionelle Daten von Patienten, die sich zwischen 2008 und 2015 in der Lungenhochdruckambulanz der Missioklinik W{\"u}rzburg vorstellten und ein komplettes diagnostisches Work-Up entsprechend der ESC/ERS Leitlinien durchliefen, retrospektiv analysiert.}, subject = {Pulmonale Hypertonie}, language = {de} } @phdthesis{Chifu2021, author = {Chifu, Irina}, title = {Expression und prognostische Bedeutung der Chemokinrezeptoren CXCR4 und CXCR7 bei malignen Nebennierentumoren}, doi = {10.25972/OPUS-21722}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-217225}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Zusammenfassung: Unsere Arbeit best{\"a}tigt die aus kleineren Studien bekannte hohe Expression der Chemokinrezeptoren CXCR4 und CXCR7 in der normalen Nebenniere und in der Mehrheit der Nebennierenkarzinome. Das auf mRNA Ebene best{\"a}tigte Vorkommen beider Chemokinrezeptoren im gesunden Nebennierengewebe deutet auf eine {\"u}berwiegend f{\"u}r die normale Nebennierenphysiologie wichtige Rolle dieser Chemokinrezeptoren hin. Eine eventuell dennoch bestehende pathophysiologische Relevanz der Rezeptoren wurde erg{\"a}nzend {\"u}berpr{\"u}ft und ergab keinen signifikanten Einfluss auf die Prognose des Nebennierenkarzinoms.}, subject = {Nebennierenrindencarcinom}, language = {de} }