@phdthesis{Lakovic2020, author = {Lakovic, Milica}, title = {Evolution of animal dispersal: Putting timing in perspective}, doi = {10.25972/OPUS-15452}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154522}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Dispersal is a life-history trait affecting dynamics and persistence of populations; it evolves under various known selective pressures. Theoretical studies on dispersal typically assume 'natal dispersal', where individuals emigrate right after birth. But emigration may also occur during a later moment within a reproductive season ('breeding dispersal'). For example, some female butterflies first deposit eggs in their natal patch before migrating to other site(s) to continue egg-laying there. How breeding compared to natal dispersal influences the evolution of dispersal has not been explored. To close this gap we used an individual-based simulation approach to analyze (i) the evolution of timing of breeding dispersal in annual organisms, (ii) its influence on dispersal (compared to natal dispersal). Furthermore, we tested (iii) its performance in direct evolutionary contest with individuals following a natal dispersal strategy. Our results show that evolution should typically result in lower dispersal under breeding dispersal, especially when costs of dispersal are low and population size is small. By distributing offspring evenly across two patches, breeding dispersal allows reducing direct sibling competition in the next generation whereas natal dispersal can only reduce trans-generational kin competition by producing highly dispersive offspring in each generation. The added benefit of breeding dispersal is most prominent in patches with small population sizes. Finally, the evolutionary contests show that a breeding dispersal strategy would universally out-compete natal dispersal.}, language = {en} } @phdthesis{Vikuk2020, author = {Vikuk, Veronika}, title = {Epichlo{\"e} endophyte-grass symbioses in Germany - Infection rates, alkaloid concentrations and possible intoxication risks}, doi = {10.25972/OPUS-21389}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-213895}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Endophytes live in partial symbiosis inside a plant and have been detected in all tested plants. They belong to the group of fungi or bacteria and their ecological function is mostly unknown. The fungal endophytes of the genus Epichlo{\"e} belong to a special group of endophytes. Epichlo{\"e} endophytes live symbiotically inside cool season grass species and some of them are able to produce alkaloids toxic to vertebrates and insects. Their symbiosis is seen as mutualistic for the following reasons: the fungus provides the plant herbivore resistance by producing alkaloids, and it increases the plant's drought tolerance as well as its biomass production. In return, the grass provides the fungus shelter, nutrients and dispersal. Epichlo{\"e} endophytes are host specific and the ability to produce alkaloids differs between species. In order to estimate intoxication risks in grasslands, it is necessary to detect infection rates of different grass species with Epichlo{\"e} endophytes, and to determine the genotypes and chemotypes of the Epichlo{\"e} species as well as the produced alkaloid concentrations. Factors like land-use intensity or season may have an influence on infection rates and alkaloid concentrations. Also, different methodological approaches may lead to different results. In this doctoral thesis my general aim was to evaluate intoxication risks in German grasslands caused by Epichlo{\"e} endophytes. For that I investigated infection rates of different grass species and the genotypes and chemotypes of their Epichlo{\"e} endophytes in German grasslands (Chapter II). Furthermore, I compared alkaloid concentrations detected with dry and fresh plant weight and different analytical methods. I also detected possible changes on the influence of season or land-use intensity (Chapter III). Additionally, I examined infections with Epichlo{\"e} endophytes and alkaloid concentrations in commercially available grass seed mixtures and determined how that influences the intoxication risk of grazing animals in Europe (Chapter IV). It is of agricultural interest to estimate intoxication risks for grazing livestock on German grasslands due to Epichlo{\"e} infected grass species. Therefore, it is important to investigate which grasses are infected with the Epichlo{\"e} endophyte, if the endophytes have the ability to produce vertebrate and invertebrate toxic alkaloids and if the alkaloids are indeed produced. I showed that Epichlo{\"e} festucae var. lolii infecting agriculturally important Lolium perenne lacked the starting gene for ergovaline biosynthesis. Hence, vertebrate toxic ergovaline was not detected in the majority of the collected L. perenne plants. The detection of alkaloid concentrations is an important tool to estimate intoxication risk for vertebrates, but also invertebrates. My studies showed that the usage of dry plant material is crucial to quantify the correct alkaloid concentrations, and that alkaloid concentrations can vary depending on the detection method. Hence, the usage of validated, similar detection methods is important to be able to compare alkaloid concentrations from different studies. Nevertheless, the trends of seasonal changes and the influence of land-use intensity stayed the same, regardless if dry or fresh plant weight was used. Also, alkaloid concentrations were below toxicity thresholds on population level, regardless of the method used. Two commercially available forage grass and two commercially available turf grass seed mixtures were infected with Epichlo{\"e} endopyhtes and alkaloids were detected. This might contribute to the spreading of Epichlo{\"e} endopyhtes in Germany, therefore seed mixtures should be tested for Epichlo{\"e} infections. My results indicate that the intoxication risk is generally low in Germany at the moment, although that might change due to climate change, an increase of monocultural land-use, or the seeding of Epichlo{\"e} infected grass seeds.}, subject = {Endophytische Pilze}, language = {en} } @phdthesis{Glaab2020, author = {Glaab, Sabine}, title = {Green classroom at the wildlife park: Aspects of environmental, instructional and conceptual education of primary school children concerning the European wildcat.}, doi = {10.25972/OPUS-16949}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169496}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {To foster sustainable environmentally friendly behavior in children it is important to provide an effective form of environmental education. In this context we studied three important factors: Attitude towards nature, environmental knowledge and advanced expert knowledge. Concerning attitude towards nature our first question was: "Is it possible to affect primary school children's environmental values during a one-day visit at a wildlife park?" As a control, the program was also conducted in schools, leading to two different learning settings- wildlife park and school. Regarding environmental knowledge, in our second question we wanted to know, if our modified teaching approach "guided learning at workstations" (G) combining instructional and constructivist elements would lead to good cognitive learning results of primary school children. Additionally, we compared it to a stronger teacher-centered (T) as well as to a stronger student-centered (S) approach. The third question we asked was "Is it possible to convey fascinating expert knowledge on a more advanced subject to primary school children using conceptual change theory?" After gathering primary school children's preconceptions, we defined different groups due to the heterogeneity of their pre-existing conceptions and the change in conceptions. Based on this research we designed a program along with an instrument to measure the impact of the conceptual change teaching method. After years of building a strong cooperation between the section Didactics of Biology at the Julius-Maximilians University W{\"u}rzburg, the nearby schools and the wildlife park "Wild-Park Klaushof" near Bad Kissingen in northern Bavaria it was time to evaluate the environmental education programs prepared and applied by undergraduate university students. As a model species we chose the European wildcat (Felis silvestris silvestris) which represents endangered wildlife in Europe and the need for human interaction for the sake of preserving a species by restoring or recreating the habitat conditions needed while maintaining current infrastructure. Drawing from our own as well as teachers' and university students' experiences, we built, implemented and evaluated a hands-on program following several workstations between the wildcat enclosure and the wildlife park's green classroom. The content of our intervention was presented as a problem-oriented lesson, where children were confronted with the need for human interaction in order to preserve the European wildcat. Not only on a theoretical basis, but very specific to their hometowns they were told where and when nature conservation groups met or where to donate money. 692 Bavarian third grade primary school children in 35 classes participated in the one-day intervention that took place between the months of april, 2014 and november, 2015 in the wildlife park or in their respective classrooms. The ages varied between 8 and 11 years with the mean age being 8.88 ± 0.56 years old. 48.6 \% of them were boys, 51.4 \% were girls. (1) To measure primary school children's environmental attitudes a questionnaire on two major environmental values- preservation and utilization of nature- was administered in a pre, post- and retention test design. It was possible to affect primary school children's environmental preservation values during our one-day program. This result could be found not only at the wildlife park but unexpectedly also in school, where we educated classes for control purposes. We also found this impact consistent in all used teaching approaches and were surprised to see the preservation values change in a way we did not expect from higher tendency towards preservation of nature to a lower one. We presume that children of this age group reflected on the contents of our intervention. This had an influence on their own values towards preservation which led to a more realistic marking behavior in the questionnaire. We therefore conclude that it is possible to affect primary school children's environmental values with a one-day program on environmental content. (2) We were interested in conveying environmental knowledge about the European wildcat; its morphology, ecology and behavior. We designed and applied a knowledge questionnaire also in a pre-, post- and retention test design, to find out, whether different forms of instruction made a difference in learning success of primary school children. We used two approaches with a teacher in the role of a didactic leader- our modified guided approach (G) as well as a stronger teacher-centered one (T) with a higher focus on instruction. The third approach was presented as a strong student-centered learning at workstations (S) without a didactic leader we also called "free learning at workstations". Overall, all children's knowledge scores changed significantly from pre- to post-test and from pre- to retention test, indicating learning success. Differences could only be found between the posttest values of both approaches with a didactic leader (G, T) in comparison to the strong student-centered (S) form. It appears that these primary school children gained knowledge at the out of school learning setting regardless of the used teaching approach. On the subject of short-term differences, we discuss, that the difference in learning success might have been consistent from post to retention test if a consolidation phase had been added in the days following the program as should be common practice after a visit to an out-of- school learning setting but was not part of our intervention. When comparing both approaches with a didactic leader (G, T), we prefer our modified guided learning at workstations (G) since constructivist phases can be implemented without losses concerning learning success. Moreover, the (at least temporary) presence of a teacher in the role of a didactic leader ensures maintained discipline and counteracts off-task behavior. To make sure, different emotional states did not factor in our program, we measured children's situational emotions directly after the morning intervention using a short scale that evaluated interest, wellbeing and boredom. We found, that these emotions remained consistent over both learning settings as well as different forms of instruction. While interest and wellbeing remained constantly high, boredom values remained low. We take this as a sign of high quality designing and conducting the intervention. (3) In the afternoon of the one-day intervention, children were given the opportunity to investigate the wildcat further, this time using the conceptual change theory in combination with a more complex and fascinating content: cats' vision in dusk and dawn. Children were confronted with their preconceptions which had been sampled prior to the study and turned into three distinctive topics reflected in a special questionnaire. In a pre-, post and retention test design we included the most common alternative conceptions, the scientifically correct conceptions as well as other preconceptions. We gathered a high heterogeneity of preconceptions and defined three groups based on conceptual change literature: "Conceptual change", "Synthetic Models" and "Conceptual Growth". In addition to these we identified two more groups after our data analysis: "Knowledge" and "Non-addressed Concepts". We found that instruction according to the conceptual change theory did not work with primary school children in our intervention. The conceptual change from the addressed alternative conceptions as well as from other preconceptions towards the scientifically correct conceptions was successfully achieved only on occasion. In our case and depending on the topic only one third to one fourth of the children actually held the addressed conception while the rest was not targeted by the instruction. Moreover, we conclude children holding other conceptions were rather confused than educated by the confrontation. We assume that children of this age group may be overchallenged by the conceptual change method.}, subject = {Biologie}, language = {en} } @phdthesis{Stelzner2020, author = {Stelzner, Kathrin}, title = {Identification of factors involved in Staphylococcus aureus- induced host cell death}, doi = {10.25972/OPUS-18899}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-188991}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Staphylococcus aureus is a Gram-positive commensal bacterium, that asymptomatically colonizes human skin and mucosal surfaces. Upon opportune conditions, such as immunodeficiency or breached barriers of the host, it can cause a plethora of infections ranging from local, superficial infections to life-threatening diseases. Despite being regarded as an extracellular pathogen, S. aureus can invade and survive within non-phagocytic and phagocytic cells. Eventually, the pathogen escapes from the host cell resulting in killing of the host cell, which is associated with tissue destruction and spread of infection. However, the exact molecular mechanisms underlying S. aureus-induced host cell death remain to be elucidated. In the present work, a genome-wide haploid genetic screen was performed to identify host cell genes crucial for S. aureus intracellular cytotoxicity. A mutant library of the haploid cell line HAP1 was infected with the pathogen and cells surviving the infection were selected. Twelve genes were identified, which were significantly enriched when compared to an infection with a non-cytotoxic S. aureus strain. Additionally, characteristics of regulated cell death pathways and the role of Ca2+ signaling in S. aureus-infected cells were investigated. Live cell imaging of Ca2+ reporter cell lines was used to analyze single cells. S. aureus-induced host cell death exhibited morphological features of apoptosis and activation of caspases was detected. Cellular H2O2 levels were elevated during S. aureus intracellular infection. Further, intracellular S. aureus provoked cytosolic Ca2+ overload in epithelial cells. This resulted from Ca2+ release from endoplasmic reticulum and Ca2+ influx via the plasma membrane and led to mitochondrial Ca2+ overload. The final step of S. aureus-induced cell death was plasma membrane permeabilization, a typical feature of necrotic cell death. In order to identify bacterial virulence factors implicated in S. aureus-induced host cell killing, the cytotoxicity of selected mutants was investigated. Intracellular S. aureus employs the bacterial cysteine protease staphopain A to activate an apoptosis-like cell death characterized by cell contraction and membrane bleb formation. Phagosomal escape represents a prerequisite staphopain A-induced cell death, whereas bacterial intracellular replication is dispensable. Moreover, staphopain A contributed to efficient colonization of the lung in a murine pneumonia model. In conclusion, this work identified at least two independent cell death pathways activated by intracellular S. aureus. While initially staphopain A mediates S. aureus-induced host cell killing, cytosolic Ca2+-overload follows later and leads to the final demise of the host cell.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Spindler2020, author = {Spindler, Marie-Christin}, title = {Molecular architecture of meiotic multiprotein complexes}, doi = {10.25972/OPUS-21210}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-212105}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Sexually reproducing organisms depend on meiosis for the generation of haploid, genetically diverse gametes to maintain genome stability and the potential to adapt to changing environments. Haploidization is achieved through two successive rounds of cell division after a single initial pre-meiotic DNA replication. Meiosis I segregates the homologous chromosomes, followed by the segregation of the sister chromatids in meiosis II. Genetic diversity is achieved through the process of recombination that de-scribes the exchange of genetic material between the maternal and paternal homolog. Recombination and the initial steps of haploidization are executed already early on in prophase I. Both essential processes depend on a variety of multiprotein complexes, such as the linker of nucleo- and cytoplasm (LINC) complex and the synaptonemal complex (SC). The structure of multiprotein complexes is adjusted according to their function, environment, and the forces they are subjected to. Coiled-coil domains typical in load-bearing proteins characterize the meiotic mechanotransducing LINC complexes. SCs resemble ladder-like structures that are highly conserved amongst eukaryotes, while the primary sequence of the proteins that form the complex display very little if any sequence homology. Despite the apparent significance of the structure to their function, little quantitative and topological data existed on the LINC complexes and the SC within their morphological context prior to the present work. Here, the molecular architecture of the meiotic telomere attachment site where LINC complexes reside and the SC have been analyzed in depth, mainly on the basis of electron microscope tomography derived 3D models complemented by super-resolution light microscopic acquisitions of the respective protein components.}, subject = {Meiose}, language = {en} } @phdthesis{Lehmann2020, author = {Lehmann, Julian}, title = {Hochaufl{\"o}sende Fluoreszenzmikroskopie beleuchtet den Oligomerisierungsstatus pflanzlicher Membranproteine}, doi = {10.25972/OPUS-21176}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-211762}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {SLAC/SLAH Anionenkan{\"a}le, die zur Familie der langsamen Anionenkan{\"a}le geh{\"o}ren, repr{\"a}sentieren Schl{\"u}sselproteine in der pflanzlichen Stressantwort. Neben ihrer Aufgabe in Stresssituationen, ist eine Untergruppe der Kan{\"a}le f{\"u}r die Beladung der Leitgef{\"a}ße mit Nitrat und Chlorid in der Stele der Pflanzenwurzeln verantwortlich. Biophysikalische und pflanzenphysiologische Studien stellten heraus, dass vor Allem der Anionenkanal SLAH3 f{\"u}r die Beladung der Xylem Leitgef{\"a}ße mit Nitrat und Chlorid verantwortlich ist. Ihm zur Seite gestellt werden noch die elektrisch inaktiven Homologe SLAH1 und SLAH4 in der Wurzel exprimiert. Sie steuern die Aktivit{\"a}t von SLAH3 durch die Assemblierung zu SLAH1/SLAH3 oder SLAH3/SLAH4 Heteromeren. Neben der Kontrolle durch Heteromerisierungsereignisse, werden SLAH3 Homomere sehr spezifisch und schnell durch zytosolische Ans{\"a}uerung aktiviert. Obwohl bereits die Kristallstruktur des bakteriellen Homologs HiTehA zu pflanzlichen SLAC/SLAH Anionenkan{\"a}len bekannt ist, welche HiTehA als Trimer charakterisiert, sind die St{\"o}chiometrie und der Polymerisierungsgrad der pflanzlichen SLAC/SLAHs bisher noch unbekannt. Die Fluoreszenzmikroskopie umfasst viele etablierte Anwendungsmethoden, wie die konfokale Laserrastermikroskopie (CLSM), Techniken mit verbesserter Aufl{\"o}sung, wie die Mikroskopie mit strukturierter Beleuchtung (SIM) und hochaufl{\"o}sende Methoden, welche durch die Lokalisationsmikroskopie (z.B. dSTORM und PALM) oder die Expansionsmikroskopie (ExM) vertreten werden. Diese unterschiedlichen Mikroskopie-methoden erm{\"o}glichen neue Einblicke in die Organisation von Proteinen in biologischen Systemen, die bis auf die molekulare Ebene hinunterreichen. Insbesondere im Bereich der hochaufl{\"o}senden Fluoreszenzmikroskopie sind im Gegensatz zu tierischen Frage-stellungen bisher jedoch nur wenige Untersuchungen in pflanzlichen Geweben durchgef{\"u}hrt worden. Die Lokalisationsmikroskopie erm{\"o}glicht die Quantifizierung einzelner Molek{\"u}le in nativen Systemen und l{\"a}sst {\"u}berdies R{\"u}ckschl{\"u}sse auf den Polymerisierungsgrad von Proteinen zu. Da Poly- und Heteromerisierung von Proteinen oftmals mit der Funktionalit{\"a}t eines entsprechenden Proteins einhergeht, wie es bei den SLAC/SLAH Anionenkan{\"a}len der Fall ist, wurden in dieser Arbeit PALM Messungen zur Untersuchung des Polymerisierungsgrades und Interaktionsmuster der Anionenkan{\"a}le angewendet. Ferner wurden Expressionsmuster der SLAC/SLAHs untersucht und zudem Mikroskopieanwendungen im Pflanzengewebe etabliert und verbessert. In Bezug auf die Mikroskopieanwendungen konnten wir in Arabidopsis thaliana (At) Wurzeln die polare Verteilung von PIN Proteinen mittels SIM best{\"a}tigen und die gruppierte Verteilung in der Plasmamembran am Zellpol aufl{\"o}sen. In Wurzel-querschnitten war es m{\"o}glich, Zellw{\"a}nde zu vermessen, den Aufbau der Pflanzenwurzel mit den verschiedenen Zelltypen zu rekonstruieren und diesen in Zusammenhang mit Zellwanddicken zu bringen. Anhand dieser Aufnahmen ließ sich die Aufl{\"o}sungsgrenze eines SIM-Mikroskops bestimmen, weshalb diese Probe als Modellstruktur f{\"u}r Aufl{\"o}sungsanalysen, zur Kontrolle f{\"u}r die korrekte Bildverarbeitung bei hochaufl{\"o}sender Bildgebung und andere Fragestellungen empfohlen werden kann. F{\"u}r die Expansionsmikroskopie in pflanzlichen Proben konnten ein enzym- und ein denaturierungsbasiertes Pr{\"a}parationsprotokoll etabliert werden. Dabei wurden ganze At Setzlinge, Wurzelabschnitte und Blattst{\"u}cke gef{\"a}rbt, expandiert und mit zwei bis drei Mal verbesserter Aufl{\"o}sung bildlich dargestellt. In diesem Zusammenhang waren Aufnahmen ganzer Wurzel- und Blattproben mit beeindruckender Eindringtiefe und extrem geringem Hintergrundsignal m{\"o}glich. Zudem wurden die Daten kritisch betrachtet, Probleme aufgezeigt, gewebespezifische Ver{\"a}nderungen dargestellt und limitierende Faktoren f{\"u}r die ExM in Pflanzenproben thematisiert. Im Fokus dieser Arbeit stand die Untersuchung der SLAC/SLAH Proteine. SLAH2 wird in den Wurzeln vornehmlich in Endodermis- und Perizykelzellen exprimiert, was anhand verschiedener At SLAH2 YFP Mutanten untersucht werden konnte. Dies unterst{\"u}tzt die Annahme, dass SLAH2 bei der Beladung der Leitgef{\"a}ße mit Nitrat maßgeblich beteiligt ist. Es ist denkbar, dass SLAH2 ebenfalls eine wachstumsbeeinflussende Funktion {\"u}ber die Regulation von Nitratkonzentrationen zugeschrieben werden kann. Darauf deuten vor allem die verst{\"a}rkte Expression von SLAH2 im Bereich der Seitenwurzeln und die heterogene Expression in der Elongations-, Differenzierungs- und meristematischen Zone hin. Die Membranst{\"a}ndigkeit von SLAH4 konnte nachgewiesen werden und FRET FLIM Untersuchungen zeigten eine hohe Affinit{\"a}t von SLAH4 zu SLAH3, was die beiden Homologe als Interaktionspartner identifiziert. F{\"u}r die Bestimmung des Oligomerisierungsgrades mittels PALM wurden die pflanzlichen Anionenkan{\"a}le in tierischen COS7-Zellen exprimiert. Die elektrophysiologische Funktionalit{\"a}t der mEOS2-SLAC/SLAH-Konstrukte wurde mit Hilfe von Patch-Clamp-Versuchen in COS7-Zellen {\"u}berpr{\"u}ft. Um Expressionslevel, Membranst{\"a}ndigkeit und die Verteilung {\"u}ber die Membran der SLAC/SLAHs zu verifizieren, wurden dSTORM-Aufnahmen herangezogen Schließlich erm{\"o}glichten PALM-Aufnahmen die Bestimmung des Polymerisierungs-grades der SLAC/SLAH Anionenkan{\"a}le, die st{\"o}chiometrischen Ver{\"a}nderungen bei Heteromerisierung von SLAH3 mit SLAH1 oder SLAH4 und auch der Einfluss einer zytosolischer Ans{\"a}uerung auf den Polymerisierungsgrad von SLAH3 Homomeren. Zudem weisen die Oligomerisierungsanalysen von SLAH3 Mutanten darauf hin, dass die Aminos{\"a}uren Histidin His330 und His454 entscheidend an der pH sensitiven Regulierung von SLAH3 beteiligt sind. Durch die erhobenen Daten konnten also entscheidende, neue Erkenntnisse {\"u}ber die Regulationsmechanismen von pflanzlichen Anionenkan{\"a}len auf molekularer Ebene gewonnen werden: Unter Standardbedingungen liegen SLAC1, SLAH2 und SLAH3 haupts{\"a}chlich als Dimer vor. Auf eine zytosolische Ans{\"a}uerung reagiert ausschließlich SLAH3 mit einer signifikanten st{\"o}chiometrischen Ver{\"a}nderung und liegt im aktiven Zustand vor Allem als Monomer vor. Der Oligomerisierungsgrad von SLAC1 und SLAH2 bleibt hingegen bei einer zytosolischen Ans{\"a}uerung unver{\"a}ndert. Ferner kommt es bei der Interaktion von SLAH3 mit SLAH1 oder SLAH4 zur Formierung eines Heterodimers, welches unbeeinflusst durch den zytosolischen pH bleibt. Im Gegensatz dazu bleiben die elektrisch inaktiven Untereinheiten SLAH1 und SLAH4 monomerisch und assemblieren ganz spezifisch nur mit SLAH3. Die hochaufl{\"o}sende Fluoreszenz-mikroskopie, insbesondere PALM erlaubt es also Heteromerisierungsereignisse und {\"A}nderungen im Poylmerisierungsgrad von Membranproteinen wie den SLAC/SLAHs auf molekularer Ebene zu untersuchen und l{\"a}sst so R{\"u}ckschl{\"u}sse auf physiologische Ereignisse zu.}, subject = {Fluoreszenzmikroskopie}, language = {de} } @phdthesis{HornneeBunz2020, author = {Horn [n{\´e}e Bunz], Melanie}, title = {The impact of Drosophila melanogaster`s endogenous clock on fitness: Influence of day length, humidity and food composition}, doi = {10.25972/OPUS-21141}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-211415}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {We are living in a system that underlies permanent environmental changes due to the rotation of our planet. These changes are rhythmic with the most prominent one having a period of about 24 hours, but also shorter and longer rhythms characterize our environment. To cope with the ever-changing environmental conditions, it is thought to be beneficial if an organism can track and anticipate these changes. The so called endogenous clocks enable this and might provide a fitness advantage. To investigate and unravel the mechanism of endogenous clocks Chronobiologists have used different model organisms. In this thesis Drosophila melanogaster was used as model organism with its about 150 clock neurons representing the main endogenous clock of the fly in the central brain. The molecular mechanisms and the interlocked feedback loops with the main circadian key players like period, timeless, clock or cycle are under investigation since the 1970s and are characterized quite well so far. But the impact of a functional endogenous clock in combination with diverse factors and the resulting fitness advantages were analysed in only a few studies and remains for the most part unknown. Therefore the aim of this thesis was to unravel the impact of Drosophila melanogaster`s endogenous clock on the fitness of the fly. To achieve this goal different factors - like day length, humidity and food composition - were analyzed in wild type CS and three different period mutants, namely perL, perS and per01, that carry a point mutation altering or abolishing the free-running period of the fruit fly as well as a second arrhythmic strain, clkAR. In competition assay experiments wild type and clock mutant flies competed for up to 63 generations under a normal 24 hour rhythm with 12 hours light/day and 12 hours darkness/night (LD12:12) or T-cycles with 19 or 29 hours, according to the mutants free-running period, or constant light (LL) in case of the arrhythmic mutant as well as under natural-like outdoor conditions in two consecutive years. Overall the wild type CS strain was outcompeting the clock mutant strains independent of the environmental conditions. As the perL fly strain elongated their free-running period, the competition experiments were repeated with naturally cantonized new fly strains. With these experiments it could be shown that the genetic background of the fly strains - which are kept for decades in the lab, with backcrosses every few years - is very important and influences the fitness of flies. But also the day length impacts the fitness of the flies, enabling them to persist in higher percentage in a population under competition. Further factors that might influence the survival in a competing population were investigated, like e.g. mating preferences and locomotor activity of homo- and heterozygous females or sperm number of males transferred per mating. But these factors can still not explain the results in total and play no or only minor roles and show the complexity of the whole system with still unknown characteristics. Furthermore populations of flies were recorded to see if the flies exhibit a common locomotor activity pattern or not and indeed a population activity pattern could be recorded for the first time and social contact as a Zeitgeber could be verified for Drosophila melanogaster. In addition humidity and its impact on the flies´ fitness as well as a potential Zeitgeber was examined in this thesis. The flies experienced different relative humidities for eclosion and wing expansion and humidity cycle phase shifting experiments were performed to address these two different questions of fitness impact and potential Zeitgeber. The fruit fly usually ecloses in the morning hours when the relative humidity is quite high and the general assumption was that they do so to prevent desiccation. The results of this thesis were quite clear and demonstrate that the relative humidity has no great effect on the fitness of the flies according to successful eclosion or wing expansion and that temperature might be the more important factor. In the humidity cycle phase shifting experiments it could be revealed that relative humidity cannot act as a Zeitgeber for Drosophila melanogaster, but it influences and therefore masks the activity of flies by allowing or surpressing activity at specific relative humidity values. As final experiments the lifespan of wild type and clock mutant flies was investigated under different day length and with different food qualities to unravel the impact of these factors on the fitness and therefore survival of the flies on the long run. As expected the flies with nutrient-poor minimum medium died earlier than on the nutrient-rich maximum medium, but a small effect of day length could also be seen with flies living slightly longer when they experience environmental day length conditions resembling their free-running period. The experiments also showed a fitness advantage of the wild type fly strain against the clock mutant strains for long term, but not short term (about the first 2-3 weeks). As a conclusion it can be said that genetic variation is important to be able to adapt to changing environmental conditions and to optimize fitness and therefore survival. Having a functional endogenous clock with a free-running period of about 24 hours provides fitness advantages for the fruit fly, at least under competition. The whole system is very complex and many factors - known and unknown ones - play a role in this system by interacting on different levels, e.g. physiology, metabolism and/or behavior.}, subject = {Taufliege}, language = {en} } @phdthesis{OlivaresBaerwald2020, author = {Olivares-Baerwald, Silvana}, title = {Die Rolle von Calcineurin im Nukleus von Kardiomyozyten und ein innovativer Inhibitor als neuer therapeutischer Ansatz bei kardialer Hypertrophie}, doi = {10.25972/OPUS-20808}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-208080}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Die Calcineurin/NFAT-Signalkaskade spielt eine wichtige Rolle bei der Entwicklung einer kardialen Hypertrophie. Im Zytoplasma von Kardiomyozyten wird die Phosphatase Calcineurin nach Stimulierung der Zellen, z. B. durch Dehnungsreize, Angiotensin II (Ang II) oder Endothelin I (ET-1), und einen daraus folgenden intrazellul{\"a}ren Ca2+-Strom aktiviert. Dies f{\"u}hrt zur Dephosphorylierung von NFAT und zu dessen nukle{\"a}rer Translokation. In fr{\"u}heren Arbeiten von Ritter et al. wurden sowohl eine nukle{\"a}re Lokalisationssequenz (NLS) als auch eine nukle{\"a}re Exportsequenz (NES) innerhalb von Calcineurin identifiziert, die den Transport von Calcineurin zwischen dem Zytoplasma und dem Nukleus erm{\"o}glichen. Basierend auf diesen Ergebnissen wurde das Import Blocking Peptid (IBP) entwickelt. Dieses Peptid entspricht der NLS von Calcineurin und blockiert die Calcineurin-Bindungsstellen des Shuttleproteins (Karyopherins) Importin β1. So wird die Translokation von Calcineurin in den Nukleus unterbunden und die Signalkaskade zur Aktivierung von Hypertrophie-Genen in Kardiomyozyten unterbrochen. Dabei blieb die Phosphatase-Aktivit{\"a}t von Calcineurin unbeeinflusst. Eines der Ziele dieser Arbeit war, IBP weiter zu optimieren und den „proof of principle" auch in vivo zu f{\"u}hren. Hierf{\"u}r wurden u. a. ein geeignetes L{\"o}sungsmittel bestimmt (biokompatibel und an die Peptidcharakteristika angepasst), die Peptidstruktur modifiziert (Erh{\"o}hung der Spezifit{\"a}t/Wirksamkeit) und die erforderliche Dosis weiter eingegrenzt (Belastungs- und Kostenreduktion). Unter Verwendung einer TAMRA-markierten Wirkstoffvariante konnten der Weg des Peptids in M{\"a}usen nachverfolgt und die Ausscheidung quantifiziert werden. Aufbauend auf den Ergebnissen von Burkard et al., die die Entstehung einer konstitutiv-aktiven und nukle{\"a}ren Calcineurin-Isoform nach proteolytischer Spaltung durch Calpain nachwiesen, wurde die Rolle von Calcineurin im Zellkern genauer untersucht. Außerdem sollte die Frage beantwortet werden, wie ({\"u}ber Calcineurin?) die Herzmuskelzelle zwischen Calciumschwankungen im Zuge der Exzitations-Kontraktions-Kopplung (ECC) und vergleichsweise schwachen Calciumsignalen zur Transkriptionsteuerung unterscheidet. Mit Hilfe von nukle{\"a}ren Calcineurin-Mutanten, die einen Defekt in der Ca2+-Bindung aufwiesen, konnte die Bedeutung von Calcineurin als Calciumsensor f{\"u}r die NFAT-abh{\"a}ngige Transkription nachgewiesen werden. Im Mausmodell waren unter Hypertrophie-Bedingungen die Ca2+-Transienten in der nukle{\"a}ren Mikrodom{\"a}ne signifikant st{\"a}rker als im Zytosol, wodurch die Hypothese, dass die Aktivierung der Calcineurin/NFAT-Signalkaskade unabh{\"a}ngig von zytosolischem Ca2+ erfolgt, gest{\"u}tzt wird. Messungen von nukle{\"a}ren und zytosolischen Ca2+-Transienten in IP3-Sponge-M{\"a}usen zeigten im Vergleich zu Wildtyp-M{\"a}usen keine Erh{\"o}hung des Ca2+-Spiegels w{\"a}hrend der Diastole, was auf eine Rolle von Inositoltrisphosphat (IP3) in der Signalkaskade deutet. Außerdem zeigten isolierte Zellkerne ventrikul{\"a}rer adulter Kardiomyozyten eine erh{\"o}hte Expression des IP3-Rezeptors 2 (IP3R2) nach Ang II-Stimulierung. Diese gesteigerte Expression war abh{\"a}ngig von der Calcineurin/NFAT-Kaskade und bestand sogar 3 Wochen nach Entfernung des Ang II-Stimulus fort. Zusammenfassend l{\"a}sst sich sagen, dass nukle{\"a}res Calcineurin als ein Ca2+-Sensor agiert, dass die lokale Ca2+-Freisetzung im Kern {\"u}ber IP3-Rezeptoren detektiert wird und dass dies im Zusammenspiel mit NFAT die Transkription von Hypertrophiegenen initiiert.}, subject = {kardiale Hypertrophie}, language = {de} } @phdthesis{Hofrichter2020, author = {Hofrichter, Michaela Angelika Hedwig}, title = {Charakterisierung von angeborenen H{\"o}rst{\"o}rungen mit Hilfe von Hochdurchsatz-Sequenziermethoden}, doi = {10.25972/OPUS-18533}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-185331}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Fast 500 Millionen Menschen weltweit sind von einer H{\"o}rst{\"o}rung betroffen. Es wird sogar angenommen, dass diese Anzahl laut der Weltgesundheitsorganisation (WHO) noch steigen und 2050 jeder zehnte Mensch eine H{\"o}rst{\"o}rung aufweisen wird. Mindestens in 50\% aller F{\"a}lle ist die H{\"o}rst{\"o}rung genetisch bedingt. Durch die j{\"u}ngsten Fortschritte der Sequenzierungstechnologien hat die genetische Analyse von H{\"o}rst{\"o}rungen an Bedeutung gewonnen, vor allem hinsichtlich Familienplanung, geeigneter Therapien und zuk{\"u}nftiger m{\"o}glichen Therapieans{\"a}tzen, um das H{\"o}rverm{\"o}gen wiederherzustellen. Die folgende Arbeit stellt 155 famili{\"a}re F{\"a}lle vor, die genetisch untersucht wurden. Diese F{\"a}lle konnten in zwei Kohorten unterteilt werden. Eine Kohorte (n = 74) umfasste Patienten mit kaukasischem Hintergrund, w{\"a}hrend die andere Kohorte (n = 81) Patienten beinhaltete, die aus dem Iran rekrutiert wurden. F{\"u}r die Untersuchung wurde zum einen eine Panel-Analyse mit dem TruSight One Panel (Illumina, San Diego, USA) und zum anderen eine Exom-Sequenzierung durchgef{\"u}hrt. Anschließend wurden die Daten mit Analyse-Programmen wie GensearchNGS (PhenoSystems, Wallonia, Belgien) ausgewertet. Insgesamt konnte f{\"u}r 55\% aller F{\"a}lle eine pathogene oder wahrscheinlich pathogene Variante durch Next Generation Sequencing diagnostiziert werden. Die meisten der gel{\"o}sten F{\"a}lle (ca. 73\%) stammten aus der iranischen Kohorte, was durch elterliche Blutsverwandtschaft und erh{\"o}hte Inzidenz von H{\"o}rst{\"o}rungen im Iran zu erkl{\"a}ren ist. 27\% der gel{\"o}sten F{\"a}lle geh{\"o}rten der zweiten Kohorte an. Mutationen in den Genen MYO15A, LHFPL5, TECTA und SLC26A4 konnten {\"u}berwiegend bei iranischen Patienten identifiziert werden. Varianten im Gen TECTA als auch im Gen SLC26A4 wurden ebenfalls in der kaukasischen Kohorte identifiziert. Beide Ethnien wiesen jeweils ein eigenes Mutationsspektrum auf. Jedoch wurden in beiden Gruppen {\"U}berschneidungen im klinischen Bild durch pathogene Varianten in einer Vielzahl von H{\"o}rst{\"o}rungsgenen, sowie unterschiedliche klinische Ph{\"a}notypen, deren Ursache pathogene Varianten im gleichen H{\"o}rst{\"o}rungsgen zugrunde liegen, und famili{\"a}re Locus-Heterogenit{\"a}t beobachtet.. In dieser Arbeit konnte eine De Novo Mutation im CEACAM16-Gen (DFNA4B) best{\"a}tigt und der Effekt von einer wiederholt betroffenen Aminos{\"a}ure im S1PR2-Gen (DFNB68) beschrieben werden. Dar{\"u}ber hinaus wurden mehrere Patienten mit X-chromosomalem H{\"o}rverlust aufgrund von Defekten im POU3F4-Gen (DFNX2) und Deletionen im SMPX-Gen (DFNX4) diagnostiziert. Zus{\"a}tzlich konnte mit Hilfe einer Exom-basierten Copy Number Variation-Analyse eine Deletion im OTOA-Gen (DFNB22) gefunden werden, welche sich bis in die Tandempseudogenregion erstreckte. Diese Untersuchung zeigt die enormen M{\"o}glichkeiten zur Detektion von Mutationen bei heterogenen Erkrankungen durch Anwendung von Next Generation Sequencing. Weiterhin konnte eine intragenische Deletion im Gen COL9A1 identifiziert werden, die im Zusammenhang mit einer scheinbar isolierten H{\"o}rst{\"o}rung steht und durch den komplexen Umlagerungsmechanismus FoSTeS/MMBIR (Fork Stalling und Template Switching/Microhomology-mediated Break-induced Replication) entstand, der so bei H{\"o}rst{\"o}rungen noch nicht beschrieben wurde. Auf der Suche nach Genen, die bisher noch nicht mit H{\"o}rst{\"o}rungen assoziiert werden konnten, wurden acht Familien in eine Kandidatengenuntersuchung miteinbezogen und eine Exom-weite Analyse durchgef{\"u}hrt. Bei f{\"u}nf Familien konnte noch keine urs{\"a}chliche Variante identifiziert werden. Jedoch wurde bei drei Familien mit einer autosomal dominanten Schwerh{\"o}rigkeit eine genetische Ursache identifiziert und TECTB, ATP11A und THBS2 konnten als Kandidatengene ermittelt werden. Diese Arbeit zeigt, wie wichtig es ist, die kausale Variante bei H{\"o}rst{\"o}rungspatienten zu detektieren. Eine genetische Diagnostik erm{\"o}glicht eine endg{\"u}ltige Diagnose eines Syndroms, ist f{\"u}r die Klassifizierung der H{\"o}rst{\"o}rung notwendig und tr{\"a}gt zu einer zuk{\"u}nftigen Therapie der Patienten bei.}, subject = {H{\"o}rst{\"o}rungen}, language = {de} } @phdthesis{Rost2020, author = {Rost, Isabell}, title = {Gezielte Anreicherungs- und neue DNA-Sequenzierungsstrategien f{\"u}r die molekulare Analyse von Fanconi-An{\"a}mie-Genen}, doi = {10.25972/OPUS-15109}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151096}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Fanconi-An{\"a}mie (FA) ist, mit Ausnahme von Mutationen in FANCR/RAD51, eine autosomal-rezessive oder X-chromosomal vererbte Krankheit, die sich durch eine ausgesprochene klinische als auch genetische Heterogenit{\"a}t auszeichnet. Neben einem fortschreitenden Knochenmarksversagen z{\"a}hlen zu den typischen Merkmalen eine Vielzahl an angeborenen Fehlbildungen, wie beispielsweise Radialstrahlanomalien, Minderwuchs oder Pigmentierungsst{\"o}rungen. Zudem besteht f{\"u}r FA-Patienten ein {\"u}berdurchschnittlich hohes Risiko bereits in jungen Jahren an akuter myeloischer Leuk{\"a}mie oder soliden Tumoren zu erkranken. Bislang konnten in 21 FA-Genen (FANCA, -B, -C, - D1, -D2, -E, -F, -G, -I, -J, -L, -M, -N, -O, -P, -Q, -R, -S, -T, -U oder -V) krankheitsverursachende Mutationen identifiziert werden, deren Proteinprodukte maßgeblich an der Aufrechterhaltung der Genomstabilit{\"a}t beteiligt sind und Komponenten des FA/BRCA-DNA-Reparaturweges darstellen. In der klassischen FA-Mutationsanalyse kommen meist Sanger-Sequenzierungen sowie MLPA- und Immunblot-Analysen zum Einsatz. Da im Wesentlichen keine Genotyp-Ph{\"a}notyp-Korrelation besteht, gestaltet sich, gerade bei seltenen FA-Komplementationsgruppen, der Nachweis von krankheitsverursachenden Mutationen oftmals sehr zeit- und kostenintensiv. W{\"a}hrend der letzten Jahre wurden verschiedene Strategien zur Anreicherung und Sequenzierung entwickelt, welche die parallele Sequenzanalyse einzelner ausgew{\"a}hlter Gene, ganzer Exome oder sogar des gesamten Genoms und somit eine kosten- und zeiteffiziente Mutationsanalyse erm{\"o}glichen. In der vorliegenden Arbeit wurden unterschiedliche Anreicherungsmethoden mit anschließender Hochdurchsatzsequenzierung auf ihre Anwendbarkeit in der molekulargenetischen FA-Diagnostik getestet, um klassische Mutationsanalyse-Methoden zu erg{\"a}nzen oder m{\"o}glicherweise sogar ganz ersetzen zu k{\"o}nnen. Der erste Teil der Arbeit befasste sich mit der Etablierung eines FA-spezifischen Genpanels zur Genotypisierung von FA-Patienten. Nachdem die Methode zun{\"a}chst anhand von FA-Patienten mit bekannten Mutationen optimiert werden musste, erwies sie sich als effizienter Ansatz zum Nachweis krankheitsverursachender Mutationen bei FA-Patienten unbekannter Komplementationsgruppe. Durch die FA-Panelanalyse konnten 37 von 47 unklassifizierten Patienten einer FA-Komplementationsgruppe zugeordnet werden, indem deren kausalen Mutationen bestimmt wurden. In einem weiteren Ansatz sollte die Anwendbarkeit eines kommerziellen Anreicherungspanels zur FA-Diagnostik untersucht werden. Auch hier konnte ein Großteil der krankheitsverursachenden Mutationen von f{\"u}nf bekannten wie auch 13 nicht zugeordneten FA-Patienten detektiert und somit eine molekulargenetische Diagnose bei neun weiteren, zuvor unklassifizierten FA-Patienten, gestellt werden. Ferner wurden sechs ausgew{\"a}hlte Patienten, zus{\"a}tzlich zur Panelanreicherung, per Exomanalyse untersucht. Zum einen konnten Mutationen in bekannten FA-Genen best{\"a}tigt oder neu identifiziert werden. Zum anderen wurden auch potentiell pathogene Mutationen in DNA-Reparaturgenen außerhalb des FA/BRCA-Signalweges bei zwei Patienten mit unbest{\"a}tigter Verdachtsdiagnose FA verifiziert. So wurde bei mehreren Mitgliedern einer Familie mit unterschiedlichen Tumorerkrankungen eine zuvor unbeschriebene homozygote Nonsense-Mutation in der BER-Glykosylase NTHL1 nachgewiesen, f{\"u}r welche bislang erst zwei pathogene Mutationen als Ausl{\"o}ser eines neuen Krebssyndroms bekannt sind. Bei einem weiteren Patienten wurden compound-heterozygote Mutationen in RPA1 detektiert, ein Gen f{\"u}r das bislang noch kein Krankheitsbild bekannt ist. Mit Hilfe der drei verschiedenen Anreicherungsstrategien konnten insgesamt 47 von 60 unklassifizierten FA-Patienten 13 verschiedenen Komplementationsgruppen eindeutig zugeordnet werden. Es zeigte sich dabei ein breites Spektrum an neuen, bislang unbeschriebenen FA-Mutationen. Den gr{\"o}ßten Anteil an der Gesamtzahl der nachgewiesenen Mutationen hatten Spleißmutationen, die auf eine Auswirkung auf das kanonische Spleißmuster untersucht wurden, um einen pathogenen Effekt nachweisen zu k{\"o}nnen. Weiterhin schloss die Arbeit die Charakterisierung einzelner FA-Patienten bzw. Komplementationsgruppen mit ein. Dazu z{\"a}hlen die seltenen Untergruppen FA-T und FA-Q, f{\"u}r die jeweils ein neuer Patient identifiziert werden konnte. Durch die funktionelle Charakterisierung der dritten jemals beschriebenen FA-Q-Patientin konnten Einblicke in das Zusammenspiel der Reparatur von DNA-Quervernetzungen und der Nukleotidexzisionsreparatur gewonnen und die ph{\"a}notypische Variabilit{\"a}t von FA durch die subjektive als auch zellul{\"a}re UV-Sensitivit{\"a}t der Patientin erg{\"a}nzt werden. Dar{\"u}ber hinaus konnte das Mutationsspektrum in FA-I sowie FA-D2 erweitert werden. Eine genauere Untersuchung der Pseudogenregionen von FANCD2 erm{\"o}glichte dabei die gezielte Mutationsanalyse des Gens. Insgesamt konnten die Ergebnisse dieser Arbeit dazu beitragen, das Mutationsspektrum in FA zu erweitern und durch die Identifizierung und Charakterisierung einzelner Patienten neue Einblicke in verschiedene Komponenten des FA/BRCA-Signalweges zu erhalten. Es zeigte sich, dass neue DNA-Sequenzierungsstrategien in der FA-Diagnostik eingesetzt werden k{\"o}nnen, um eine effiziente Mutationsanalyse zu gew{\"a}hrleisten und klassische Methoden in Teilbereichen zu ersetzen.}, subject = {Fanconi-An{\"a}mie}, language = {de} } @phdthesis{Eidel2020, author = {Eidel, Matthias T. A. M.}, title = {Training Effects of a Tactile Brain-Computer Interface System During Prolonged Use by Healthy And Motor-Impaired People}, doi = {10.25972/OPUS-20851}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-208511}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Background - Brain-Computer Interfaces (BCI) enable their users to interact and communicate with the environment without requiring intact muscle control. To this end, brain activity is directly measured, digitized and interpreted by the computer. Thus, BCIs may be a valuable tool to assist severely or even completely paralysed patients. Many BCIs, however, rely on neurophysiological potentials evoked by visual stimulation, which can result in usability issues among patients with impaired vision or gaze control. Because of this, several non-visual BCI paradigms have been developed. Most notably, a recent study revealed promising results from a tactile BCI for wheelchair control. In this multi-session approach, healthy participants used the BCI to navigate a simulated wheelchair through a virtual apartment, which revealed not only that the BCI could be operated highly efficiently, but also that it could be trained over five sessions. The present thesis continues the research on this paradigm in order to - confirm its previously reported high performance levels and trainability - reveal the underlying factors responsible for observed performance increases - establish its feasibility among potential impaired end-users Methods - To approach these goals, three studies were conducted with both healthy participants and patients with amyotrophic lateral sclerosis (ALS). Brain activity during BCI operation was recorded via electroencephalography (EEG) and interpreted using a machine learning-based linear classifier. Wheelchair navigation was executed according to the classification results and visualized on a monitor. For offline statistical analysis, neurophysiological features were extracted from EEG data. Subjective data on usability were collected from all participants. Two specialized experiments were conducted to identify factors for training. Results and Discussion - Healthy participants: Results revealed positive effects of training on BCI performances and their underlying neurophysiological potentials. The paradigm was confirmed to be feasible and (for a non-visual BCI) highly efficient for most participants. However, some had to be excluded from analysis of the training effects because they could not achieve meaningful BCI control. Increased somatosensory sensitivity was identified as a possible mediator for training-related performance improvements. Participants with ALS: Out of seven patients with various stages of ALS, five could operate the BCI with accuracies significantly above chance level. Another ALS patient in a state of near-complete paralysis trained with the BCI for several months. Although no effects of training were observed, he was consistently able to operate the system above chance level. Subjective data regarding workload, satisfaction and other parameters were reported. Significance - The tactile BCI was evaluated on the example of wheelchair control. In the future, it could help impaired patients to regain some lost mobility and self-sufficiency. Further, it has the potential to be adapted to other purposes, including communication. Once visual BCIs and other assistive technologies fail for patients with (progressive) motor impairments, vision-independent paradigms such as the tactile BCI may be among the last remaining alternatives to interact with the environment. The present thesis has strongly confirmed the general feasibility of the tactile paradigm for healthy participants and provides first clues about the underlying factors of training. More importantly, the BCI was established among potential end-users with ALS, providing essential external validity.}, subject = {Myatrophische Lateralsklerose}, language = {en} } @phdthesis{Seibold2020, author = {Seibold, Marcel}, title = {Funktionelle Charakterisierung des Ras family small GTP binding protein RAL im Multiplen Myelom}, doi = {10.25972/OPUS-20800}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-208003}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Die monoklonale Proliferation maligner Plasmazellen im Knochenmark ist charakteristisch f{\"u}r das multiple Myelom (MM) und kann bei Erkrankten zu St{\"o}rungen in der H{\"a}matopoese sowie zu Knochenl{\"a}sionen und Niereninsuffizienz f{\"u}hren. Die Weiterentwicklung und der Einsatz neuer Therapieoptionen konnten das {\"U}berleben von MM-Patienten zwar erheblich verbessern, jedoch gilt diese Krankheit weiterhin als unheilbar. Onkogene Mutationen und das Knochenmarkmikromilieu f{\"u}hren in MM-Zellen zur Entstehung eines onkogenen Signalnetzwerks, das das Wachstum und {\"U}berleben der Zellen aufrechterh{\"a}lt. Mutationen der GTPase RAS treten bei bis zu 50 \% der MM-Patienten auf und tragen zum {\"U}berleben von MM-Zellen bei. Trotz der H{\"a}ufigkeit und Bedeutsamkeit von onkogenem RAS, auch in anderen Tumorentit{\"a}ten, ist die GTPase nach wie vor therapeutisch nicht angreifbar. Die GTPase RAL aus der Familie der RAS-GTPasen wird als Downstream-Effektor von RAS angesehen, der damit ebenfalls zur Aufrechterhaltung des Tumorzell{\"u}berlebens beitragen k{\"o}nnte. In einigen Tumorentit{\"a}ten konnte bisher gezeigt werden, dass eine {\"U}berexpression von RAL in den Tumorzellen vorliegt und die Proliferation und Apoptose von Tumorzellen durch RAL beeinflusst wird. Daher stellte sich die Frage, ob RAL im MM ebenfalls das {\"U}berleben von Tumorzellen beeinflusst und ob eine direkte Verbindung zwischen onkogenem RAS und RAL besteht. In dieser Arbeit wurde die funktionelle Rolle von RAL sowie dessen Zusammenhang mit onkogenem RAS im MM untersucht. Hierbei konnte eine {\"U}berexpression von RAL in MM-Zellen im Vergleich zu MGUS oder normalen Plasmazellen beobachtet werden. In Knockdown-Analysen wurde gezeigt, dass RAL {\"u}berlebensnotwendig f{\"u}r MM-Zellen ist. Dabei wurde in Western Blot-Analysen festgestellt, dass diese {\"U}berlebenseffekte unabh{\"a}ngig von MAPK/ERK-Signaling vermittelt werden. Es konnte teilweise jedoch eine Abh{\"a}ngigkeit von der AKT-Aktivit{\"a}t beobachtet werden. Da RAL-Knockdown Einfluss auf das {\"U}berleben von MM-Zellen hat, wurde eine pharmakologische Inhibition von RAL durch den Inhibitor RBC8 untersucht. RBC8 zeigte in h{\"o}heren Dosen nur bei einem Teil der MM-Zelllinien eine Wirkung auf das Zell{\"u}berleben sowie auf die RAL-Aktivierung. Die Weiterentwicklung potenter RAL-Inhibitoren ist daher f{\"u}r eine klinische Translation einer RAL-Inhibition von großer Bedeutung. Zur Untersuchung des Zusammenhangs zwischen onkogenem RAS und der RAL-Aktivierung wurden RAL-Pulldown-Analysen nach Knockdown von onkogenem RAS durchgef{\"u}hrt. In diesen Experimenten wurde keine Abh{\"a}ngigkeit der RAL-Aktivierung von onkogenem RAS festgestellt. Dar{\"u}ber hinaus zeigten Genexpressionsanalysen nach RAS- bzw. RAL-Knockdown unterschiedliche Genexpressionsprofile. In Massenspektrometrie-Analysen wurden m{\"o}gliche Effektoren, die mit RAL an der Beeinflussung des Zell{\"u}berlebens beteiligt sein k{\"o}nnten, untersucht. Hierbei wurden die Komponenten des Exozyst-Komplexes EXO84 und SEC5 als Interaktionspartner von RAL identifiziert. Nachdem gezeigt wurde, dass RAL ausschlaggebend f{\"u}r das {\"U}berleben von MM-Zellen ist, wurde eine Kombination von RAL-Knockdown mit klinisch relevanten Wirkstoffen analysiert. Diese zeigte bei der Kombination mit PI3K oder AKT-Inhibitoren verst{\"a}rkte Effekte auf das Zell{\"u}berleben der MM-Zellen. Zusammenfassend wurde die Bedeutung von RAL f{\"u}r das {\"U}berleben von Tumorzellen im MM gezeigt und RAL als potentielles therapeutisches Target im MM beschrieben, welches unabh{\"a}ngig von onkogenem RAS reguliert wird.}, subject = {Kleine GTP-bindende Proteine}, language = {de} } @phdthesis{Seitz2020, author = {Seitz, Nicola}, title = {Bee demise and bee rise: From honey bee colony losses to finding measures for advancing entire bee communities}, doi = {10.25972/OPUS-18418}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184180}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {My dissertation comprises three studies: (1) an assessment of honey bee colony losses in the USA between 2014 and 2015, (2) an exploration of the potential of reclaimed sand mines as bee habitat, and (3) an evaluation of native and non-native pollinator friendly plants in regard to their attraction to bees. While the first study focuses on honey bees, the latter two studies primarily take wild bees or entire bee communities in focus. The study on honey bee colony losses was conducted within the framework of the Bee Informed Partnership (BIP, beeinformed.org) and aligns with the annual colony loss surveys which have been conducted in the USA since the winter of 2006/2007. It was the fourth year for which summer and annual losses were calculated in addition to winter losses. Among participants, backyard beekeepers were the largest group (n = 5690), although sideline (n = 169) and commercial (n = 78) beekeepers managed the majority (91.7 \%) of the 414 267 surveyed colonies. Overall, 15.1 \% of the estimated 2.74 million managed colonies in the USA were included in the study. Total honey bee colony losses (based on the entirety of included colonies) were higher in summer (25.3 \%) than in winter (22.3 \%) and amounted to 40.6 \% for the entire 2014/2015 beekeeping year. Average colony losses per beekeeper or operation were higher in winter (43.7 \%) than in summer (14.7 \%) and amounted to 49 \% for the entire 2014/2015 beekeeping year. Due to the dominance of backyard beekeepers among participants, average losses per operation (or unweighted loss) stronger reflected this smaller type of beekeeper. Backyard beekeepers mainly named colony management issues (e.g., starvation, weak colony in the fall) as causes for mortality, while sideline and commercial beekeepers stronger emphasized parasites or factors outside their control (e.g., varroa, nosema, queen failure). The second study took place at reclaimed sand mines. Sand mines represent anthropogenically impacted habitats found worldwide, which bear potential for bee conservation. Although floral resources can be limited at these habitats, vegetation free patches of open sandy soils and embankments may offer good nesting possibilities for sand restricted and other bees. We compared bee communities as found in three reclaimed sand mines and at adjacent roadside meadows in Maryland, USA, over two years. Both sand mines and roadsides hosted diverse bee communities with 111 and 88 bee species, respectively. Bee abundances as well as richness and Shannon diversity of bee species were higher in sand mines than at roadsides and negatively correlated with the percentage of vegetational ground cover. Species composition also differed significantly between habitats. Sand mines hosted a higher proportion of ground nesters, more uncommon and more 'sand loving' bees similar to natural sandy areas of Maryland. Despite the destruction of the original pre-mining habitat, sand mines thus appear to represent a unique habitat for wild bees, particularly when natural vegetation and open sand spots are encouraged. Considering habitat loss, the lack of natural disturbance regimes, and ongoing declines of wild bees, sand mines could add promising opportunities for bee conservation which has hitherto mainly focused on agricultural and urban habitats. The third study was an experimental field study on pollinator friendly plants. Bees rely on the pollen and nectar of plants as their food source. Therefore, pollinator friendly plantings are often used for habitat enhancements in bee conservation. Non-native pollinator friendly plants may aid in bee conservation efforts, but have not been tested and compared with native pollinator friendly plants in a common garden experiment. In this study, we seeded mixes of 20 native and 20 non-native pollinator friendly plants in two separate plots at three sites in Maryland, USA. For two years, we recorded flower visitors to the plants throughout the blooming period and additionally sampled bees with pan traps. A total of 3744 bees (120 species) were sampled in the study. Of these, 1708 bees (72 species) were hand netted directly from flowers for comparisons between native and non-native plants. Depending on the season, bee abundance and species richness was either similar or lower (early season and for richness also late season) at native plots compared to non-native plots. Additionally, the overall bee community composition differed significantly between native and non-native plots. Furthermore, native plants were associated with more specialized plant-bee visitation networks compared to non-native plants. In general, visitation networks were more specialized in the early season than the later seasons. Four species (Bombus impatiens, Halictus poeyi/ligatus, Lasioglossum pilosum, and Xylocopa virginica) out of the five most abundant bee species (also including Apis mellifera) foraged more specialized on native than non-native plants. Our study showed that non-native plants were well accepted by a diverse bee community and had a similar to higher attraction for bees compared to native plants. However, we also demonstrated alterations in foraging behavior, bee community assemblage, and visitation networks. As long as used with caution, non-native plants can be a useful addition to native pollinator friendly plantings. This study gives a first example of a direct comparison between native and non-native pollinator friendly plants.}, subject = {Biene}, language = {en} } @phdthesis{Schneider2020, author = {Schneider, Felicitas Maria Hannelore}, title = {Vergleichende Evaluierung verschiedener Ans{\"a}tze des Memory Enhancement bei neurodegenerativen Prozessen}, doi = {10.25972/OPUS-20756}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207562}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Angesichts des dramatischen, weltweiten Anstiegs der Pr{\"a}valenz von Demenzerkrankungen und der aktuellen, unzureichenden Therapieans{\"a}tze ist die Bereitstellung neuer, wirkungsvoller Behandlungsoptionen von gr{\"o}ßter Bedeutung. Technologische, pharmakologische und verhaltensbasierte Verfahren des Memory Enhancement k{\"o}nnten zur L{\"o}sung dieses Problems beitragen: Hierzu z{\"a}hlt die Stammzelltransplantation, die in mehreren Tierstudien zu einer Verbesserung der Ged{\"a}chtnisfunktion f{\"u}hrte. Zudem wird seit L{\"a}ngerem an einer Impfung gegen die Alzheimer-Krankheit mittels β-Amyloid-Antik{\"o}rpern geforscht. Ein weiterer therapeutischer Ansatz f{\"u}r die Alzheimer-Krankheit besteht in der optogenetischen Stimulation spezifischer hippocampaler Engramm-Zellen, durch die bei einem Maus-Modell verloren gegangene Erinnerungen wiederhergestellt werden konnten. Unkonventionelle Pharmazeutika wie Erythropoetin f{\"u}hrten in Tierstudien und bei Patienten mit neuropsychiatrischen Erkrankungen zu einer Verbesserung der kognitiven F{\"a}higkeiten und des Ged{\"a}chtnisses. Eine Modifikation der Ern{\"a}hrung und der Einsatz von Pro- und Pr{\"a}biotika beeinflussen das Ged{\"a}chtnis {\"u}ber eine Manipulation der Darm-Hirn-Achse. Verhaltensbasierte Maßnahmen wie k{\"o}rperliche Aktivit{\"a}t und der Einsatz von Mnemotechniken stellen effektive Ans{\"a}tze des Memory Enhancement dar, welche bereits heute von gesunden Individuen implementiert werden k{\"o}nnen. F{\"u}r die Anwendung von Augmented Reality (AR) konnten kognitionsf{\"o}rdernde Wirkungen beim Lernen neuroanatomischer Themen und dem Zusammenbau von Objekten nachgewiesen werden. Besonders vielversprechend stellt sich die Entwicklung einer Ged{\"a}chtnisprothese dar, durch die vergessene Informationen bei Personen mit stattgehabtem Sch{\"a}del-Hirn-Trauma und apoplektischem Insult reaktiviert werden k{\"o}nnten. Memory Enhancement ist prinzipiell bereits heute bei gesunden und kranken Individuen anwendbar und verspricht wirksame zuk{\"u}nftige Pr{\"a}ventions- und Therapieoptionen. Ein realer Einsatz in der klinischen Praxis ist in naher Zukunft jedoch noch nicht zu erwarten.}, subject = {Neurodegeneration}, language = {de} } @phdthesis{Goetz2020, author = {G{\"o}tz, Ralph}, title = {Super-resolution microscopy of plasma membrane receptors and intracellular pathogens}, doi = {10.25972/OPUS-20716}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207165}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Humans tend to believe in what they can see with their own eyes. Hence, visualization methods like microscopy have always been extremely popular since their invention in the 17th century. With the advent of super-resolution microscopy, the diffraction limit of ~200 - 250 nm could be overcome to enable more detailed insights into biological samples. Especially the single molecule localization microscopy method dSTORM offers the possibility of quantitative bioimaging. Hereby, the repetitive photoswitching of organic dyes in the presence of thiols is exploited to enable a lateral resolution of 20 nm. Another, recently introduced super-resolution method is expansion microscopy (ExM) which physically expands the sample to increase the resolution by the expansion factor from four to even twenty. To enable this, the sample is embedded into a hydrogel, homogenized using an unspecific proteinase and expanded in distilled water. Within this thesis, both methods were used to shed light on plasma membrane receptor distributions and different bacterial and fungal pathogens. In the first part of this thesis dSTORM was used to elucidate the "Receptome", the entirety of all membrane receptors, of the cell line Jurkat T-cells and primary T-cells. Within this project we could successfully visualize and quantify the distribution of the plasma membrane receptors CD2, CD3, CD4, CD5, CD7, CD11a, CD20, CD28, CD45, CD69 and CD105 with receptor densities ranging from 0.8 cluster/µm² in case of CD20 and 81.4 cluster/µm² for the highly abundant CD45 in activated primary T-cells at the basal membrane. Hereby, we could also demonstrate a homogeneous distribution of most receptors, while only few were clustered. In the case of CD3-clusters were detected in Jurkat T-cells and in primary activated T-cells, but not in na{\"i}ve ones, demonstrating the activation of this receptor. This was followed by the application of dSTORM to three different clinical projects involving the receptors CD38, BCMA and CD20 which are immunotherapeutic targets by monoclonal antibodies and CAR T-cells. In the first two projects dSTORM was applied to determine the receptor upregulation upon exposure of various drugs to MM1.S cells or primary multiple myeloma patient cells. This increase in membrane receptor expression can subsequently enhance the efficacy of therapies directed against these receptors. Within the CD20-project, the superior sensitivity of dSTORM compared to flow cytometry could be demonstrated. Hereby, a substantially higher fraction of CD20-positive patient cells was detected by dSTORM than by flow cytometry. In addition, we could show that by dSTORM CD20-positive evaluated cells were eradicated by immunotherapeutic CAR T-cell treatment. These studies were followed by whole cell super-resolution imaging using both LLS-3D dSTORM and 10x ExM to exclude any artifacts caused by interactions with the glass surface. In 10x ExM signal amplification via biotinylated primary antibodies and streptavidin ATTO 643 was essential to detect even single antibodies directed against the heterodimer CD11a with standard confocal microscopes. Albeit probably not quantitative due to the process of gelation, digestion and expansion during the ExM protocol, even some putative dimers of the receptor CD2 could be visualized using 10x ExM-SIM, similar to dSTORM experiments. Within the second part of this thesis, expansion microscopy was established in bacterial and fungal pathogens. ExM enabled not only an isotropic fourfold expansion of Chlamydia trachomatis, but also allowed the discrimination between the two developmental forms by the chlamydial size after expansion into reticulate and elementary bodies. Hereafter, a new α-NH2-ω-N3-C6-ceramide was introduced enabling an efficient fixation and for the first time the use of lipids in both, 4x and 10x ExM, termed sphingolipid ExM. This compound was used to investigate the ceramide uptake and incorporation into the cell membrane of Chlamydia trachomatis and Simkania negevensis. For Chlamydia trachomatis the combined resolution power of 10x ExM and SIM even allowed the visualization of both bacterial membranes within a distance of ~30 nm. Finally, ExM was applied to the three different fungi Ustilago maydis, Fusarium oxysporum and Aspergillus fumigatus after enzymatic removal of the fungal cell wall. In case of Ustilago maydis sporidia this digestion could be applied to both, living cells resulting in protoplasts and to fixed cells, preserving the fungal morphology. This new protocol could be demonstrated for immunostainings and fluorescent proteins of the three different fungi.}, subject = {Mikroskopie}, language = {en} } @phdthesis{Thelen2020, author = {Thelen, David}, title = {Erstellung eines genregulatorischen Netzwerkes zur Simulation der Entstehung von Zahnhartsubstanz}, doi = {10.25972/OPUS-20406}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204068}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {In this dissertation, the author describes the creation of a basic bioinformatic model of human enamel maturation. Supported by the interactions found in the KEGG Pathway database, we were able to establish a gene regulatory network (GRN) that focuses primarily on the signal transduction pathways apoptosis, cell cycle, hedgehog signaling pathway, MAP kinase pathway, mTOR signaling pathway, Notch signaling pathway, TGF-β signaling pathway and Wnt signaling pathway. We extended this through further verified interactions and implicated the tooth-specific genes AMELX, AMELY, AMBN, ENAM and DSPP. In the subsequent simulation of the network by the simulation tool Jimena, six stable states could be identified. These are examined in more detail and juxtaposed with results of a GEO dataset. The long-term goal is to draw conclusions about the odontogenesis of humans through consistent optimization of the bioinformatics network.}, subject = {Universit{\"a}t W{\"u}rzburg. Lehrstuhl f{\"u}r Bioinformatik}, language = {de} } @phdthesis{Zimmermann2020, author = {Zimmermann, Henriette}, title = {Antigenic variation and stumpy development in \(Trypanosoma\) \(brucei\)}, doi = {10.25972/OPUS-14690}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-146902}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {The eukaryotic parasite Trypanosoma brucei has evolved sophisticated strategies to persist within its mammalian host. Trypanosomes evade the hosts' immune system by antigenic variation of their surface coat, consisting of variant surface glycoproteins (VSGs). Out of a repertoire of thousands of VSG genes, only one is expressed at any given time from one of the 15 telomeric expression sites (ES). The VSG is stochastically exchanged either by a transcriptional switch of the active ES (in situ switch) or by a recombinational exchange of the VSG within the active ES. However, for infections to persist, the parasite burden has to be limited. The slender (sl) bloodstream form secretes the stumpy induction factor (SIF), which accumulates with rising parasitemia. SIF induces the irreversible developmental transition from the proliferative sl to the cell cycle-arrested but fly-infective stumpy (st) stage once a concentration threshold is reached. Thus, antigenic variation and st development ensure persistent infections and transmissibility. A previous study in monomorphic cells indicated that the attenuation of the active ES could be relevant for the development of trypanosomes. The present thesis investigated this hypothesis using the inducible overexpression of an ectopic VSG in pleomorphic trypanosomes, which possess full developmental competence. These studies revealed a surprising phenotypic plasticity: while the endogenous VSG was always down-regulated upon induction, the ESactivity determined whether the VSG overexpressors arrested in growth or kept proliferating. Full ES-attenuation induced the differentiation of bona fide st parasites independent of the cell density and thus represents the sole natural SIF-independent differentiation trigger to date. A milder decrease of the ES-activity did not induce phenotypic changes, but appeared to prime the parasites for SIF-induced differentiation. These results demonstrate that antigenic variation and development are linked and indicated that the ES and the VSG are independently regulated. Therefore, I investigated in the second part of my thesis how ES-attenuation and VSG-silencing can be mediated. Integration of reporters with a functional or defective VSG 3'UTR into different genomic loci showed that the maintenance of the active state of the ES depends on a conserved motif within the VSG 3'UTR. In situ switching was only triggered when the telomere-proximal motif was partially deleted, suggesting that it serves as a DNA-binding motif for a telomere-associated protein. The VSG levels seem to be additionally regulated in trans based on the VSG 3'UTR independent of the genomic context, which was reinforced by the regulation of a constitutively expressed reporter with VSG 3' UTR upon ectopic VSG overexpression.}, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Michel2020, author = {Michel, Konstanze}, title = {Die kardiale Bedeutung des Hormons C-Typ natriuretisches Peptid (CNP) und dessen Guanylylcyclase B (GC-B) Rezeptor}, doi = {10.25972/OPUS-20021}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-200211}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {In der vorliegenden Dissertationsarbeit wurden die kardialen Effekte des C-Typ natriuretischen Peptids (CNP) an wildtypischen M{\"a}usen (Studie 1) und an einem neuen genetischen Mausmodell, mit einer Kardiomyozyten-spezifischen Deletion des Guanylyl-Cyclase B (GC-B) Rezeptors (Studie 2) untersucht. In Studie 1 wurden die Wirkungen von exogenem, synthetischem CNP auf eine durch Druckbelastung-induzierte Herzinsuffizienz in wildtypischen M{\"a}usen (C57Bl6 Hintergrund) untersucht. Daf{\"u}r wurde CNP parallel zu einer operativen transversen Aortenkonstriktion (TAC) {\"u}ber osmotische Minipumpen in einer Dosierung von 50 ng/kg/min {\"u}ber 14 Tage appliziert. Die 14 Tage TAC f{\"u}hrten zu einer ausgepr{\"a}gten Linksherzhypertrophie. Diese wurde durch exogenes CNP auf zellul{\"a}rer (verringerte Kardiomyozytenfl{\"a}chen) und molekularer (verringerte BNP mRNA Expression) Ebene signifikant gehemmt. Auch die durch TAC-induzierte linksventrikul{\"a}re Dilatation wurde durch exogenes CNP fast vollst{\"a}ndig verhindert. Diese kardialen protektiven Effekte von CNP traten ohne eine wesentliche Ver{\"a}nderung des arteriellen Blutdrucks auf. M{\"o}gliche mechanistische Ursachen f{\"u}r die sch{\"u}tzende Wirkung von CNP k{\"o}nnte die PKG-abh{\"a}ngige Phosphorylierung des sarkomerischen Proteins Titin sein. Eine gesteigerte Phosphorylierung von Titin an der elastischen N2B-Dom{\"a}ne verringert die Steifigkeit der Kardiomyozyten und verbessert somit deren Relaxationsf{\"a}higkeit (Hudson 2011). Die erh{\"o}hten linksventrikul{\"a}ren Volumina nach TAC (end-diastolische und end-systolische Volumina) wurden m{\"o}glicherweise durch eine erh{\"o}hte Steifigkeit der Kardiomyozyten provoziert. Dies k{\"o}nnte durch den akuten IL-6 mRNA Anstieg nach TAC beg{\"u}nstigt werden, da Kruger et al. einen Zusammenhang zwischen passiver Steifigkeit der Kardiomyozyten und IL-6-Expression postulierten (Kotter 2016, Kruger 2009). Diese Ver{\"a}nderungen wurden durch exogenes CNP verhindert. Es ist wahrscheinlich, dass die CNP-induzierte Phosphorylierung von Titin an Serin 4080 in die Relaxationsf{\"a}higkeit der Kardiomyozyten und somit die diastolische Funktion des linken Ventrikels verbesserte. Aufgrund dieser Beobachtungen wurde in Studie 2 untersucht, ob auch endogenes CNP als parakrines Hormon im Herzen eine TAC-induzierte Herzhypertrophie und die kontraktile Funktion von Kardiomyozyten bei einer hypertensiven Herzerkrankung beeinflussen kann. Daf{\"u}r wurde ein neues genetisches Mausmodell mit einer Kardiomyozyten-spezifischen Deletion des GC-B Rezeptors generiert (CM GC-B KO). Da vorangegangene Studien in unserer Arbeitsgruppe zeigten, dass die basale CNP-Expression im Herzen sehr gering ist, nach 3-t{\"a}giger TAC aber akut ansteigt und nach 14-t{\"a}giger TAC wieder abf{\"a}llt, haben wir CM GC-B KO M{\"a}use und deren Geschwister-Kontrolltiere an beiden Zeitpunkten nach TAC untersucht. Die TAC f{\"u}hrte Genotyp-unabh{\"a}ngig zu einem Anstieg der kardialen Nachlast nach 3 Tagen und weiter nach 14 Tagen. Diese Druckbelastung provozierte eine progressive, signifikante Linksherzhypertrophie. Allerdings reagierten die CM GC-B KO M{\"a}use im Vergleich zu den Kontrolltieren bereits nach 3-t{\"a}giger TAC mit einer ausgepr{\"a}gten Kardiomyozyten-Hypertrophie. Zudem beobachteten wir nach 3-t{\"a}giger TAC in den Knockout-M{\"a}usen eine Abnahme der Ejektionsfraktion und gleichzeitig eine signifikante Zunahme der beiden linksventrikul{\"a}ren Volumina (end-diastolische und end-systolische Volumen). Diese fr{\"u}he linksventrikul{\"a}re Dilatation wurde in den Kontrolltieren nicht beobachtet. Daraus schlussfolgerten wir, dass endogenes kardiales CNP, dessen Expression zu fr{\"u}hen Zeitpunkten nach Druckbelastung ansteigt, das Herz vor kontraktiler Dysfunktion und Dilatation sch{\"u}tzen kann. Um m{\"o}gliche Mechanismen f{\"u}r die protektive Wirkung von endogenem CNP zu erkl{\"a}ren, untersuchten wir die IL-6 mRNA Expression sowie die Titin-Phosphorylierung im Herzen. Der akute Anstieg der IL-6 mRNA Expression nach 3-t{\"a}giger TAC in den CM GC-B KO M{\"a}usen korreliert mit der verminderten Phosphorylierung von Titin an der PGK-spezifischen Phosphorylierungsstelle (Serin 4080). Somit k{\"o}nnte der CNP/GC-B/cGMP-Signalweg zu einer Inhibition pro-inflammatorischer Gene beitragen, da der akute IL-6 mRNA Anstieg in den Kontrollen nicht beobachtet wurde. Auch die gesteigerte NOX4 Expression 3 Tage nach TAC, k{\"o}nnte zu der fr{\"u}hen dilatativen Kardiomyopathie in den Knockout-M{\"a}usen beigetragen haben. Die verringerte STAT3 Aktivierung in den CM GC-B KO M{\"a}usen w{\"u}rde laut Literatur zu vermehrter Apoptose f{\"u}hren, indem pro-apoptotische Gene wie Bcl oder Bax vermehrt transkribiert werden. Auch die erh{\"o}hte Cxcl-1 mRNA Expression in den Knockout-M{\"a}usen deutet zusammen mit dem IL-6 Anstieg auf vermehrte Entz{\"u}ndungsreaktionen 3 Tage nach TAC hin. Zusammengenommen deuten die Ergebnisse dieser Dissertationsarbeit darauf hin, dass der CNP/GC-B/cGMP-Signalweg in fr{\"u}hen Stadien einer erh{\"o}hten kardialen Druckbelastung und der Entstehung einer dilatativen Kardiomyopathie entgegenwirken kann. Die Phosphorylierung des sarkomerischen Proteins Titin und die Hemmung der Expression pro-inflammatorischer Zytokine (speziell IL-6) k{\"o}nnten zu diesem protektiven Effekt beitragen.}, subject = {Herzinsuffizienz}, language = {de} } @phdthesis{Klepsch2020, author = {Klepsch, Maximilian Andreas}, title = {Small RNA-binding complexes in Chlamydia trachomatis identified by Next-Generation Sequencing techniques}, doi = {10.25972/OPUS-19974}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199741}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Chlamydia infect millions worldwide and cause infertility and blinding trachoma. Chlamydia trachomatis (C. trachomatis) is an obligate intracellular gram-negative pathogen with a significantly reduced genome. This bacterium shares a unique biphasic lifecycle in which it alternates between the infectious, metabolically inert elementary bodies (EB) and the non-infections, metabolically active replicative reticular bodies (RB). One of the challenges of working with Chlamydia is its difficult genetic accessibility. In the present work, the high-throughput method TagRNA-seq was used to differentially label transcriptional start sites (TSS) and processing sites (PSS) to gain new insights into the transcriptional landscape of C. trachomatis in a coverage that has never been achieved before. Altogether, 679 TSSs and 1067 PSSs were detected indicating its high transcriptional activity and the need for transcriptional regulation. Furthermore, the analysis of the data revealed potentially new non-coding ribonucleic acids (ncRNA) and a map of transcriptional processing events. Using the upstream sequences, the previously identified σ66 binding motif was detected. In addition, Grad-seq for C. trachomatis was established to obtain a global interactome of the RNAs and proteins of this intracellular organism. The Grad-Seq data suggest that many of the newly annotated RNAs from the TagRNA-seq approach are present in complexes. Although Chlamydia lack the known RNA-binding proteins (RBPs), e.g. Hfq and ProQ, observations in this work reveal the presence of a previously unknown RBP. Interestingly, in the gradient analysis it was found that the σ66 factor forms a complex with the RNA polymerase (RNAP). On the other hand, the σ28 factor is unbound. This is in line with results from previous studies showing that most of the genes are under control of σ66. The ncRNA IhtA is known to function via direct base pairing to its target RNA of HctB, and by doing so is influencing the chromatin condensation in Chlamydia. This study confirmed that lhtA is in no complex. On the other hand, the ncRNA ctrR0332 was found to interact with the SNF2 protein ctl0077, a putative helicase. Both molecules co-sedimented in the gradient and were intact after an aptamer-based RNA pull-down. The SWI2/SNF2 class of proteins are nucleosome remodeling complexes. The prokaryotic RapA from E. coli functions as transcription regulator by stimulating the RNAP recycling. This view might imply that the small ncRNA (sRNA) ctrR0332 is part of the global regulation network in C. trachomatis controlling the transition between EBs and RBs via interaction with the SNF2 protein ctl0077. The present work is the first study describing a global interactome of RNAs and proteins in C. trachomatis providing the basis for future interaction studies in the field of this pathogen.}, language = {en} } @phdthesis{Hartlieb2020, author = {Hartlieb, Heiko}, title = {Functional analysis of Mushroom body miniature's RGG-box and its role in neuroblast proliferation in Drosophila melanogaster}, doi = {10.25972/OPUS-19967}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199674}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Development of the central nervous system in Drosophila melanogaster relies on neural stem cells called neuroblasts. Neuroblasts divide asymmetrically to give rise to a new neuroblast as well as a small daughter cell which eventually generates neurons or glia cells. Between each division, neuroblasts have to re-grow to be able to divide again. In previous studies, it was shown that neuroblast proliferation, cell size and the number of progeny cells is negatively affected in larvae carrying a P-element induced disruption of the gene mushroom body miniature (mbm). This mbm null mutation called mbmSH1819 is homozygously lethal during pupation. It was furthermore shown that the nucleolar protein Mbm plays a role in the processing of ribosomal RNA (rRNA) as well as the translocation of ribosomal protein S6 (RpS6) in neuroblasts and that it is a transcriptional target of Myc. Therefore, it was suggested that Mbm might regulate neuroblast proliferation through a role in ribosome biogenesis. In the present study, it was attempted to further elucidate these proposed roles of Mbm and to identify the protein domains that are important for those functions. Mbm contains an arginine/glycine rich region in which a di-RG as well as a di-RGG motif could be found. Together, these two motifs were defined as Mbm's RGG-box. RGG-boxes can be found in many proteins of different families and they can either promote or inhibit protein-RNA as well as protein-protein interactions. Therefore, Mbm's RGG-box is a likely candidate for a domain involved in rRNA binding and RpS6 translocation. It could be shown by deletion of the RGG-box, that MbmdRGG is unable to fully rescue survivability and neuroblast cell size defects of the null mutation mbmSH1819. Furthermore, Mbm does indeed rely on its RGG-box for the binding of rRNA in vitro and in mbmdRGG as well as mbmSH1819 mutants RpS6 is partially delocalized. Mbm itself also seems to depend on the RGG-box for correct localization since MbmdRGG is partially delocalized to the nucleus. Interestingly, protein synthesis rates are increased in mbmdRGG mutants, possibly induced by an increase in TOR expression. Therefore, Mbm might possess a promoting function in TOR signaling in certain conditions, which is regulated by its RGG-box. Moreover, RGG-boxes often rely on methylation by protein arginine methyltransferases (in Drosophila: Darts - Drosophila arginine methyltransferases) to fulfill their functions. Mbm might be symmetrically dimethylated within its RGG-box, but the results are very equivocal. In any case, Dart1 and Dart5 do not seem to be capable of Mbm methylation. Additionally, Mbm contains two C2HC type zinc-finger motifs, which could be involved in rRNA binding. In an earlier study, it was shown that the mutation of the zinc-fingers, mbmZnF, does not lead to changes in neuroblast cell size, but that MbmZnF is delocalized to the cytoplasm. In the present study, mbmZnF mutants were included in most experiments. The results, however, are puzzling since mbmZnF mutant larvae exhibit an even lower viability than the mbm null mutants and MbmZnF shows stronger binding to rRNA than wild-type Mbm. This suggests an unspecific interaction of MbmZnF with either another protein, DNA or RNA, possibly leading to a dominant negative effect by disturbing other interaction partners. Therefore, it is difficult to draw conclusions about the zinc-fingers' functions. In summary, this study provides further evidence that Mbm is involved in neuroblast proliferation as well as the regulation of ribosome biogenesis and that Mbm relies on its RGG-box to fulfill its functions.}, subject = {Taufliege}, language = {en} } @phdthesis{Kurz2020, author = {Kurz, Andreas}, title = {Correlative live and fixed cell superresolution microscopy}, doi = {10.25972/OPUS-19945}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199455}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Over the last decade life sciences have made an enormous leap forward. The development of complex analytical instruments, in particular in fluorescence microscopy, has played a decisive role in this. Scientist can now rely on a wide range of imaging techniques that offer different advantages in terms of optical resolution, recording speed or living cell compatibility. With the help of these modern microscopy techniques, multi-protein complexes can be resolved, membrane receptors can be counted, cellular pathways analysed or the internalisation of receptors can be tracked. However, there is currently no universal technique for comprehensive experiment execution that includes dynamic process capture and super resolution imaging on the same target object. In this work, I built a microscope that combines two complementary imaging techniques and enables correlative experiments in living and fixed cells. With an image scanning based laser spot confocal microscope, fast dynamics in several colors with low photodamage of the cells can be recorded. This novel system also has an improved resolution of 170 nm and was thoroughly characterized in this work. The complementary technique is based on single molecule localization microscopy, which can achieve a structural resolution down to 20-30 nm. Furthermore I implemented a microfluidic pump that allows direct interaction with the sample placed on the microscope. Numerous processes such as living cell staining, living cell fixation, immunostaining and buffer exchange can be observed and performed directly on the same cell. Thus, dynamic processes of a cell can be frozen and the structures of interest can be stained and analysed with high-resolution microscopy. Furthermore, I have equipped the detection path of the single molecule technique with an adaptive optical element. With the help of a deformable mirror, imaging functions can be shaped and information on the 3D position of the individual molecules can be extracted.}, subject = {Einzelmolek{\"u}lmikroskopie}, language = {en} } @phdthesis{Beliu2020, author = {Beliu, Gerti}, title = {Bioorthogonale Tetrazin-Farbstoffe f{\"u}r die Lebendzell-Markierung und hochaufgel{\"o}ste Fluoreszenzmikroskopie}, doi = {10.25972/OPUS-18962}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-189628}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Der genetische Code beschreibt die Ver- und Entschl{\"u}sselung der Erb-information f{\"u}r das universelle Prinzip der Proteinbiosynthese aus einzelnen Aminos{\"a}uren. Durch Erweiterung des genetischen Codes lassen sich unna-t{\"u}rliche Aminos{\"a}uren (uAA) mit einzigartigen biophysikalischen Eigenschaf-ten ortsspezifisch in Proteine einf{\"u}hren und erm{\"o}glichen die spezifische Ma-nipulation von Proteinen. Die Click-Reaktion zwischen der unnat{\"u}rlichen Aminos{\"a}ure TCO*-Lysin und Tetrazin besitzt eine außergew{\"o}hnliche Reaktionskinetik (≥800 M-1s-1) und erm{\"o}glicht eine spezifische und bioorthogonale Markierung von Bio- ¬molek{\"u}len unter physiologischen Bedingungen. Im Fokus dieser Arbeit stand zun{\"a}chst die Markierung von Membran- ¬rezeptoren durch Click-Chemie in lebenden Zellen sowie die Untersuchung der Wechselwirkung 22 bekannter und neuartiger Tetrazin-Farbstoff- Konjugate. Dar{\"u}ber hinaus wurde die Anwendbarkeit von bioorthogonalen Click-Reaktionen f{\"u}r die hochaufl{\"o}sende Fluoreszenzmikroskopie untersucht. Durch Erweiterung des genetischen Codes in Proteine aus der Klasse der ionotropen Glutamatrezeptoren (iGluR), TNF-Rezeptoren oder Mikrotubu-li-assoziierten Proteinen (MAP) wurde ortspezifisch die unnat{\"u}rliche Amino-s{\"a}ure TCO*-Lysin eingef{\"u}hrt und dadurch die Fluoreszenzmarkierung durch Tetrazin-Farbstoffe erm{\"o}glicht. Die direkte chemische Kopplung von TCO an Liganden wie Phalloidin und Docetaxel, welche spezifisch das Aktin-Zytoskelett bzw. Mikrotubuli-Filamente binden k{\"o}nnen, erm{\"o}glichte zudem die Click-F{\"a}rbungen von fixierten und lebenden Zellen ohne genetische Ver-{\"a}nderungen der Zielproteine. Des Weiteren wurden die spektroskopischen Eigenschaften von 22 Tetrazin-Farbstoffen, verteilt {\"u}ber den gesamten sichtbaren Wellenl{\"a}ngenbereich, untersucht. Ein charakteristisches Kennzeichen der Click-Reaktion mit Tet-razin-Farbstoffen ist dabei ihre Fluorogenit{\"a}t. Das Tetrazin fungiert nicht nur als reaktive Gruppe w{\"a}hrend der Click-Reaktion mit Alkenen, sondern f{\"u}hrt in vielen Tetrazin-Farbstoff-Konjugaten zur Fluoreszenzl{\"o}schung. W{\"a}hrend bei gr{\"u}n-absorbierenden Farbstoffe vor allem FRET-basierte L{\"o}schprozesse dominieren, konnte photoinduzierter Elektronentransfer (PET) vom angeregten Farbstoff zum Tetrazin als Hauptl{\"o}schmechanismus bei rot-absorbierenden Oxazin- und Rhodamin-Derivaten identifiziert werden. Die effiziente und spezifische Markierung aller untersuchten Tetrazin- Farbstoffe erm{\"o}glichte die Visualisierung von Aktin-Filamenten, Mikrotubuli und Membranrezeptoren sowohl durch konventionelle Fluoreszenzmikrosko-pie als auch durch hochaufl{\"o}sende Verfahren, wie z.B. dSTORM, auf Ein-zelmolek{\"u}lebene. Die unterschiedliche Zellpermeabilit{\"a}t von Tetrazin-Farbstoffen kann dabei vorteilhaft f{\"u}r die spezifische intra- und extrazellul{\"a}re Markierung von Proteinen in fixierten und lebenden Zellen genutzt werden.}, subject = {Hochaufgel{\"o}ste Fluoreszenzmikroskopie}, language = {de} } @phdthesis{Becker2020, author = {Becker, Mira Caroline}, title = {Principles of olfactory-visual integration to form a common percept in honeybees}, doi = {10.25972/OPUS-19919}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199190}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {The honeybee is a well studied and important organism in neuroethology. The possibility to train them with a classical conditioning paradigm and their miniature brain provide a perfect requisite to investigate the neuronal principles of learning and memory. Honeybees use visual and olfactory cues to detect flowers during their foraging trips. Hence, the reward association of a nectar source is a multi-modal construct, which has at least two major components - olfactory and visual cues. It is still an open question, how both sensory components are converged in the mushroom body, which represent the multi-modal integration centre of the honeybee brain. The main goal of this study, is to investigate the processing of multiple modalities and how a reward association is formed. This includes, how and wether both sensory modalities interfere during learning. Thus, in this study stimulation with UV, blue and green light was used to evoke distinct photoreceptor activities in the compound eye. Furthermore, three different odours (Geraniol, Citronellol and Farnesol) were used. These stimuli were tested in three different experimental series. The first experiment involved classical differential conditioning of the single modalities - odour and colour. Honeybees showed high learning performances in differentiating olfactory stimuli and also reliable responses for visual conditioning. Furthermore, a temporal discrepancy in the stimulus length for best learning in the olfatcoty and visual cues was found. In the second series, it was tested how multi-modal compounds are perceived. This includes, unique cues (configural processing) or the sum of the single components of a compound (elemen- tal processing). This was tested by combining single odour components with monochromatic light in a positive (PP) and negative patterning (NP) experiment. During PP, the olfactory- visual compound was rewarded, whereas the single components were unrewarded. In contrast, during NP the single components were reinforced, but the compound was not. In addition, the ability to distinguish between two different light stimuli presented as a part of an olfactory-visual compound with the same odour component during acquisition was tested. In a memory test, the light stimuli were presented again as a compound and in addition as the single components. The results revealed that bees used elemental processing with compounds containing green and blue light. In contrast, when UV light was presented the bees used configural processing. Finally, a third experiment was conducted at the neuronal level. Multi-unit recordings were established to provide a suitable method to analyse extrinsic neurons at the mushroom body output region, the so called ventral lobe of the pedunculus. Here, three different odours (Geran- iol, Farnesol and Citronellol), two colours (green and blue) and two combined stimuli (colour + odour) were chosen as stimuli, to search for possible variations in processing stimuli with different modalities. Two units could be detected that responded mainly to visual stimuli.}, language = {en} } @phdthesis{Lu2020, author = {Lu, Yunzhi}, title = {Kinetics of mouse and human muscle type nicotinic receptor channels}, doi = {10.25972/OPUS-19268}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192688}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {Acetylcholine (ACh) mediates transmission at vertebrate neuromuscular junctions and many other synapses. The postsynaptic ACh receptors at neuromuscular junctions are of the nicotinic subtype (nAChRs). They are among the best studied receptor channels and often serve as models or receptor prototypes. Despite a wealth of information on muscle type nAChRs so far little is known about species specific functional differences. In this work, mouse and human adult muscle type nAChRs are investigated. Cell attached recordings in the HEK293T heterologous expression system provided evidence that the ACh affinity of recombinant mouse and human adult muscle type nAChRs are different. To clarify this, I compared these receptors in outside-out patches employing a system for fast agonist application. Thus, the individual membrane patches with receptors can be exposed to various ligand concentrations. In response to 10 and 30 µM ACh normalized peak currents ({\^i}) were significantly larger and current rise-time (tr) shorter in human than in mouse receptors. Analyzing dose-response curves of {\^i} and tr and fitting them with a two-step equivalent binding-site kinetic mechanism revealed a two-fold higher ACh association rate constant in human compared to mouse receptors. Furthermore, human nAChRs were blocked faster in outside-out patches by superfusion of 300 nM α-Bungarotoxin (α-Bgtx) than mouse nAChRs. Finally, human nAChRs in outside-out patches showed higher affinity at 3 µM ACh than chimeric receptors consisting of mouse α- and human β-, γ- and ε-subunits. The higher affinity of human than mouse receptors for ACh and α-Bgtx is thus at least in part due to sequence difference in their α-subunits.}, subject = {Nicotinischer Acetylcholinrezeptor}, language = {en} } @phdthesis{Neubert2019, author = {Neubert, Franziska}, title = {Markierung postsynaptischer Proteine f{\"u}r die hochaufl{\"o}sende Fluoreszenzmikroskopie}, doi = {10.25972/OPUS-19239}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192394}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Das menschliche Gehirn ist ein Organ, das aufgrund seiner Komplexit{\"a}t und zellul{\"a}ren Diversit{\"a}t noch am wenigsten verstanden ist. Eine der Ursachen daf{\"u}r sind zahlreiche Herausforderungen in diversen neurobiologischen Bild-gebungsverfahren. Erst seit der Erfindung der hochaufl{\"o}senden Fluoreszenz-mikroskopie ist es m{\"o}glich, Strukturen unterhalb der Beugungsgrenze zu visua-lisieren und somit eine maximale Aufl{\"o}sung von bis zu 20 nm zu erreichen. Zus{\"a}tzlich h{\"a}ngt die F{\"a}higkeit, biologische Strukturen aufzul{\"o}sen, von der Markierungs-gr{\"o}ße und -dichte ab. Derzeit ist die h{\"a}ufigste Methode zur Proteinf{\"a}rbung die indirekte Antik{\"o}rperf{\"a}rbung, bei der ein Fluorophor-markierter Sekund{\"a}rantik{\"o}rper an einen Epitop-spezifischen Prim{\"a}rantik{\"o}rper bindet. Dabei kann der Abstand von Zielstruktur und Fluorophor bis zu 30 nm betragen, was eine Aufl{\"o}sungs-verminderung zur Folge haben kann. Aufgrund dessen wurden in dieser Arbeit alternative Markierungsmethoden getestet, um postsynaptische Proteine sicht-bar zu machen. Zun{\"a}chst wurde der postsynaptische N-Methyl-D-Aspartat (NMDA)-Rezeptor mit Hilfe konventioneller indirekter Antik{\"o}rperf{\"a}rbung markiert. Hier war die NR1-Untereinheit des NMDA-Rezeptors von besonderem Interesse, da diese in der Autoimmunerkrankung Anti-NMDA-Rezeptor-Enzephalitis invol-viert ist. Patienten dieser seltenen Krankheit bilden Autoantik{\"o}rper gegen die NR1-Untereinheit, wodurch ein schneller reversibler Verlust der NMDA-Rezeptoren auf der Postsynapse induziert wird. Wichtige Informationen k{\"o}nnen nicht mehr ausreichend weitergegeben werden, was psychiatrische und neurologi-sche St{\"o}rungen zur Folge hat. In dieser Arbeit wurden sowohl kommerzielle NR1-Antik{\"o}rper, als auch rekombinante monoklonale NR1-Antik{\"o}rper von Patien-ten mit Anti-NMDA-Rezeptor-Enzephalitis getestet. In konfokalen und in hochaufgel{\"o}sten SIM- (engl. structured illumination microscopy) und dSTORM- (engl. direct stochastic optical reconstruction microscopy) Messun-gen konnten kommerzielle NR1-Antik{\"o}rper keine erfolgreichen F{\"a}rbungen erzielen. Dagegen erwiesen sich die rekombinanten monoklonalen NR1-Patientenantik{\"o}rper als sehr spezifisch, sowohl in prim{\"a}ren Neuronen als auch im Hippocampus von murinen Gehirnschnitten und lieferten gute Kolokalisati-onen mit dem postsynaptischen Markerprotein Homer. Um die optische Aufl{\"o}sung zu verbessern, wurde eine neue Markierungs-methode mit sog. „Super-Binde-Peptiden" (SBPs) getestet. SBPs sind modifi-zierte Peptide, die erh{\"o}hte Affinit{\"a}ten und Spezifit{\"a}ten aufweisen und mit ei-ner Gr{\"o}ße von ~ 2,5 nm wesentlich kleiner als Antik{\"o}rper sind. In dieser Arbeit best{\"a}tigte sich ein kleines hochspezifisches SPB, das an den Fluoreszenzfarb-stoff Tetra- methylrhodamin (TMR) gekoppelt ist, als effektiver Marker f{\"u}r das Ankerpro-tein Gephyrin. Gephyrin ist f{\"u}r die Lokalisation und Verankerung einiger post-synaptischer Rezeptoren zust{\"a}ndig, indem es sie mit dem Cytoskelett der Zelle verbindet. SIM-Messungen in prim{\"a}ren Neuronen zeigten eine bessere Clus-terrepr{\"a}sentation bei der F{\"a}rbung von Gephyrin mit SBPs, als mit Antik{\"o}rper-f{\"a}rbung. Zus{\"a}tzlich wurden Kolokalisationsanalysen von Gephyrin zusammen mit dem inhibito-rischen pr{\"a}synaptischen vesikul{\"a}ren GABA-Transporter VGAT durchgef{\"u}hrt. Eine weitere F{\"a}rbemethode stellte die bioorthogonale Click-F{\"a}rbung durch die Erweiterung des eukaryotischen genetischen Codes (engl. genetic code ex-pansion, GCE) dar. Dabei wurde eine unnat{\"u}rliche, nicht-kanonische Amino-s{\"a}ure (engl. non-canonical amino acid, ncAA) ins Zielprotein eingebaut und in Kombination mit der Click-Chemie ortsspezifisch mit organischen Tetrazin-Farbstoff-Konjugaten angef{\"a}rbt. Organische Fluorophore haben den Vorteil, dass sie mit einer Gr{\"o}ße von 0,5 - 2 nm sehr klein sind und damit die nat{\"u}rli-chen Funktionen der Proteine in der Zelle kaum beeinflussen. In dieser Arbeit wurde zum ersten Mal gezeigt, dass der tetramere postsynaptische NMDA-Rezeptor durch die Amber-Supres-sionsmethode bioorthogonal angef{\"a}rbt werden konnte. Aus sieben verschiede-nen Amber-Mutanten der NR1-Untereinheit stellte sich die Y392TAG-NR1-Mutante als diejenige mit der besten Proteinexpression, F{\"a}rbeeffizienz und rezeptorfunktionalit{\"a}t heraus. Dies konnte durch Fluoreszenzmikroskopie- und Whole-Cell Patch-Clamp-Experimenten gezeigt werden. Die bioorthogo-nale Click-F{\"a}rbung durch GCE eignete sich f{\"u}r die F{\"a}rbung des NMDA-Rezeptors in verschiedenen Zelllinien, mit unterschiedlichen Tetrazin-Farbstoff-Konjugaten und f{\"u}r Lebendzellexperimente. In dSTORM-Messungen erwies sich das Tetrazin-Cy5-Farbstoff-Konjugat als ideal aufgrund seiner Gr{\"o}-ße, Photostabilit{\"a}t, Helligkeit und seines geeigneten Blinkverhaltens, sodass eine homogene NMDA-Rezeptorverteilung auf der Zellmembran gezeigt wer-den konnte. NR1-Antik{\"o}rperf{\"a}rbungen wiesen dagegen starke Clusterbildun-gen auf. Die Ergebnisse konnten belegen, dass kleinere Farbstoffe eine deut-lich bessere Zug{\"a}nglichkeit zu ihrem Zielprotein haben und somit besser f{\"u}r die hochaufl{\"o}sende Fluoreszenzmikroskopie geeignet sind.}, subject = {hochaufl{\"o}sende Fluoreszenzmikroskopie}, language = {de} } @phdthesis{Griffoni2019, author = {Griffoni, Chiara}, title = {Towards advanced immunocompetent skin wound models for in vitro drug evaluation}, doi = {10.25972/OPUS-19212}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192125}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Current preclinical models used to evaluate novel therapies for improved healing include both in vitro and in vivo methods. However, ethical concerns related to the use of animals as well as the poor physiological translation between animal and human skin wound healing designate in vitro models as a highly relevant and promising platforms for healing investigation. While current in vitro 3D skin models recapitulate a mature tissue with healing properties, they still represent a simplification of the in vivo conditions, where for example the inflammatory response originating after wound formation involves the contribution of immune cells. Macrophages are among the main contributors to the inflammatory response and regulate its course thanks to their plasticity. Therefore, their implementation into in vitro skin could greatly increase the physiological relevance of the models. As no full-thickness immunocompetent skin model containing macrophages has been reported so far, the parameters necessary for a successful triple co-culture of fibroblasts, keratinocytes and macrophages were here investigated. At first, cell source and culture timed but also an implementation strategy for macrophages were deter-mined. The implementation of macrophages into the skin model focused on the minimization of the culture time to preserve immune cell viability and phenotype, as the environment has a major influence on cell polarization and cytokine production. To this end, incorporation of macrophages in 3D gels prior to the combination with skin models was selected to better mimic the in vivo environment. Em-bedded in collagen hydrogels, macrophages displayed a homogeneous cell distribution within the gel, preserving cell viability, their ability to respond to stimuli and their capability to migrate through the matrix, which are all needed during the involvement of macrophages in the inflammatory response. Once established how to introduce macrophages into skin models, different culture media were evaluated for their effects on primary fibroblasts, keratinocytes and macrophages, to identify a suitable medium composition for the culture of immunocompetent skin. The present work confirmed that each cell type requires a different supplement combination for maintaining functional features and showed for the first time that media that promote and maintain a mature skin structure have negative effects on primary macrophages. Skin differentiation media negatively affected macrophages in terms of viability, morphology, ability to respond to pro- and anti-inflammatory stimuli and to migrate through a collagen gel. The combination of wounded skin equivalents and macrophage-containing gels con-firmed that culture medium inhibits macrophage participation in the inflammatory response that oc-curs after wounding. The described macrophage inclusion method for immunocompetent skin creation is a promising approach for generating more relevant skin models. Further optimization of the co-cul-ture medium will potentially allow mimicking a physiological inflammatory response, enabling to eval-uate the effects novel drugs designed for improved healing on improved in vitro models.}, subject = {Haut}, language = {en} } @phdthesis{Njovu2019, author = {Njovu, Henry Kenneth}, title = {Patterns and drivers of herbivore diversity and invertebrate herbivory along elevational and land use gradients at Mt. Kilimanjaro, Tanzania}, doi = {10.25972/OPUS-17254}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-172544}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {This thesis elucidates patterns and drivers of invertebrate herbivory, herbivore diversity, and community-level biomass along elevational and land use gradients at Mt. Kilimanjaro, Tanzania. Chapter I provides background information on the response and predictor variables, study system, and the study design. First, I give an overview of the elevational patterns of species diversity/richness and herbivory published in the literature. The overview illuminates existing debates on elevational patterns of species diversity/richness and herbivory. In connection to these patterns, I also introduce several hypotheses and mechanisms put forward to explain macroecological patterns of species richness. Furthermore, I explain the main variables used to test hypotheses. Finally, I describe the study system and the study design used. Chapter II explores the patterns of invertebrate herbivory and their underlying drivers along extensive elevational and land use gradients on the southern slopes of Mt. Kilimanjaro. I recorded standing leaf herbivory from leaf chewers, leaf miners and gall-inducing insects on 55 study sites located in natural and anthropogenic habitats distributed from 866 to 3060 meters above sea level (m asl) on Mt. Kilimanjaro. Standing leaf herbivory was related to climatic variables [mean annual temperature - (MAT) and mean annual precipitation - (MAP)], net primary productivity (NPP) and plant functional traits (leaf traits) [specific leaf area (SLA), carbon to nitrogen ratio (CN), and nitrogen to phosphorous ratio (NP)]. Results revealed an unimodal pattern of total leaf herbivory along the elevation gradient in natural habitats. Findings also revealed differences in the levels and patterns of herbivory among feeding guilds and between anthropogenic and natural habitats. Changes in NP and CN ratios which were closely linked to NPP were the strongest predictors of leaf herbivory. Our study uncovers the role of leaf nutrient stoichiometry and its linkages to climate in explaining the variation in leaf herbivory along climatic gradients. Chapter III presents patterns and unravels direct and indirect effects of resource (food) abundance (NPP), resource (food) diversity [Functional Dispersion (FDis)], resource quality (SLA, NP, and CN rations), and climate variables (MAT and MAP) on species diversity of phytophagous beetles. Data were collected from 65 study sites located in natural and anthropogenic habitats distributed from 866 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Sweep net and beating methods were used to collect a total of 3,186 phytophagous beetles representing 21 families and 304 morphospecies. Two groups, weevils (Curculionidae) and leaf beetles (Chrysomelidae) were the largest and most diverse families represented with 898 and 1566 individuals, respectively. Results revealed complex (bimodal) and dissimilar patterns of Chao1-estimated species richness (hereafter referred to as species diversity) along elevation and land use gradients. Results from path analysis showed that temperature and climate-mediated changes in NPP had a significant positive direct and indirect effect on species diversity of phytophagous beetles, respectively. The results also revealed that the effect of NPP (via beetles abundance and diversity of food resources) on species diversity is stronger than that of temperature. Since we found that factors affecting species diversity were intimately linked to climate, I concluded that predicted climatic changes over the coming decades will likely alter the species diversity patterns which we observe today. Chapter IV presents patterns and unravels the direct and indirect effects of climate, NPP and anthropogenic disturbances on species richness and community-level biomass of wild large mammals which represent endothermic organisms and the most important group of vertebrate herbivores. Data were collected from 66 study sites located in natural and anthropogenic habitats distributed from 870 to 4550 m asl on the southern slopes of Mt. Kilimanjaro. Mammals were collected using camera traps and used path analysis to disentangle the direct and indirect effects of climatic variables, NPP, land use, land area, levels of habitat protection and occurrence of domesticated mammals on the patterns of richness and community-level biomass of wild mammals, respectively. Results showed unimodal patterns for species richness and community-level biomass of wild mammals along elevation gradients and that the patterns differed depending on the type of feeding guild. Findings from path analysis showed that net primary productivity and levels of habitat protection had a strong direct effect on species richness and community-level biomass of wild mammals whereas temperature had an insignificant direct effect. Findings show the importance of climate-mediated food resources in determining patterns of species richness of large mammals. While temperature is among key predictors of species richness in several ectotherms, its direct influence in determining species richness of wild mammals was insignificant. Findings show the sensitivity of wild mammals to anthropogenic influences and underscore the importance of protected areas in conserving biodiversity. In conclusion, despite a multitude of data sets on species diversity and ecosystem functions along broad climatic gradients, there is little mechanistic understanding of the underlying causes. Findings obtained in the three studies illustrate their contribution to the scientific debates on the mechanisms underlying patterns of herbivory and diversity along elevation gradients. Results present strong evidence that plant functional traits play a key role in determining invertebrate herbivory and species diversity along elevation gradients and that, their strong interdependence with climate and anthropogenic activities will shape these patterns in future. Additionally, findings from path analysis demonstrated that herbivore diversity, community-level biomass, and herbivory are strongly influenced by climate (either directly or indirectly). Therefore, the predicted climatic changes are expected to dictate ecological patterns, biotic interactions, and energy and nutrient fluxes in terrestrial ecosystems in the coming decades with stronger impacts probably occurring in natural ecosystems. Furthermore, findings demonstrated the significance of land use effects in shaping ecological patterns. As anthropogenic pressure is advancing towards more pristine higher elevations, I advocate conservation measures which are responsive to and incorporate human dimensions to curb the situation. Although our findings emanate from observational studies which have to take several confounding factors into account, we have managed to demonstrate global change responses in real ecosystems and fully established organisms with a wide range of interactions which are unlikely to be captured in artificial experiments. Nonetheless, I recommend additional experimental studies addressing the effect of top-down control by natural enemies on herbivore diversity and invertebrate herbivory in order to deepen our understanding of the mechanisms driving macroecological patterns along elevation gradients.  }, subject = {Species richness}, language = {en} } @phdthesis{Franke2019, author = {Franke, Christian}, title = {Advancing Single-Molecule Localization Microscopy: Quantitative Analyses and Photometric Three-Dimensional Imaging}, doi = {10.25972/OPUS-15635}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-156355}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Since its first experimental implementation in 2005, single-molecule localization microscopy (SMLM) emerged as a versatile and powerful imaging tool for biological structures with nanometer resolution. By now, SMLM has compiled an extensive track-record of novel insights in sub- and inter- cellular organization.\\ Moreover, since all SMLM techniques rely on the analysis of emission patterns from isolated fluorophores, they inherently allocate molecular information \$per\$ \$definitionem\$.\\ Consequently, SMLM transitioned from its origin as pure high-resolution imaging instrument towards quantitative microscopy, where the key information medium is no longer the highly resolved image itself, but the raw localization data set.\\ The work presented in this thesis is part of the ongoing effort to translate those \$per\$ \$se\$ molecular information gained by SMLM imaging to insights into the structural organization of the targeted protein or even beyond. Although largely consistent in their objectives, the general distinction between global or segmentation clustering approaches on one side and particle averaging or meta-analyses techniques on the other is usually made.\\ During the course of my thesis, I designed, implemented and employed numerous quantitative approaches with varying degrees of complexity and fields of application.\\ \\ In my first major project, I analyzed the localization distribution of the integral protein gp210 of the nuclear pore complex (NPC) with an iterative \textit{k}-means algorithm. Relating the distinct localization statistics of separated gp210 domains to isolated fluorescent signals led, among others, to the conclusion that the anchoring ring of the NPC consists of 8 homo-dimers of gp210.\\ This is of particular significance, both because it answered a decades long standing question about the nature of the gp210 ring and it showcased the possibility to gain structural information well beyond the resolution capabilities of SMLM by crafty quantification approaches.\\ \\ The second major project reported comprises an extensive study of the synaptonemal complex (SNC) and linked cohesin complexes. Here, I employed a multi-level meta-analysis of the localization sets of various SNC proteins to facilitate the compilation of a novel model of the molecular organization of the major SNC components with so far unmatched extend and detail with isotropic three-dimensional resolution.\\ In a second venture, the two murine cohesin components SMC3 and STAG3 connected to the SNC were analyzed. Applying an adapted algorithm, considering the disperse nature of cohesins, led to the realization that there is an apparent polarization of those cohesin complexes in the SNC, as well as a possible sub-structure of STAG3 beyond the resolution capabilities of SMLM.\\ \\ Other minor projects connected to localization quantification included the study of plasma membrane glycans regarding their overall localization distribution and particular homogeneity as well as the investigation of two flotillin proteins in the membrane of bacteria, forming clusters of distinct shapes and sizes.\\ \\ Finally, a novel approach to three-dimensional SMLM is presented, employing the precise quantification of single molecule emitter intensities. This method, named TRABI, relies on the principles of aperture photometry which were improved for SMLM.\\ With TRABI it was shown, that widely used Gaussian fitting based localization software underestimates photon counts significantly. This mismatch was utilized as a \$z\$-dependent parameter, enabling the conversion of 2D SMLM data to a virtual 3D space. Furthermore it was demonstrated, that TRABI can be combined beneficially with a multi-plane detection scheme, resulting in superior performance regarding axial localization precision and resolution.\\ Additionally, TRABI has been subsequently employed to photometrically characterize a novel dye for SMLM, revealing superior photo-physical properties at the single-molecule level.\\ Following the conclusion of this thesis, the TRABI method and its applications remains subject of diverse ongoing research.}, subject = {Einzelmolek{\"u}lmikroskopie}, language = {en} } @phdthesis{KaltdorfgebSchuch2019, author = {Kaltdorf [geb. Schuch], Kristin Verena}, title = {Mikroskopie, Bildverarbeitung und Automatisierung der Analyse von Vesikeln in \(C.\) \(elegans\) und anderen biologischen Strukturen}, doi = {10.25972/OPUS-16062}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-160621}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Thema dieser Thesis ist die Analyse sekretorischer Vesikelpools auf Ultrastrukturebene in unterschiedlichen biologischen Systemen. Der erste und zweite Teil dieser Arbeit fokussiert sich auf die Analyse synaptischer Vesikelpools in neuromuskul{\"a}ren Endplatten (NME) im Modellorganismus Caenorhabditis elegans. Dazu wurde Hochdruckgefrierung und Gefriersubstitution angewandt, um eine unverz{\"u}gliche Immobilisation der Nematoden und somit eine Fixierung im nahezu nativen Zustand zu gew{\"a}hrleisten. Anschließend wurden dreidimensionale Aufnahmen der NME mittels Elektronentomographie erstellt. Im ersten Teil dieser Arbeit wurden junge adulte, wildtypische C. elegans Hermaphroditen mit Septin-Mutanten verglichen. Um eine umfassende Analyse mit hoher Stichprobenzahl zu erm{\"o}glichen und eine automatisierte L{\"o}sung f{\"u}r {\"a}hnliche Untersuchungen von Vesikelpools bereit zu stellen wurde eine Software namens 3D ART VeSElecT zur automatisierten Vesikelpoolanalyse entwickelt. Die Software besteht aus zwei Makros f{\"u}r ImageJ, eines f{\"u}r die Registrierung der Vesikel und eines zur Charakterisierung. Diese Trennung in zwei separate Schritte erm{\"o}glicht einen manuellen Verbesserungsschritt zum Entfernen falsch positiver Vesikel. Durch einen Vergleich mit manuell ausgewerteten Daten neuromuskul{\"a}rer Endplatten von larvalen Stadien des Modellorganismus Zebrafisch (Danio rerio) konnte erfolgreich die Funktionalit{\"a}t der Software bewiesen werden. Die Analyse der neuromuskul{\"a}ren Endplatten in C. elegans ergab kleinere synaptische Vesikel und dichtere Vesikelpools in den Septin-Mutanten verglichen mit Wildtypen. Im zweiten Teil der Arbeit wurden neuromuskul{\"a}rer Endplatten junger adulter C. elegans Hermaphroditen mit Dauerlarven verglichen. Das Dauerlarvenstadium ist ein spezielles Stadium, welches durch widrige Umweltbedingungen induziert wird und in dem C. elegans {\"u}ber mehrere Monate ohne Nahrungsaufnahme {\"u}berleben kann. Da hier der Vergleich der Abundanz zweier Vesikelarten, der „clear-core"-Vesikel (CCV) und der „dense-core"-Vesikel (DCV), im Fokus stand wurde eine Erweiterung von 3D ART VeSElecT entwickelt, die einen „Machine-Learning"-Algorithmus zur automatisierten Klassifikation der Vesikel integriert. Durch die Analyse konnten kleinere Vesikel, eine erh{\"o}hte Anzahl von „dense-core"-Vesikeln, sowie eine ver{\"a}nderte Lokalisation der DCV in Dauerlarven festgestellt werden. Im dritten Teil dieser Arbeit wurde untersucht ob die f{\"u}r synaptische Vesikelpools konzipierte Software auch zur Analyse sekretorischer Vesikel in Thrombozyten geeignet ist. Dazu wurden zweidimensionale und dreidimensionale Aufnahmen am Transmissionselektronenmikroskop erstellt und verglichen. Die Untersuchung ergab, dass hierf{\"u}r eine neue Methodik entwickelt werden muss, die zwar auf den vorherigen Arbeiten prinzipiell aufbauen kann, aber den besonderen Herausforderungen der Bilderkennung sekretorischer Vesikel aus Thrombozyten gerecht werden muss.}, subject = {Mikroskopie}, language = {de} } @phdthesis{Pahlavan2019, author = {Pahlavan, Pirasteh}, title = {Integrated Systems Biology Analysis; Exemplified on Potyvirus and Geminivirus interaction with \(Nicotiana\) \(benthamiana\)}, doi = {10.25972/OPUS-15341}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-153412}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Viral infections induce a significant impact on various functional categories of biological processes in the host. The understanding of this complex modification of the infected host immune system requires a global and detailed overview on the infection process. Therefore it is essential to apply a powerful approach which identifies the involved components conferring the capacity to recognize and respond to specific pathogens, which in general are defeated in so-called compatible virus-plant infections. Comparative and integrated systems biology of plant-virus interaction progression may open a novel framework for a systemic picture on the modulation of plant immunity during different infections and understanding pathogenesis mechanisms. In this thesis these approaches were applied to study plant-virus infections during two main viral pathogens of cassava: Cassava brown streak virus and African cassava mosaic virus. Here, the infection process was reconstructed by a combination of omics data-based analyses and metabolic network modelling, to understand the major metabolic pathways and elements underlying viral infection responses in different time series, as well as the flux activity distribution to gain more insights into the metabolic flow and mechanism of regulation; this resulted in simultaneous investigations on a broad spectrum of changes in several levels including the gene expression, primary metabolites, and enzymatic flux associated with the characteristic disease development process induced in Nicotiana benthamiana plants due to infection with CBSV or ACMV. Firstly, the transcriptome dynamics of the infected plant was analysed by using mRNA-sequencing, in order to investigate the differential expression profile according the symptom developmental stage. The spreading pattern and different levels of biological functions of these genes were analysed associated with the infection stage and virus entity. A next step was the Real-Time expression modification of selected key pathway genes followed by their linear regression model. Subsequently, the functional loss of regulatory genes which trigger R-mediated resistance was observed. Substantial differences were observed between infected mutants/transgenic lines and wild-types and characterized in detail. In addition, we detected a massive localized accumulation of ROS and quantified the scavenging genes expression in the infected wild-type plants relative to mock infected controls. Moreover, we found coordinated regulated metabolites in response to viral infection measured by using LC-MS/MS and HPLC-UV-MS. This includes the profile of the phytohormones, carbohydrates, amino acids, and phenolics at different time points of infection with the RNA and DNA viruses. This was influenced by differentially regulated enzymatic activities along the salicylate, jasmonate, and chorismate biosynthesis, glycolysis, tricarboxylic acid cycle, and pentose phosphate pathways, as well as photosynthesis, photorespiration, transporting, amino acid and fatty acid biosynthesis. We calculated the flux redistribution considering a gradient of modulation for enzymes along different infection stages, ranging from pre-symptoms towards infection stability. Collectively, our reverse-engineering study consisting of the generation of experimental data and modelling supports the general insight with comparative and integrated systems biology into a model plant-virus interaction system. We refine the cross talk between transcriptome modification, metabolites modulation and enzymatic flux redistribution during compatible infection progression. The results highlight the global alteration in a susceptible host, correlation between symptoms severity and the alteration level. In addition we identify the detailed corresponding general and specific responses to RNA and DNA viruses at different stages of infection. To sum up, all the findings in this study strengthen the necessity of considering the timing of treatment, which greatly affects plant defence against viral infection, and might result in more efficient or combined targeting of a wider range of plant pathogens.}, language = {en} } @phdthesis{Romanov2019, author = {Romanov, Natalie}, title = {Characterizing Variation of Protein Complexes and Functional Modules on a Temporal Scale and across Individuals}, doi = {10.25972/OPUS-16813}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168139}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {A fundamental question in current biology concerns the translational mechanisms leading from genetic variability to phenotypes. Technologies have evolved to the extent that they can efficiently and economically determine an individual's genomic composition, while at the same time big data on clinical profiles and diagnostics have substantially accumulated. Genome-wide association studies linking genomic loci to certain traits, however, remain limited in their capacity to explain the cellular mechanisms that underlie the given association. For most associations, gene expression has been blamed; yet given that transcript and protein abundance oftentimes do not correlate, that finding does not necessarily decrypt the underlying mechanism. Thus, the integration of further information is crucial to establish a model that could prove more accurate in predicting genotypic effects on the human organism. In this work we describe the so-called proteotype as a feature of the cell that could provide a substantial link between genotype and phenotype. Rather than looking at the proteome as a set of independent molecules, we demonstrate a consistent modular architecture of the proteome that is driven by molecular cooperativity. Functional modules, especially protein complexes, can be further interrogated for differences between individuals and tackled as imprints of genetic and environmental variability. We also show that subtle stoichiometric changes of protein modules could have broader effects on the cellular system, such as the transport of specific molecular cargos. The presented work also delineates to what extent temporal events and processes influence the stoichiometry of protein complexes and functional modules. The re-wiring of the glycolytic pathway for example is illustrated as a potential cause for an increased Warburg effect during the ageing of the human bone marrow. On top of analyzing protein abundances we also interrogate proteome dynamics in terms of stability and solubility transitions during the short temporal progression of the cell cycle. One of our main observations in the thesis encompass the delineation of protein complexes into respective sub-complexes according to distinct stability patterns during the cell cycle. This has never been demonstrated before, and is functionally relevant for our understanding of the dis- and assembly of large protein modules. The insights presented in this work imply that the proteome is more than the sum of its parts, and primarily driven by variability in entire protein ensembles and their cooperative nature. Analyzing protein complexes and functional modules as molecular reflections of genetic and environmental variations could indeed prove to be a stepping stone in closing the gap between genotype and phenotype and customizing clinical treatments in the future.}, subject = {Proteotype}, language = {en} } @phdthesis{Dirks2019, author = {Dirks, Johannes}, title = {Charakterisierung der Wechselwirkung zwischen N-Myc und Aurora-A im MYCN-amplifizierten Neuroblastom}, doi = {10.25972/OPUS-18660}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-186600}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Im Neuroblastom ist die Amplifikation des MYCN-Gens, eines Mitglieds der MYC-Onkogenfamilie, mit einer ung{\"u}nstigen Prognose assoziiert. Der von dem Gen kodierte Transkriptionsfaktor N-Myc ist f{\"u}r die Proliferation der MYCN-amplifizierten Neuroblastomzelllinien notwendig und seine Depletion oder Destabilisierung f{\"u}hren zum Proliferationsarrest (Otto et al., 2009). Da N-Myc auf Proteinebene durch die Interaktion mit der mitotischen Kinase Aurora-A stabilisiert wird, bewirkt deren Depletion oder die Hemmung der Interaktion der beiden Proteine mittels spezieller Aurora- A-Inhibitoren (z.B. MLN8054 und MLN8237) ebenso eine Hemmung der Proliferation - in vitro und in vivo (Brockmann et al., 2013). Bisher ist jedoch unklar, {\"u}ber welchen Mechanismus Aurora-A die Stabilisierung von N-Myc erreicht, die Kinaseaktivit{\"a}t spielt hierbei jedoch keine Rolle (Otto et al., 2009). Eine M{\"o}glichkeit stellt die Rekrutierung von Usps dar, die das angeh{\"a}ngte Ubiquitinsignal so modifizieren, dass die Erkennung und der Abbau des Proteins durch das Proteasom verringert werden. In der vorliegenden Arbeit wurde die Wirkung von Usp7 und Usp11 auf die Stabilit{\"a}t von N-Myc untersucht. F{\"u}r beide konnte in Immunpr{\"a}zipitationen die Interaktion mit N-Myc gezeigt werden. Ebenso erh{\"o}hten beide Proteasen in {\"U}berexpressionsexperimenten die vorhandene Menge an NMyc. Die Depletion von Usp7 mittels shRNAs f{\"u}hrte in IMR-32 zu einem Arrest in der G1-Phase und zur Differenzierung der Zellen. Gleichzeitig wurden stark erniedrigte mRNA- und Proteinmengen von N-Myc und Aurora-A nachgewiesen. Es konnte jedoch nicht eindeutig gezeigt werden, ob die beobachteten zellul{\"a}ren Effekte durch eine vermehrte proteasomale Degradation von N-Myc begr{\"u}ndet sind oder ob dabei die ver{\"a}nderte Regulation weiterer Zielproteine von Usp7 eine Rolle spielt. Die Depletion von Usp11 mit shRNAs bewirkte eine Abnahme der N-Myc-Mengen auf posttranslationaler Ebene. Somit stellen beide Usps vielversprechende Angriffspunkte einer gezielten Therapie in MYCN-amplifizierten Neuroblastomen dar und sollten deshalb Gegenstand weiterf{\"u}hrender Untersuchungen sein. {\"U}ber welche Proteindom{\"a}ne in N-Myc die Interaktion mit Aurora-A stattfindet ist nicht bekannt. Eine m{\"o}gliche Pseudosubstratbindungssequenz in Myc-Box I (Idee Richard Bayliss, University of Leicester) wurde in der vorliegenden Arbeit untersucht. Durch Mutation dieser Sequenz sollte die Bindung von Aurora-A unm{\"o}glich gemacht werden. Allerdings wurde die erwartete Abnahme der St{\"a}rke der Interaktion von Aurora-A und N-Myc durch die Mutation ebensowenig beobachtet wie eine verringerte Stabilit{\"a}t. Die Regulation der Phosphorylierung von N-Myc im Verlauf des Zellzyklus wurde durch die Mutation beeintr{\"a}chtigt. Wie diese Ver{\"a}nderung exakt zu begr{\"u}nden ist bedarf weiterer Experimente}, subject = {Neuroblastom}, language = {de} } @phdthesis{Memmel2019, author = {Memmel, Simon}, title = {Automatisierte Algorithmen zur Analyse der Migration und der strahleninduzierten DNA-Sch{\"a}den humaner Glioblastomzellen nach kombinierter PI3K/mTOR/Hsp90-Inhibierung}, doi = {10.25972/OPUS-18571}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-185710}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Das hohe invasive Potential und die starke Resistenz gegen Radio-/Chemotherapie von Glioblastoma multiforme (GBM) Zellen machen sie zu dem t{\"o}dlichsten Tumor ihrer Art. Es ist deshalb von großem Interesse die Grundlagen, welche der Migrationsf{\"a}higkeit und DNA Reparatur zu Grunde liegen, besser zu verstehen. Im ersten Teil dieser Arbeit wurden zwei Algorithmen zur automatischen Analyse der Migration in der Einzelzellverfolgung und im Wundheilungsassay modifiziert. Die Auswertung der Daten konnte automatisch und somit schnell, effektiv und mit geringerem Arbeitsaufwand durchgef{\"u}hrt werden. Mit Hilfe dieser automatischen Algorithmen wurde die Migrationsf{\"a}higkeit von zwei GBM-Zelllinien (DK-MG und SNB19) untersucht. Zus{\"a}tzlich wurde die konfokale Laserscanning- sowie die hochaufl{\"o}sende dSTORM-Fluoreszenzmikroskopie verwendet um die, der Zellbewegung zu Grunde liegende, Struktur des F Aktin und der fokalen Adh{\"a}sionskinase (FAK) aufzul{\"o}sen und darzustellen. Unter Anwendung dieser genannten Methoden sind die Effekte des dualen PI3K/mTOR Inhibitors PI-103 alleine und in Kombination mit dem Hsp90 Inhibitor NVP AUY922 mit und ohne Bestrahlung auf die Bewegung untersucht worden. Es konnte festgestellt werden, dass sich beide Zelllinien deutlich in ihrem migratorischem Potential in vitro unterscheiden und zudem auch markante Unterschiede in ihrer Morphologie aufweisen. Die weniger invasiven DK MG-Zellen besitzen eine polarisierte Zellstruktur, wohingegen SNB19-Zellen sich durch multipolare ungerichtete Bewegung auszeichneten. Zudem wurde die Migration, durch PI3K/mTOR Inhibition mit PI-103 bei den DK-MG-Zellen (p53 wt, PTEN wt), sehr effektiv unterdr{\"u}ckt. Wohingegen sich die SNB19-Zellen (p53 mut, PTEN mut) resistent gegen diesen Inhibitor zeigten. Hsp90 Inhibition offenbarte in beiden Zelllinien einen starken inhibitorischen Effekt auf die Migration der Zellen sowie die Reorganisierung des F Aktinskelettes. In der zweiten H{\"a}lfte dieser Arbeit wurde ein Augenmerk auf die DNA-DSB-Reparatur der GBM Zellen nach ionisierender Strahlung gelegt. Zun{\"a}chst wurde eine automatische Analysesoftware „FocAn-3D" entwickelt, mit dessen Hilfe die DNA Doppelstrangbruchreparaturkinetik untersucht werden sollte. Diese Software erm{\"o}glicht es die gesamten Zellkerne mit ihren γH2AX-Foci in 3D-cLSM-Aufnahmen zu untersuchen. Es konnte somit eine Verbesserung der Genauigkeit in der Ausz{\"a}hlung der γH2AX-Foci erreicht werden, welche 2D beschr{\"a}nkter Software verwehrt bleibt. Mit FocAn-3D konnte der gesamte Verlauf der Induktions- und Abbauphase der γH2AX-Foci in DK MG- und SNB19-Zellen mit einem mathematischen Modell ausgewertet und dargestellt werden. Des Weiteren wurde die Nanometerstruktur von γH2AX- und pDNA-PKcs-Foci mittels hochaufl{\"o}sender dSTORM-Mikroskopie untersucht. Konventionelle Mikroskopiemethoden, begrenzt durch das Beugungslimit und einer Aufl{\"o}sung von ~200 nm, konnten die Nanometerstruktur (<100 nm) der Reparaturfoci bisher nicht darstellen. Mit Hilfe der beugungsunbegrenzten dSTORM-Mikroskopie war es m{\"o}glich in DK MG- und SNB19-Zellen die Nanometerstruktur genannten Reparaturproteine in den Foci mit einer Aufl{\"o}sung von bis zu ~20 nm darzustellen. γH2AX-Foci zeigten sich als eine Verteilung aus einzelnen Untereinheiten („Nanofoci") mit einem Durchmesser von ~45 nm. Dies l{\"a}sst die Vermutung zu, dass es sich hier um die elementare Substruktur der Foci und somit der γH2AX enthaltenen Nukleosome handelt. DNA-PK-Foci wiesen hingegen eine diffusere Verteilung auf. Die in dieser Arbeit ermittelten Unterschiede im Migrationsverhalten der Zellen rechtfertigen eine weitere pr{\"a}klinische Untersuchung der verwendeten Inhibitoren als potentielle Zelltherapeutika f{\"u}r die Behandlung von GBM. Zudem konnte sich dSTORM als machtvolles Hilfsmittel, sowohl zur Analyse der Migration zugrundeliegenden Zytoskelettstruktur und der Effekte der Hsp90 Inhibierung, als auch, der Nanostruktur der DNA-DSB-Reparaturfoci herausstellen. Es ist anzunehmen, dass beugungsunbegrenzte Mikroskopiemethoden sich als bedeutende Werkzeuge in der medizinischen und biologischen Erforschung der DNA-Reparaturmechanismen herausstellen werden. Das in dieser Arbeit entwickelte ImageJ Plugin „FocAn-3D" bewies sich ebenfalls als ein vielversprechendes Werkzeug f{\"u}r die Analyse der Reparaturkinetik. Mit Hilfe von „FocAn-3D" sollte es somit m{\"o}glich sein u.a. den Einfluss gezielter Inhibition auf den zeitlichen Verlauf der Induktion und des Abbaus der DNA-Reparaturmaschinerie genauer zu studieren.}, subject = {Glioblastom}, language = {de} } @phdthesis{Sauer2019, author = {Sauer, Mark}, title = {Die microRNA-26 Familie kontrolliert {\"u}ber den REST-Komplex ein f{\"u}r die Neurogenese essentielles regulatorisches RNA Netzwerk}, doi = {10.25972/OPUS-18400}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184008}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {In einem sich entwickelnden multizellul{\"a}ren Organismus ist die r{\"a}umlich-zeitliche Regulation der Genexpression von entscheidender Bedeutung f{\"u}r die Bildung, Identit{\"a}t und Funktion von Zellen. Der REST (repressor element silencing transcription factor) Komplex spielt bei der neuronalen Differenzierung und bei der Aufrechterhaltung des neuronalen Status eine essentielle Rolle, indem er in nicht neuronalen Zellen und neuralen Vorl{\"a}ufern die Expression neuronaler Gene unterdr{\"u}ckt, in deren Promotorregion eine RE1 (repressor element 1) Erkennungssequenz vorhanden ist. W{\"a}hrend der neuronalen Differenzierung wird der REST-Komplex schrittweise inaktiviert, was zur Einleitung eines neuronalen Genexpression-Programms f{\"u}hrt. Es wird daher angenommen, dass die Inhibierung des REST-Komplexes ein essentieller Vorgang der Neurogenese ist. Wichtige Bestandteile f{\"u}r die transkriptionell repressive Funktion des REST-Komplexes sind kleine Phosphatasen (CTDSP = C-terminal domain small phosphatases), welche die Polymerase-II-Aktivit{\"a}t an Zielgenen inhibieren. Im Zebrafisch wurde gezeigt, dass ctdsp2 durch die miR-26b negativ reguliert wird. Alle miR-26 Familienmitglieder sind in Vertebraten evolution{\"a}r konserviert und in Introns von Ctdsp Genen kodiert. Sie sind in der Lage, die Expression ihres eigenen Wirtsgens mittels einer autoregulatorischen R{\"u}ckkopplungsschleife zu regulieren. Im Rahmen dieser Dissertation wurde als Modellsystem f{\"u}r die Neurogenese ein neurales Differenzierungssystem, welches auf murinen, embryonalen Stammzellen (ESCs) aufbaut, eingesetzt. Zur funktionellen Analyse der miR-26 Familie wurden mit Hilfe der CRISPR/Cas9-Methode verschiedene miR-26 Knockout (KO) ESC-Linien hergestellt. Hierbei wurden die Sequenzen der einzelnen Familienmitglieder und der gesamten miR-26 Familie im Genom von Wildtyp (Wt) ESCs deletiert. Diese miR-26-defizienten ESCLinien behielten ihre Pluripotenz und zeigten keinen Ph{\"a}notyp hinsichtlich Proliferation, Morphologie und Identit{\"a}t der Zellen w{\"a}hrend der Differenzierung bis zum neuralen Vorl{\"a}uferzellstadium (NPCs, engl.: neural progenitor cells). Jedoch f{\"u}hrte die Deletion sowohl der gesamten miR-26 Familie als auch einzelner Mitglieder bei der terminalen Differenzierung zu einem spezifischen Entwicklungsstillstand im NPC Stadium und infolgedessen zu einer starken Reduktion der Anzahl von Neuronen und Astroglia. Die Transkriptom-Analyse der differenzierten miR-26-KO ESCs mittels RNA-Seq zeigte, dass die Expression von Genen die mit der Neurogenese und der neuronalen Differenzierung, aber auch der Gliogenese assoziert sind, herunterreguliert war. Die Abwesenheit der miR-26 Familie f{\"u}hrte außerdem zu einer selektiven Reduzierung bestimmter miRNAs (REST-miRs), die einerseits die Expression von REST-Komplex Komponenten unterdr{\"u}cken k{\"o}nnen, und andererseits selbst unter dessen transkriptioneller Kontrolle stehen. Zu diesem REST-miR Netzwerk geh{\"o}ren einige miRNAs (miR-9, miR-124, miR-132 und miR-218), die wichtige Funktionen bei verschiedenen Prozessen der neuronalen Entwicklung haben. Weiterhin f{\"u}hrte der miR-26-KO zu einer Derepression der Proteinlevel von REST und CTDSP2 w{\"a}hrend der terminalen Differenzierung. Funktionelle Analysen mit miRNA mimics zeigten, dass erh{\"o}hte miR-26 Level zu einer Hochregulation von REST-miRs f{\"u}hren. Weitere Experimente, die darauf zielten, die Hierarchie des REST-miR Netwerks aufzukl{\"a}ren zeigten, dass die miR-26 Familie stromaufw{\"a}rts die REST-miR Expression reguliert. Zusammengefasst weisen die in dieser Arbeit gezeigten Daten darauf hin, dass die miR-26 Familie als Initiator der schrittweisen Inaktivierung des REST-Komplexes eine zentrale Rolle bei der Differenzierung von neuralen Vorl{\"a}uferzellen zu postmitotischen Neuronen spielt.}, language = {de} } @phdthesis{Breitenbach2019, author = {Breitenbach, Tim}, title = {A mathematical optimal control based approach to pharmacological modulation with regulatory networks and external stimuli}, doi = {10.25972/OPUS-17436}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174368}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {In this work models for molecular networks consisting of ordinary differential equations are extended by terms that include the interaction of the corresponding molecular network with the environment that the molecular network is embedded in. These terms model the effects of the external stimuli on the molecular network. The usability of this extension is demonstrated with a model of a circadian clock that is extended with certain terms and reproduces data from several experiments at the same time. Once the model including external stimuli is set up, a framework is developed in order to calculate external stimuli that have a predefined desired effect on the molecular network. For this purpose the task of finding appropriate external stimuli is formulated as a mathematical optimal control problem for which in order to solve it a lot of mathematical methods are available. Several methods are discussed and worked out in order to calculate a solution for the corresponding optimal control problem. The application of the framework to find pharmacological intervention points or effective drug combinations is pointed out and discussed. Furthermore the framework is related to existing network analysis tools and their combination for network analysis in order to find dedicated external stimuli is discussed. The total framework is verified with biological examples by comparing the calculated results with data from literature. For this purpose platelet aggregation is investigated based on a corresponding gene regulatory network and associated receptors are detected. Furthermore a transition from one to another type of T-helper cell is analyzed in a tumor setting where missing agents are calculated to induce the corresponding switch in vitro. Next a gene regulatory network of a myocardiocyte is investigated where it is shown how the presented framework can be used to compare different treatment strategies with respect to their beneficial effects and side effects quantitatively. Moreover a constitutively activated signaling pathway, which thus causes maleficent effects, is modeled and intervention points with corresponding treatment strategies are determined that steer the gene regulatory network from a pathological expression pattern to physiological one again.}, subject = {Bioinformatik}, language = {en} } @phdthesis{Wilde2019, author = {Wilde, Sabrina}, title = {Einsatz von mechanistischen Biomarkern zur Charakterisierung und Bewertung von \(in\) \(vitro\) Genotoxinen}, doi = {10.25972/OPUS-18278}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-182782}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Die verf{\"u}gbaren in vitro Genotoxizit{\"a}tstests weisen hinsichtlich ihrer Spezifit{\"a}t und ihres Informationsgehalts zum vorliegenden Wirkmechanismus (Mode of Action, MoA) Einschr{\"a}nkungen auf. Um diese M{\"a}ngel zu {\"u}berwinden, wurden in dieser Arbeit zwei Ziele verfolgt, die zu der Entwicklung und Etablierung neuer in vitro Methoden zur Pr{\"u}fung auf Genotoxizit{\"a}t in der Arzneimittelentwicklung beitragen. 1. Etablierung und Bewertung einer neuen in vitro Genotoxizit{\"a}tsmethode (MultiFlow Methode) Die MultiFlow Methode basiert auf DNA-schadensassoziierten Proteinantworten von γH2AX (DNA-Doppelstrangbr{\"u}che), phosphorylierten H3 (S10) (mitotische Zellen), nukle{\"a}ren Protein p53 (Genotoxizit{\"a}t) und cleaved PARP1 (Apoptose) in TK6-Zellen. Insgesamt wurden 31 Modellsubstanzen mit dem MultiFlow Assay und erg{\"a}nzend mit dem etablierten Mikrokerntest (MicroFlow MNT), auf ihre F{\"a}higkeit verschiedene MoA-Gruppen (Aneugene/Klastogene/Nicht-Genotoxine) zu differenzieren, untersucht. Die Performance der „neuen" gegen{\"u}ber der „alten" Methode f{\"u}hrte zu einer verbesserten Sensitivit{\"a}t von 95\% gegen{\"u}ber 90\%, Spezifit{\"a}t von 90\% gegen{\"u}ber 72\% und einer MoA-Klassifizierungsrate von 85\% gegen{\"u}ber 45\% (Aneugen vs. Klastogen). 2. Identifizierung mechanistischer Biomarker zur Klassifizierung genotoxischer Substanzen Die Analyse 67 ausgew{\"a}hlter DNA-schadensassoziierter Gene in der QuantiGene Plex Methode zeigte, dass mehrere Gene gleichzeitig zur MoA-Klassifizierung beitragen k{\"o}nnen. Die Kombination der h{\"o}chstrangierten Marker BIK, KIF20A, TP53I3, DDB2 und OGG1 erm{\"o}glichte die beste Identifizierungsrate der Modellsubstanzen. Das synergetische Modell kategorisierte 16 von 16 Substanzen korrekt in Aneugene, Klastogene und Nicht-Genotoxine. Unter Verwendung der Leave-One-Out-Kreuzvalidierung wurde das Modell evaluiert und erreichte eine Sensitivit{\"a}t, Spezifit{\"a}t und Pr{\"a}diktivit{\"a}t von 86\%, 83\% und 85\%. Ergebnisse der traditionellen qPCR Methode zeigten, dass Genotoxizit{\"a}t mit TP53I3, Klastogenit{\"a}t mit ATR und RAD17 und oxidativer Stress mit NFE2L2 detektiert werden kann. Durch die Untersuchungen von posttranslationalen Modifikationen unter Verwendung der High-Content-Imaging-Technologie wurden mechanistische Assoziationen f{\"u}r BubR1 (S670) und pH3 (S28) mit Aneugenit{\"a}t, 53BP1 (S1778) und FANCD2 (S1404) mit Klastogenit{\"a}t, p53 (K373) mit Genotoxizit{\"a}t und Nrf2 (S40) mit oxidativem Stress identifiziert. Diese Arbeit zeigt, dass (Geno)toxine unterschiedliche Gen- und Proteinver{\"a}nderungen in TK6-Zellen induzieren, die zur Erfassung mechanistischer Aktivit{\"a}ten und Einteilung (geno)toxischer MoA-Gruppen (Aneugen/Klastogen/ Reaktive Sauerstoffspezies) eingesetzt werden k{\"o}nnen und daher eine bessere Risikobewertung von Wirkstoffkandidaten erm{\"o}glichen.}, subject = {Genotoxizit{\"a}t}, language = {de} } @phdthesis{DiegmanngebWeissbach2019, author = {Diegmann [geb. Weißbach], Susann}, title = {Identifizierung des Mutationsspektrums und Charakterisierung relevanter Mutationen im Multiplen Myelom}, doi = {10.25972/OPUS-11480}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-114800}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Das Multiple Myelom (MM) ist eine maligne B-Zell-Erkrankung, welche von einer großen Heterogenit{\"a}t auf der biologischen und klinischen Ebene sowie in der Therapieantwort gepr{\"a}gt ist. Durch die biologische Interpretation von whole exome sequencing (WES)-Daten der Tumor- und Normalproben von f{\"u}nf MM-Patienten und sechs MM-Zelllinien (ZL) sowie dem Einbezug von publizierten next generation sequencing (NGS)-Daten von 38 MM-Patienten konnten in dieser Dissertation sowohl somatische tumorrelevante Mutationen identifiziert als auch ein MM-spezifisches Signaltransduktionsnetzwerk definiert werden. Interessanterweise wurde in fast 100 \% der MM-Patienten mindestens eine Mutation und in ~50 \% der MM-Patienten sogar mehr als eine Mutation innerhalb dieses Netzwerkes beobachtet, was auf eine inter- und intra-individuelle Signalweg-Redundanz hinweist, die f{\"u}r die individuelle Therapieentscheidung m{\"o}glicherweise von Bedeutung sein k{\"o}nnte. Außerdem konnte best{\"a}tigt werden, dass identische, positionsspezifische und genspezifische Mutationen im MM selten wiederholt auftreten. Als h{\"a}ufig mutierte Gene im MM konnten KRAS, NRAS, LRP1B, FAM46C, WHSC1, ALOX12B, DIS3 und PKHD1 identifiziert werden. Interessanterweise wurde die DIS3-Mutation in der MM-ZL OPM2 gemeinsam mit einer copy neutral loss of heterozygosity (CNLOH) im DIS3-Lokus detektiert, und in der MM-ZL AMO1 wurde eine noch nicht n{\"a}her charakterisierte KRAS-Mutation in Exon 4 in Verbindung mit einem copy number (CN)-Zugewinn und einer erh{\"o}hten KRAS-Genexpression gefunden. DIS3 ist ein enzymatisch aktiver Teil des humanen RNA-Exosom-Komplexes und KRAS ein zentrales Protein im RTK-Signalweg, wodurch genetische Aberrationen in diesen Genen m{\"o}glicherweise in der Entstehung oder Progression des MMs eine zentrale Rolle spielen. Daher wurde die gesamte coding sequence (CDS) der Gene DIS3 und KRAS an Tumorproben eines einheitlich behandelten Patientensets der DSMM-XI-Studie mit einem Amplikon-Tiefen-Sequenzierungsansatz untersucht. Das Patientenset bestand aus 81 MM-Patienten mit verf{\"u}gbaren zytogenetischen und klinischen Daten. Dies ergab Aufschluss {\"u}ber die Verteilung der Mutationen innerhalb der Gene und dem Vorkommen der Mutationen in Haupt- und Nebenklonen des Tumors. Des Weiteren wurde die Assoziation der Mutationen mit weiteren klassischen zytogenetischen Alterationen (z.B. Deletion von Chr 13q14, t(4;14)-Translokation) untersucht und der Einfluss der Mutationen in Haupt- und Nebenklonen auf den klinischen Verlauf und die Therapieantwort bestimmt. Besonders hervorzuheben war dabei die Entdeckung von sieben neuen Mutationen sowie drei zuvor unbeschriebenen hot spot-Mutationen an den Aminos{\"a}ure (AS)-Positionen p.D488, p.E665 und p.R780 in DIS3. Es wurde des Weiteren die Assoziation von DIS3-Mutationen mit einer Chr 13q14-Deletion und mit IGH-Translokationen best{\"a}tigt. Interessanterweise wurde ein niedrigeres medianes overall survival (OS) f{\"u}r MM-Patienten mit einer DIS3-Mutation sowie auch eine schlechtere Therapieantwort f{\"u}r MM-Patienten mit einer DIS3-Mutation im Nebenklon im Vergleich zum Hauptklon beobachtet. In KRAS konnten die bereits publizierten Mutationen best{\"a}tigt und keine Auswirkungen der KRAS-Mutationen in Haupt- oder Nebenklon auf den klinischen Verlauf oder die Therapieantwort erkannt werden. Erste siRNA vermittelte knockdown-Experimente von KRAS und {\"U}berexpressionsexperimente von KRAS-Wildtyp (WT) und der KRAS-Mutationen p.G12A, p.A146T und p.A146V mittels lentiviraler Transfektion zeigten eine Abh{\"a}ngigkeit der Phosphorylierung von MEK1/2 und ERK1/2 von dem KRAS-Mutationsstatus. Zusammenfassend liefert die vorliegende Dissertation einen detaillierten Einblick in die molekularen Strukturen des MMs, vor allem im Hinblick auf die Rolle von DIS3 und KRAS bei der Tumorentwicklung und dem klinischen Verlauf.}, subject = {Plasmozytom}, language = {de} } @phdthesis{Kaymak2019, author = {Kaymak, Irem}, title = {Identification of metabolic liabilities in 3D models of cancer}, doi = {10.25972/OPUS-18154}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-181544}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Inefficient vascularisation of solid tumours leads to the formation of oxygen and nutrient gradients. In order to mimic this specific feature of the tumour microenvironment, a multicellular tumour spheroid (SPH) culture system was used. These experiments were implemented in p53 isogenic colon cancer cell lines (HCT116 p53 +/+ and HCT116 p53-/-) since Tp53 has important regulatory functions in tumour metabolism. First, the characteristics of the cells cultured as monolayers and as spheroids were investigated by using RNA sequencing and metabolomics to compare gene expression and metabolic features of cells grown in different conditions. This analysis showed that certain features of gene expression found in tumours are also present in spheroids but not in monolayer cultures, including reduced proliferation and induction of hypoxia related genes. Moreover, comparison between the different genotypes revealed that the expression of genes involved in cholesterol homeostasis is induced in p53 deficient cells compared to p53 wild type cells and this difference was only detected in spheroids and tumour samples but not in monolayer cultures. In addition, it was established that loss of p53 leads to the induction of enzymes of the mevalonate pathway via activation of the transcription factor SREBP2, resulting in a metabolic rewiring that supports the generation of ubiquinone (coenzyme Q10). An adequate supply of ubiquinone was essential to support mitochondrial electron transport and pyrimidine biosynthesis in p53 deficient cancer cells under conditions of metabolic stress. Moreover, inhibition of the mevalonate pathway using statins selectively induced oxidative stress and apoptosis in p53 deficient colon cancer cells exposed to oxygen and nutrient deprivation. This was caused by ubiquinone being required for electron transfer by dihydroorotate dehydrogenase, an essential enzyme of the pyrimidine nucleotide biosynthesis pathway. Supplementation with exogenous nucleosides relieved the demand for electron transfer and restored viability of p53 deficient cancer cells under metabolic stress. Moreover, the mevalonate pathway was also essential for the synthesis of ubiquinone for nucleotide biosynthesis to support growth of intestinal tumour organoids. Together, these findings highlight the importance of the mevalonate pathway in cancer cells and provide molecular evidence for an enhanced sensitivity towards the inhibition of mitochondrial electron transfer in tumour-like metabolic environments.}, subject = {Tumor}, language = {en} } @phdthesis{Grimm2019, author = {Grimm, Johannes}, title = {Autocrine and paracrine effects of BRAF inhibitor induced senescence in melanoma}, doi = {10.25972/OPUS-18116}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-181161}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {The FDA approval of targeted therapy with BRAFV600E inhibitors like vemurafenib and dabrafenib in 2011 has been the first major breakthrough in the treatment of metastatic melanoma since almost three decades. Despite increased progression free survival and elevated overall survival rates, complete responses are scarce due to resistance development approximately six months after the initial drug treatment. It was previously shown in our group that melanoma cells under vemurafenib pressure in vitro and in vivo exhibit features of drug-induced senescence. It is known that some cell types, which undergo this cell cycle arrest, develop a so-called senescence associated secretome and it has been reported that melanoma cell lines also upregulate the expression of different factors after senescence induction. This work describes the effect of the vemurafenib-induced secretome on cells. Conditioned supernatants of vemurafenib-treated cells increased the viability of naive fibroblast and melanoma cell lines. RNA analysis of donor melanoma cells revealed elevated transcriptional levels of FGF1, MMP2 and CCL2 in the majority of tested cell lines under vemurafenib pressure, and I could confirm the secretion of functional proteins. Similar observations were also done after MEK inhibition as well as in a combined BRAF and MEK inhibitor treatment situation. Interestingly, the transcription of other FGF ligands (FGF7, FGF17) was also elevated after MEK/ERK1/2 inhibition. As FGF receptors are therapeutically relevant, I focused on the analysis of FGFR-dependent processes in response to BRAF inhibition. Recombinant FGF1 increased the survival rate of melanoma cells under vemurafenib pressure, while inhibition of the FGFR pathway diminished the viability of melanoma cells in combination with vemurafenib and blocked the stimulatory effect of vemurafenib conditioned medium. The BRAF inhibitor induced secretome is regulated by active PI3K/AKT signaling, and the joint inhibition of mTor and BRAFV600E led to decreased senescence induction and to a diminished induction of the secretome-associated genes. In parallel, combined inhibition of MEK and PI3K also drastically decreased mRNA levels of the relevant secretome components back to basal levels. In summary, I could demonstrate that BRAF inhibitor treated melanoma cell lines acquire a specific PI3K/AKT dependent secretome, which is characterized by FGF1, CCL2 and MMP2. This secretome is able to stimulate other cells such as naive melanoma cells and fibroblasts and contributes to a better survival under drug pressure. These data are therapeutically highly relevant, as they imply the usage of novel drug combinations, especially specific FGFR inhibitors, with BRAF inhibitors in the clinic.}, subject = {Inhibitor}, language = {en} } @phdthesis{Letschert2019, author = {Letschert, Sebastian}, title = {Quantitative Analysis of Membrane Components using Super-Resolution Microscopy}, doi = {10.25972/OPUS-16213}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162139}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {The plasma membrane is one of the most thoroughly studied and at the same time most complex, diverse, and least understood cellular structures. Its function is determined by the molecular composition as well as the spatial arrangement of its components. Even after decades of extensive membrane research and the proposal of dozens of models and theories, the structural organization of plasma membranes remains largely unknown. Modern imaging tools such as super-resolution fluorescence microscopy are one of the most efficient techniques in life sciences and are widely used to study the spatial arrangement and quantitative behavior of biomolecules in fixed and living cells. In this work, direct stochastic optical reconstruction microscopy (dSTORM) was used to investigate the structural distribution of mem-brane components with virtually molecular resolution. Key issues are different preparation and staining strategies for membrane imaging as well as localization-based quantitative analyses of membrane molecules. An essential precondition for the spatial and quantitative analysis of membrane components is the prevention of photoswitching artifacts in reconstructed localization microscopy images. Therefore, the impact of irradiation intensity, label density and photoswitching behavior on the distribution of plasma membrane and mitochondrial membrane proteins in dSTORM images was investigated. It is demonstrated that the combination of densely labeled plasma membranes and inappropriate photoswitching rates induces artificial membrane clusters. Moreover, inhomogeneous localization distributions induced by projections of three-dimensional membrane structures such as microvilli and vesicles are prone to generate artifacts in images of biological membranes. Alternative imaging techniques and ways to prevent artifacts in single-molecule localization microscopy are presented and extensively discussed. Another central topic addresses the spatial organization of glycosylated components covering the cell membrane. It is shown that a bioorthogonal chemical reporter system consisting of modified monosaccharide precursors and organic fluorophores can be used for specific labeling of membrane-associated glycoproteins and -lipids. The distribution of glycans was visualized by dSTORM showing a homogeneous molecule distribution on different mammalian cell lines without the presence of clusters. An absolute number of around five million glycans per cell was estimated and the results show that the combination of metabolic labeling, click chemistry, and single-molecule localization microscopy can be efficiently used to study cell surface glycoconjugates. In a third project, dSTORM was performed to investigate low-expressing receptors on cancer cells which can act as targets in personalized immunotherapy. Primary multiple myeloma cells derived from the bone marrow of several patients were analyzed for CD19 expression as potential target for chimeric antigen receptor (CAR)-modified T cells. Depending on the patient, 60-1,600 CD19 molecules per cell were quantified and functional in vitro tests demonstrate that the threshold for CD19 CAR T recognition is below 100 CD19 molecules per target cell. Results are compared with flow cytometry data, and the important roles of efficient labeling and appropriate control experiments are discussed.}, subject = {Fluoreszenzmikroskopie}, language = {en} } @phdthesis{Simon2019, author = {Simon, Katja}, title = {Identifying the role of Myb-MuvB in gene expression and proliferation of lung cancer cells}, doi = {10.25972/OPUS-16181}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-161814}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {The evolutionary conserved Myb-MuvB (MMB) multiprotein complex is a transcriptional master regulator of mitotic gene expression. The MMB subunits B-MYB, FOXM1 as well as target genes of MMB are often overexpressed in different cancer types. Elevated expression of these genes correlates with an advanced tumor state and a poor prognosis for patients. Furthermore, it has been reported that pathways, which are involved in regulating the mitotic machinery are attractive for a potential treatment of cancers harbouring Ras mutations (Luo et al., 2009). This suggest that the MMB complex could be required for tumorigenesis by mediating overactivity of mitotic genes and that the MMB could be a useful target for lung cancer treatment. However, although MMB has been characterized biochemically, the contribution of MMB to tumorigenesis is largely unknown in particular in vivo. In this thesis, it was demonstrated that the MMB complex is required for lung tumorigenesis in vivo in a mouse model of non small cell lung cancer. Elevated levels of B-MYB, NUSAP1 or CENPF in advanced tumors as opposed to low levels of these proteins levels in grade 1 or 2 tumors support the possible contribution of MMB to lung tumorigenesis and the oncogenic potential of B-MYB.The tumor growth promoting function of B-MYB was illustrated by a lower fraction of KI-67 positive cells in vivo and a significantly high impairment in proliferation after loss of B-Myb in vitro. Defects in cytokinesis and an abnormal cell cycle profile after loss of B-Myb underscore the impact of B-MYB on proliferation of lung cancer cell lines. The incomplete recombination of B-Myb in murine lung tumors and in the tumor derived primary cell lines illustrates the selection pressure against the complete loss of B-Myb and further demonstrats that B-Myb is a tumor-essential gene. In the last part of this thesis, the contribution of MMB to the proliferation of human lung cancer cells was demonstrated by the RNAi-mediated depletion of B-Myb. Detection of elevated B-MYB levels in human adenocarcinoma and a reduced proliferation, cytokinesis defects and abnormal cell cycle profile after loss of B-MYB in human lung cancer cell lines underlines the potential of B-MYB to serve as a clinical marker.}, subject = {Lungenkrebs}, language = {en} } @phdthesis{Fleischmann2019, author = {Fleischmann, Pauline Nikola}, title = {Starting foraging life: Early calibration and daily use of the navigational system in \(Cataglyphis\) ants}, doi = {10.25972/OPUS-15995}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-159951}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Cataglyphis ants are famous for their navigational abilities. They live in hostile habitats where they forage as solitary scavengers covering distances of more than hundred thousand times their body lengths. To return to their nest with a prey item - mainly other dead insects that did not survive the heat - Cataglyphis ants constantly keep track of their directions and distances travelled. The navigational strategy is called path integration, and it enables an ant to return to the nest in a straight line using its home vector. Cataglyphis ants mainly rely on celestial compass cues, like the position of the sun or the UV polarization pattern, to determine directions, and they use an idiothetic step counter and optic flow to measure distances. In addition, they acquire information about visual, olfactory and tactile landmarks, and the wind direction to increase their chances of returning to the nest safe and sound. Cataglyphis' navigational performance becomes even more impressive if one considers their life style. Most time of their lives, the ants stay underground and perform tasks within the colony. When they start their foraging careers outside the nest, they have to calibrate their compass systems and acquire all information necessary for navigation during subsequent foraging. This navigational toolkit is not instantaneously available, but has to be filled with experience. For that reason, Cataglyphis ants perform a striking behavior for up to three days before actually foraging. These so-called learning walks are crucial for the success as foragers later on. In the present thesis, both the ontogeny and the fine-structure of learning walks has been investigated. Here I show with displacement experiments that Cataglyphis ants need enough space and enough time to perform learning walks. Spatially restricted novices, i. e. na{\"i}ve ants, could not find back to the nest when tested as foragers later on. Furthermore, ants have to perform several learning walks over 1-3 days to gain landmark information for successful homing as foragers. An increasing number of feeder visits also increases the importance of landmark information, whereas in the beginning ants fully rely on their path-integration vector. Learning walks are well-structured. High-speed video analysis revealed that Cataglyphis ants include species-specific rotational elements in their learning walks. Greek Cataglyphis ants (C. noda and C. aenescens) inhabiting a cluttered pine forest perform voltes, small walked circles, and pirouettes, tight turns about the body axis with frequent stopping phases. During the longest stopping phases, the ants gaze back to their nest entrance. The Tunisian Cataglyphis fortis ants inhabiting featureless saltpans only perform voltes without directed gazes. The function of voltes has not yet been revealed. In contrast, the fine structure of pirouettes suggests that the ants take snapshots of the panorama towards their homing direction to memorize the nest's surroundings. The most likely hypothesis was that Cataglyphis ants align the gaze directions using their path integrator, which gets directional input from celestial cues during foraging. To test this hypothesis, a manipulation experiment was performed changing the celestial cues above the nest entrance (no sun, no natural polarization pattern, no UV light). The accurately directed gazes to the nest entrance offer an easily quantifiable readout suitable to ask the ants where they expect their nest entrance. Unexpectedly, all novices performing learning walks under artificial sky conditions looked back to the nest entrance. This was especially surprising, because neuronal changes in the mushroom bodies and the central complex receiving visual input could only be induced with the natural sky when comparing test animals with interior workers. The behavioral findings indicated that Cataglyphis ants use another directional reference system to align their gaze directions during the longest stopping phases of learning walk pirouettes. One possibility was the earth's magnetic field. Indeed, already disarraying the geomagnetic field at the nest entrance with an electromagnetic flat coil indicated that the ants use magnetic information to align their looks back to the nest entrance. To investigate this finding further, ants were confronted with a controlled magnetic field using a Helmholtz coil. Elimination of the horizontal field component led to undirected gaze directions like the disarray did. Rotating the magnetic field about 90°, 180° or -90° shifted the ants' gaze directions in a predictable manner. Therefore, the earth's magnetic field is a necessary and sufficient reference system for aligning nest-centered gazes during learning-walk pirouettes. Whether it is additionally used for other navigational purposes, e. g. for calibrating the solar ephemeris, remains to be tested. Maybe the voltes performed by all Cataglyphis ant species investigated so far can help to answer this question..}, subject = {Cataglyphis}, language = {en} } @phdthesis{Beck2019, author = {Beck, Katharina}, title = {Die nitrerge Neurotransmission im Gastrointestinaltrakt der Maus}, doi = {10.25972/OPUS-15989}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-159896}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Die NO-sensitive Guanylyl-Cyclase (NO-GC) ist ein zentrales Enzym der NO/cGMP-Signalkaskade, das {\"u}ber die Aktivierung von NO zur Bildung des second messangers cGMP f{\"u}hrt. Die NO-GC setzt sich aus zwei Untereinheiten zusammen, sodass zwei Isoformen des Enzyms gebildet werden k{\"o}nnen (α1β1 und α2β1). Da die genaue Verteilung der beiden Isoformen im Colon nicht bekannt ist, wurde diese im ersten Teil dieser Arbeit charakterisiert. Immunhistochemie und In-situ-Hybridisierung zeigten die Expression beider Isoformen sowohl in der glatten Muskelschicht als auch in der Submukosa und Lamina propria. Dabei war die α1β1-Isoform ubiquit{\"a}r, die α2β1-Isoform dagegen haupts{\"a}chlich im Bereich des myenterischen Plexus vorzufinden. In der glatten Muskelschicht des Colons ist die NO-GC in glatten Muskelzellen (SMC), interstitiellen Zellen von Cajal (ICC) sowie Fibroblasten-{\"a}hnliche Zellen (FLC) exprimiert und haupts{\"a}chlich in die Modulation der gastrointestinalen Motilit{\"a}t involviert. Zur spezifischen Charakterisierung der Funktion der NO-GC in den einzelnen Zelltypen wurden Knockout-M{\"a}use generiert, denen die NO-GC global (GCKO) oder spezifisch in SMC (SMC-GCKO), ICC (ICC-GCKO) oder beiden Zelltypen (SMC/ICC-GCKO) fehlt. Anhand dieser Mausmodelle sollten im zweiten Teil dieser Arbeit die modulatorischen Effekte der NO-GC auf die spontanen Kontraktionen des Colons bestimmt werden. Zur Charakterisierung der spontanen Kontraktionen der zirkul{\"a}ren Muskelschicht wurden Myographiestudien mit 2,5 mm langen Colonringen durchgef{\"u}hrt. Hierbei konnten drei verschiedene Kontraktionen gemessen werden: Kleine, hochfrequente Ripples, mittlere Kontraktionen und große Kontraktionen. Die detaillierte Analyse der einzelnen Kontraktionen zeigte einerseits eine NO-unabh{\"a}ngige Regulation der Ripples, andererseits eine NO-abh{\"a}ngige Modulation der mittleren und großen Kontraktionen {\"u}ber die NO-GC in SMC und ICC. Die NO-GC in SMC beeinflusst die Kontraktionen vermutlich vor allem {\"u}ber die Regulation des Muskeltonus der zirkul{\"a}ren Muskelschicht. Die NO-GC in ICC dagegen modifiziert die spontanen Kontraktionen m{\"o}glicherweise {\"u}ber eine Ver{\"a}nderung der Schrittmacheraktivit{\"a}t. Allerdings f{\"u}hrt erst ein Funktionsverlust des NO/cGMP-Signalweges in beiden Zelltypen zu einem sichtbar ver{\"a}nderten Kontraktionsmuster, das dem von globalen Knockout-Tieren glich. Dies weist auf eine kompensatorische Wirkung der NO-GC im jeweils anderen Zelltyp hin. Zur Analyse der propulsiven Kontraktionen entlang des gesamten Colons wurden Videoaufnahmen der Darmbewegungen in Kontraktionsmusterkarten transformiert. Zudem wurde der Darm durchsp{\"u}lt und die Ausflusstropfen aufgezeichnet, um die Effektivit{\"a}t der Kontraktionen beurteilen zu k{\"o}nnen. Hierbei zeigte sich, dass eine Beeintr{\"a}chtigung des NO/cGMP-Signalweges eine verminderte Effektivit{\"a}t der Kontraktionen zur Folge hat und vermutlich durch eine beeintr{\"a}chtige Synchronisation der Kontraktionen erkl{\"a}rt werden kann. In diesem Regulationsmechanismus konnte vor allem der NO-GC in SMC eine {\"u}bergeordnete Rolle zugewiesen werden. Der dritte Teil der Arbeit thematisierte den Befund, dass SMC-GCKO-Tiere ca. 5 Monate nach Tamoxifen-Behandlung Entartungen der Mukosa entwickelten. Diese Entartung war lediglich in Tamoxifen-induzierten Knockout-Tieren vorzufinden. Histologische Analysen identifizierten die Entartungen als tubulovill{\"o}ses Adenom. Die Genexpressionsanalyse von Mukosafalten von SMC-GCKO- und heterozygoten Kontrolltieren zeigte eine Vielzahl von Genen, welche spezifisch bei colorectalem Karzinom differenziell exprimiert sind. Einer dieser Faktoren war der BMP-Antagonist Gremlin1. Dieser Faktor erschien von besonderem Interesse, da er in Zellen der Lamina muscularis mucosae und kryptennahen Myofibroblasten exprimiert wird. Immunhistochemische Analysen ließen vermuten, dass diese Zellen sowohl die NO-GC als auch die Cre-Rekombinase unter dem SMMHC-Promotor exprimieren. Diese Arbeit liefert demnach Hinweise darauf, dass die NO-GC einen wichtigen Regulator innerhalb der Stammzellnische bildet. Die Deletion der NO-GC f{\"u}hrt vermutlich zu einer verst{\"a}rkten Bildung bzw. Sekretion von Gremlin1, was die Hom{\"o}ostase der mukosalen Erneuerung st{\"o}rt und somit zur Entwicklung von Adenomen f{\"u}hrt.}, subject = {Gastrointestinaltrakt}, language = {de} } @phdthesis{Mekala2019, author = {Mekala, SubbaRao}, title = {Generation of cardiomyocytes from vessel wall-resident stem cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-146046}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Myocardial infarction (MI) is a major cause of health problems and is among the leading deadly ending diseases. Accordingly, regenerating functional myocardial tissue and/or cardiac repair by stem cells is one of the most desired aims worldwide. Indeed, the human heart serves as an ideal target for regenerative intervention, because the capacity of the adult myocardium to restore itself after injury or infarct is limited. Thus, identifying new sources of tissue resident adult stem or progenitor cells with cardiovascular potential would help to establish more sophisticated therapies in order to either prevent cardiac failure or to achieve a functional repair. Ongoing research worldwide in this field is focusing on a) induced pluripotent stem (iPS) cells, b) embryonic stem (ES) cells and c) adult stem cells (e. g. mesenchymal stem cells) as well as cardiac fibroblasts or myofibroblasts. However, thus far, these efforts did not result in therapeutic strategies that were transferable into the clinical management of MI and heart failure. Hence, identifying endogenous and more cardiac-related sources of stem cells capable of differentiating into mature cardiomyocytes would open promising new therapeutic opportunities. The working hypothesis of this thesis is that the vascular wall serves as a niche for cardiogenic stem cells. In recent years, various groups have identified different types of progenitors or mesenchymal stem cell-like cells in the adventitia and sub-endothelial zone of the adult vessel wall, the so called vessel wall-resident stem cells (VW-SCs). Considering the fact that heart muscle tissue contains blood vessels in very high density, the physiological relevance of VW-SCs for the myocardium can as yet only be assumed. The aim of the present work is to study whether a subset of VW-SCs might have the capacity to differentiate into cardiomyocyte-like cells. This assumption was challenged using adult mouse aorta-derived cells cultivated in different media and treated with selected factors. The presented results reveal the generation of spontaneously beating cardiomyocyte-like cells using specific media conditions without any genetic manipulation. The cells reproducibly started beating at culture days 8-10. Further analyses revealed that in contrast to several publications reporting the Sca-1+ cells as cardiac progenitors the Sca-1- fraction of aortic wall-derived VW-SCs reproducibly delivered beating cells in culture. Similar to mature cardiomyocytes the beating cells developed sarcomeric structures indicated by the typical cross striated staining pattern upon immunofluorescence analysis detecting α-sarcomeric actinin (α-SRA) and electron microscopic analysis. These analyses also showed the formation of sarcoplasmic reticulum which serves as calcium store. Correspondingly, the aortic wall-derived beating cardiomyocyte-like cells (Ao-bCMs) exhibited calcium oscillations. This differentiation seems to be dependent on an inflammatory microenvironment since depletion of VW-SC-derived macrophages by treatment with clodronate liposomes in vitro stopped the generation of Ao bCMs. These locally generated F4/80+ macrophages exhibit high levels of VEGF (vascular endothelial growth factor). To a great majority, VW-SCs were found to be positive for VEGFR-2 and blocking this receptor also stopped the generation VW-SC-derived beating cells in vitro. Furthermore, the treatment of aortic wall-derived cells with the ß-receptor agonist isoproterenol or the antagonist propranolol resulted in a significant increase or decrease of beating frequency. Finally, fluorescently labeled aortic wall-derived cells were implanted into the developing chick embryo heart field where they became positive for α-SRA two days after implantation. The current data strongly suggest that VW-SCs resident in the vascular adventitia deliver both progenitors for an inflammatory microenvironment and beating cells. The present study identifies that the Sca-1- rather than Sca-1+ fraction of mouse aortic wall-derived cells harbors VW-SCs differentiating into cardiomyocyte-like cells and reveals an essential role of VW-SCs-derived inflammatory macrophages and VEGF-signaling in this process. Furthermore, this study demonstrates the cardiogenic capacity of aortic VW-SCs in vivo using a chimeric chick embryonic model.}, subject = {Herzmuskelzelle}, language = {en} } @phdthesis{Hieke2019, author = {Hieke, Marie}, title = {Synaptic arrangements and potential communication partners of \(Drosophila's\) PDF-containing clock neurons within the accessory medulla}, doi = {10.25972/OPUS-17598}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-175988}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Endogenous clocks regulate physiological as well as behavioral rhythms within all organisms. They are well investigated in D. melanogaster on a molecular as well as anatomical level. The neuronal clock network within the brain represents the center for rhythmic activity control. One neuronal clock subgroup, the pigment dispersing factor (PDF) neurons, stands out for its importance in regulating rhythmic behavior. These neurons express the neuropeptide PDF (pigment dispersing factor). A small neuropil at the medulla's edge, the accessory medulla (AME), is of special interest, as it has been determined as the main center for clock control. It is not only highly innervated by the PDF neurons but also by terminals of all other clock neuron subgroups. Furthermore, terminals of the photoreceptors provide light information to the AME. Many different types of neurons converge within the AME and afterward spread to their next target. Thereby the AME is supplied with information from a variety of brain regions. Among these neurons are the aminergic ones whose receptors' are expressed in the PDF neurons. The present study sheds light onto putative synaptic partners and anatomical arrangements within the neuronal clock network, especially within the AME, as such knowledge is a prerequisite to understand circadian behavior. The aminergic neurons' conspicuous vicinity to the PDF neurons suggests synaptic communication among them. Thus, based on former anatomical studies regarding this issue detailed light microscopic studies have been performed. Double immunolabellings, analyses of the spatial relation of pre- and postsynaptic sites of the individual neuron populations with respect to each other and the identification of putative synaptic partners using GRASP reenforce the hypothesis of synaptic interactions within the AME between dopaminergic/ serotonergic neurons and the PDF neurons. To shed light on the synaptic partners I performed first steps in array tomography, as it allows terrific informative analyses of fluorescent signals on an ultrastructural level. Therefore, I tested different ways of sample preparation in order to achieve and optimize fluorescent signals on 100 nm thin tissue sections and I made overlays with electron microscopic images. Furthermore, I made assumptions about synaptic modulations within the neuronal clock network via glial cells. I detected their cell bodies in close vicinity to the AME and PDFcontaining clock neurons. It has already been shown that glial cells modulate the release of PDF from s-LNvs' terminals within the dorsal brain. On an anatomical level this modulation appears to exist also within the AME, as synaptic contacts that involve PDF-positive dendritic terminals are embedded into glial fibers. Intriguingly, these postsynaptic PDF fibers are often VIIAbstract part of dyadic or even multiple-contact sites in opposite to prolonged presynaptic active zonesimplicating complex neuronal interactions within the AME. To unravel possible mechanisms of such synaptic arrangements, I tried to localize the ABC transporter White. Its presence within glial cells would indicate a recycling mechanism of transmitted amines which allows their fast re-provision. Taken together, synapses accompanied by glial cells appear to be a common arrangement within the AME to regulate circadian behavior. The complexity of mechanisms that contribute in modulation of circadian information is reflected by the complex diversity of synaptic arrangements that involves obviously several types of neuron populations}, subject = {Taufliege}, language = {en} } @phdthesis{Horn2019, author = {Horn, Jessica}, title = {Molecular and functional characterization of the long non-coding RNA SSR42 in \(Staphylococcus\) \(aureus\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-175778}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Staphylococcus aureus asymptomatically colonizes the skin and anterior nares of 20-30\% of the healthy human population. As an opportunistic human pathogen it elicits a variety of infections ranging from skin and soft tissue infections to highly severe manifestations such as pneumonia, endocarditis and osteomyelitis. Due to the emergence of multi resistant strains, treatment of staphylococcal infections becomes more and more challenging and the WHO therefore classified S. aureus as a "superbug". The variety of diseases triggered by S. aureus is the result of a versatile expression of a large set of virulence factors. The most prominent virulence factor is the cytotoxic and haemolytic pore-forming α-toxin whose expression is mediated by a complex regulatory network involving two-component systems such as the agr quorum-sensing system, accessory transcriptional regulators and alternative sigma-factors. However, the intricate regulatory network is not yet understood in its entirety. Recently, a transposon mutation screen identified the AraC-family transcriptional regulator 'Repressor of surface proteins' (Rsp) to regulate haemolysis, cytotoxicity and the expression of various virulence associated factors. Deletion of rsp was accompanied by a complete loss of transcription of a 1232 nt long non-coding RNA, SSR42. This doctoral thesis focuses on the molecular and functional characterization of SSR42. By analysing the transcriptome and proteome of mutants in either SSR42 or both SSR42 and rsp, as well as by complementation of SSR42 in trans, the ncRNA was identified as the main effector of Rsp-mediated virulence. Mutants in SSR42 exhibited strong effects on transcriptional and translational level when compared to wild-type bacteria. These changes resulted in phenotypic alterations such as strongly reduced haemolytic activity and cytotoxicity towards epithelial cells as well as reduced virulence in a murine infection model. Deletion of SSR42 further promoted the formation of small colony variants (SCV) during long term infection of endothelial cells and demonstrated the importance of this molecule for intracellular bacteria. The impact of this ncRNA on staphylococcal haemolysis was revealed to be executed by modulation of sae mRNA stability and by applying mutational studies functional domains within SSR42 were identified. Moreover, various stressors modulated the transcription of SSR42 and antibiotic challenge resulted in SSR42-dependently increased haemolysis and cytotoxicity. Transcription of SSR42 itself was found under control of various important global regulators including AgrA, SaeS, CodY and σB, thereby illustrating a central position in S. aureus virulence gene regulation. The present study thus demonstrates SSR42 as a global virulence regulatory RNA which is important for haemolysis, disease progression and adaption of S. aureus to intracellular conditions via formation of SCVs.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Schubert2019, author = {Schubert, Frank Klaus}, title = {The circadian clock network of \(Drosophila\) \(melanogaster\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-157136}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {All living organisms need timekeeping mechanisms to track and anticipate cyclic changes in their environment. The ability to prepare for and respond to daily and seasonal changes is endowed by circadian clocks. The systemic features and molecular mechanisms that drive circadian rhythmicity are highly conserved across kingdoms. Therefore, Drosophila melanogaster with its relatively small brain (ca. 135.000 neurons) and the outstanding genetic tools that are available, is a perfect model to investigate the properties and relevance of the circadian system in a complex, but yet comprehensible organism. The last 50 years of chronobiological research in the fruit fly resulted in a deep understanding of the molecular machinery that drives circadian rhythmicity, and various histological studies revealed the neural substrate of the circadian system. However, a detailed neuroanatomical and physiological description on the single-cell level has still to be acquired. Thus, I employed a multicolor labeling approach to characterize the clock network of Drosophila melanogaster with single-cell resolution and additionally investigated the putative in- and output sites of selected neurons. To further study the functional hierarchy within the clock network and to monitor the "ticking clock" over the course of several circadian cycles, I established a method, which allows us to follow the accumulation and degradation of the core clock genes in living brain explants by the means of bioluminescence imaging of single-cells.}, subject = {Taufliege}, language = {en} } @phdthesis{Maierhofer2018, author = {Maierhofer, Anna}, title = {Altersassoziierte und strahleninduzierte Ver{\"a}nderungen des genomweiten DNA-Methylierungs-Profils}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174134}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Der Prozess des Alterns ist ein komplexer multifaktorieller Vorgang, der durch eine sukzessive Verschlechterung der physiologischen Funktionen charakterisiert ist. Ein hohes Alter ist der Hauptrisikofaktor f{\"u}r die meisten Krankheiten, einschließlich Krebs und Herz-Kreislauf-Erkrankungen. Das Verst{\"a}ndnis der epigenetischen Mechanismen, die in den Prozess des Alterns involviert sind, k{\"o}nnte zur Entwicklung pharmakologischer Interventionen beitragen, die nicht nur die Lebenserwartung erh{\"o}hen, sondern auch den Beginn des altersassoziierten funktionellen Abbaus verz{\"o}gern k{\"o}nnten. Durch die Langzeit-Kultivierung prim{\"a}rer humaner Fibroblasten wurde ein in vitro Modell f{\"u}r das Altern etabliert, das die Identifizierung altersassoziierter DNA-Methylierungs-Ver{\"a}nderungen erm{\"o}glichte. Die in vitro Alterung konnte mit einer globalen Hypomethylierung und einer erh{\"o}hten DNA-Methylierung der ribosomalen DNA assoziiert werden. Dar{\"u}ber hinaus konnten DNA-Methylierungs-Ver{\"a}nderungen in Genen und Signalwegen, die f{\"u}r das Altern relevant sind, und ein erh{\"o}htes epigenetisches Alter nachgewiesen werden. Das in vitro Modell f{\"u}r das Altern wurde verwendet, um neben den direkten Effekten ionisierender Strahlung auf die DNA-Methylierung auch deren Langzeit-Effekte zu untersuchen. Die Strahlentherapie ist ein entscheidendes Element der Krebstherapie, hat aber auch negative Auswirkungen und kann unter anderem das Risiko f{\"u}r die Entwicklung eines Zweittumors erh{\"o}hen. Bei externer Bestrahlung wird neben dem Tumor auch gesundes Gewebe ionisierender Strahlung ausgesetzt. Daher ist es wichtig zu untersuchen, wie Zellen mit intakten DNA-Reparatur-Mechanismen und funktionierenden Zellzyklus-Checkpoints durch diese beeinflusst werden. In der fr{\"u}hen Phase der DNA-Schadensantwort auf Bestrahlung wurden in normalen Zellen keine wesentlichen DNA-Methylierungs-Ver{\"a}nderungen beobachtet. Mehrere Populations-Verdoppelungen nach Strahlenexposition konnten dagegen eine globale Hypomethylierung, eine erh{\"o}hte DNA-Methylierung der ribosomalen DNA und ein erh{\"o}htes epigenetisches Alter detektiert werden. Des Weiteren zeigten Gene und Signalwege, die mit Krebs in Verbindung gebracht wurden, Ver{\"a}nderungen in der DNA-Methylierung. Als Langzeit-Effekte ionisierender Strahlung traten somit die mit der in vitro Alterung assoziierten DNA-Methylierungs-Ver{\"a}nderungen verst{\"a}rkt auf und ein epigenetisches Muster, das stark an das DNA-Methylierungs-Profil von Tumorzellen erinnert, entstand. Man geht davon aus, dass Ver{\"a}nderungen der DNA-Methylierung eine aktive Rolle in der Entwicklung eines Tumors spielen. Die durch ionisierende Strahlung induzierten DNA-Methylierungs-Ver{\"a}nderungen in normalen Zellen k{\"o}nnten demnach in die Krebsentstehung nach Strahlenexposition involviert sein und zu dem sekund{\"a}ren Krebsrisiko nach Strahlentherapie beitragen. Es ist bekannt, dass Patienten unterschiedlich auf therapeutische Bestrahlung reagieren. Die Ergebnisse dieser Arbeit weisen darauf hin, dass die individuelle Sensitivit{\"a}t gegen{\"u}ber ionisierender Strahlung auch auf epigenetischer Ebene beobachtet werden kann. In einem zweiten Projekt wurden Gesamtblutproben von Patienten mit Werner-Syndrom, einer segmental progeroiden Erkrankung, und gesunden Kontrollen analysiert, um mit dem vorzeitigen Altern in Verbindung stehende DNA-Methylierungs-Ver{\"a}nderungen zu identifizieren. Werner-Syndrom konnte nicht mit einer globalen Hypomethylierung, jedoch mit einer erh{\"o}hten DNA-Methylierung der ribosomalen DNA und einem erh{\"o}hten epigenetischen Alter assoziiert werden. Das vorzeitige Altern geht demzufolge mit spezifischen epigenetischen Ver{\"a}nderungen einher, die eine Beschleunigung der mit dem normalen Altern auftretenden DNA-Methylierungs-Ver{\"a}nderungen darstellen. Im Rahmen dieser Arbeit konnte die Bedeutung epigenetischer Mechanismen im Prozess des Alterns hervorgehoben werden und gezeigt werden, dass sowohl exogene Faktoren, wie ionisierende Strahlung, als auch endogene Faktoren, wie das in Werner-Syndrom-Patienten mutiert vorliegende WRN-Gen, altersassoziierte DNA-Methylierungs-Ver{\"a}nderungen beeinflussen k{\"o}nnen.}, subject = {Methylierung}, language = {de} } @phdthesis{Nuernberger2018, author = {N{\"u}rnberger, Fabian}, title = {Timing of colony phenology and foraging activity in honey bees}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155105}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {I. Timing is a crucial feature in organisms that live within a variable and changing environment. Complex mechanisms to measure time are wide-spread and were shown to exist in many taxa. These mechanisms are expected to provide fitness benefits by enabling organisms to anticipate environmental changes and adapt accordingly. However, very few studies have addressed the adaptive value of proper timing. The objective of this PhD-project was to investigate mechanisms and fitness consequences of timing decisions concerning colony phenology and foraging activity in the honey bee (Apis mellifera), a social insect species with a high degree of social organization and one of the most important pollinators of wild plants and crops. In chapter II, a study is presented that aimed to identify the consequences of disrupted synchrony between colony phenology and the local environment by manipulating the timing of brood onset after hibernation. In a follow-up experiment, the importance of environmental factors for the timing of brood onset was investigated to assess the potential of climate change to disrupt synchronization of colony phenology (Chapter III). Chapter IV aimed to prove for the first time that honey bees can use interval time-place learning to improve foraging activity in a variable environment. Chapter V investigates the fitness benefits of information exchange between nest mates via waggle dance communication about a resource environment that is heterogeneous in space and time. II. In the study presented in chapter II, the importance of the timing of brood onset after hibernation as critical point in honey bee colony phenology in temperate zones was investigated. Honey bee colonies were overwintered at two climatically different sites. By translocating colonies from each site to the other in late winter, timing of brood onset was manipulated and consequently colony phenology was desynchronized with the local environment. Delaying colony phenology in respect to the local environment decreased the capability of colonies to exploit the abundant spring bloom. Early brood onset, on the other hand, increased the loads of the brood parasite Varroa destructor later in the season with negative impact on colony worker population size. This indicates a timing related trade-off and illustrates the importance of investigating effects of climate change on complex multi-trophic systems. It can be concluded that timing of brood onset in honey bees is an important fitness relevant step for colony phenology that is highly sensitive to climatic conditions in late winter. Further, phenology shifts and mismatches driven by climate change can have severe fitness consequences. III. In chapter III, I assess the importance of the environmental factors ambient temperature and photoperiod as well as elapsed time on the timing of brood onset. Twenty-four hibernating honey bee colonies were placed into environmental chambers and allocated to different combinations of two temperature regimes and three different light regimes. Brood onset was identified non-invasively by tracking comb temperature within the winter cluster. The experiment revealed that ambient temperature plays a major role in the timing of brood onset, but the response of honey bee colonies to temperature increases is modified by photoperiod. Further, the data indicate the involvement of an internal clock. I conclude that the timing of brood onset is complex but probably highly susceptible to climate change and especially spells of warm weather in winter. IV. In chapter IV, it was examined if honey bees are capable of interval time-place learning and if this ability improves foraging efficiency in a dynamic resource environment. In a field experiment with artificial feeders, foragers were able to learn time intervals and use this ability to anticipate time periods during which feeders were active. Further, interval time-place learning enabled foragers to increase nectar uptake rates. It was concluded that interval time-place learning can help honey bee foragers to adapt to the complex and variable temporal patterns of floral resource environments. V. The study presented in chapter V identified the importance of the honey bee waggle dance communication for the spatiotemporal coordination of honey bee foraging activity in resource environments that can vary from day to day. Consequences of disrupting the instructional component of honey bee dance communication were investigated in eight temperate zone landscapes with different levels of spatiotemporal complexity. While nectar uptake of colonies was not affected, waggle dance communication significantly benefitted pollen harvest irrespective of landscape complexity. I suggest that this is explained by the fact that honey bees prefer to forage pollen in semi-natural habitats, which provide diverse resource species but are sparse and presumably hard to find in intensively managed agricultural landscapes. I conclude that waggle dance communication helps to ensure a sufficient and diverse pollen diet which is crucial for honey bee colony health. VI. In my PhD-project, I could show that honey bee colonies are able to adapt their activities to a seasonally and daily changing environment, which affects resource uptake, colony development, colony health and ultimately colony fitness. Ongoing global change, however, puts timing in honey bee colonies at risk. Climate change has the potential to cause mismatches with the local resource environment. Intensivation of agricultural management with decreased resource diversity and short resource peaks in spring followed by distinctive gaps increases the probability of mismatches. Even the highly efficient foraging system of honey bees might not ensure a sufficiently diverse and healthy diet in such an environment. The global introduction of the parasitic mite V. destructor and the increased exposure to pesticides in intensively managed landscapes further degrades honey bee colony health. This might lead to reduced cognitive capabilities in workers and impact the communication and social organization in colonies, thereby undermining the ability of honey bee colonies to adapt to their environment.}, subject = {Biene}, language = {en} } @phdthesis{Glogger2018, author = {Glogger, Marius}, title = {Single-molecule fluorescence microscopy in live \(Trypanosoma\) \(brucei\) and model membranes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169222}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Der eukaryotische Parasit Trypanosoma brucei hat komplexe Strategien entwickelt um der Immunantwort eines Wirtes zu entkommen und eine persistente Infektion innerhalb dessen aufrechtzuerhalten. Ein zentrales Element seiner Verteidigungsstrategie st{\"u}tzt sich auf die Schutzfunktion seines Proteinmantels auf der Zelloberfl{\"a}che. Dieser Mantel besteht aus einer dichten Schicht aus identischen, Glykosylphosphatidylinositol (GPI)-verankerten variablen Oberfl{\"a}chenglykoproteinen (VSG). Der VSG Mantel verhindert die Erkennung der darunterliegenden, invarianten Epitope durch das Immunsystem. Obwohl es notwendig ist die Funktionsweise des VSG Mantels zu verstehen, vor allem um ihn als m{\"o}gliches Angriffsziel gegen den Parasiten zu verwenden, sind seine biophysikalischen Eigenschaften bisher nur unzureichend verstanden. Dies ist vor allem der Tatsache geschuldet, dass die hohe Motilit{\"a}t der Parasiten mikroskopische Studien in lebenden Zellen bisher weitestgehend verhinderten. In der vorliegenden Arbeit wird nun hochmoderne Einzelmolek{\"u}l-Fluoreszenzmikroskopie (EMFM) als M{\"o}glichkeit f{\"u}r mikroskopische Untersuchungen im Forschungsbereich der Trypanosomen vorgestellt. Die Arbeit umfasst Untersuchungen der VSG Dynamik unter definierten Bedingungen k{\"u}nstlicher Membransysteme. Es wurde zuerst der Einfluss der lateralen Proteindichte auf die VSG Diffusion untersucht. Experimente mittels Fluoreszenz- Wiederkehr nach irreversiblem Photobleichen und komplement{\"a}re Einzelmolek{\"u}l- Verfolgungs Experimente offenbarten, dass ein molekularer Diffusionsschwellenwert existiert. {\"U}ber diesem Schwellenwert wurde eine dichteabh{\"a}nige Reduzierung des Diffusionskoeffizienten gemessen. Eine relative Quantifizierung der rekonstituierten VSGs verdeutlichte, dass der Oberfl{\"a}chenmantel der Trypanosomen sehr nahe an diesem Schwellenwert agiert. Der VSG Mantel ist optimiert um eine hohe Proteindichte bei gleichzeitiger hoher Mobilit{\"a}t der VSGs zu gew{\"a}hrleisten. Des Weiteren wurde der Einfluss der VSG N-Glykosylierung auf die Diffusion des Proteins quantitativ untersucht. Die Messungen ergaben, dass die N-Glykosylierung dazu beitr{\"a}gt eine hohe Mobilit{\"a}t bei hohen Proteindichten aufrechtzuerhalten. Eine detaillierte Analyse von VSG Trajektorien offenbarte, dass zwei unterschiedliche Populationen frei diffundierender VSGs in der k{\"u}nstlichen Membran vorlagen. K{\"u}rzlich wurde entdeckt, dass VSGs zwei strukturell unterschiedliche Konformationen annehmen k{\"o}nnen. Die Messungen in der Arbeit stimmen mit diesen Beschreibungen {\"u}berein. Die Ergebnisse der EMFM in k{\"u}nstlichen Membranen wurden durch VSG Einzelmolek{\"u}l- Verfolgungs Experimente auf lebenden Zellen erg{\"a}nzt. Es wurde eine hohe Mobilit{\"a}t und Dynamik einzelner VSGs gemessen, was die allgemein dynamische Natur des VSG Mantels verdeutlicht. Dies f{\"u}hrte zu der Schlussfolgerung, dass der VSG Mantel auf lebenden Trypanosomen ein dichter und dennoch dynamischer Schutzmantel ist. Die F{\"a}higkeit der VSGs ihre Konformation flexibel anzupassen, unterst{\"u}tzt das Erhalten der Fluidit{\"a}t bei variablen Dichten. Diese Eigenschaften des VSG Mantels sind elementar f{\"u}r die Aufrechterhaltung einer presistenden Infektion eines Wirtes. In dieser Arbeit werden des Weiteren verschiedene, auf Hydrogel basierende Einbettungsmethoden vorgestellt. Diese erm{\"o}glichten die Zellimmobilisierung und erlaubten EMFM in lebenden Trypanosomen. Die Hydrogele wiesen eine hohe Zytokompatibilit{\"a}t auf. Die Zellen {\"u}berlebten in den Gelen f{\"u}r eine Stunde nach Beginn der Immobilisierung. Die Hydrogele erf{\"u}llten die Anforderungen der Superresolution Mikroskopie (SRM) da sie eine geringe Autofluoreszenz im Spektralbereich der verwendeten Fluorophore besaßen. Mittels SRM konnte nachgewiesen werden, dass die Hydrogele die Zellen effizient immobilisierten. Als erstes Anwendungsbeispiel der Methode wurde die Organisation der Plasmamembran in lebenden Trypanosomen untersucht. Die Untersuchung eines fluoreszenten Tracers in der inneren Membranschicht ergab, dass dessen Verteilung nicht homogen war. Es wurden spezifische Membrandom{\"a}nen gefunden, in denen das Molek{\"u}l entweder vermehrt oder vermindert auftrat. Dies f{\"u}hrte zu der Schlussfolgerung, dass diese Verteilung durch eine Interaktion des Tracers mit Proteinen des zellul{\"a}ren Zytoskeletts zustande kam. Die in dieser Arbeit pr{\"a}sentierten Ergebnisse zeigen, dass EMFM erfolgreich f{\"u}r verschiedene biologische Untersuchungen im Forschungsfeld der Trypanosomen angewendet werden kann. Dies gilt zum Beispiel f{\"u}r die Untersuchung von der VSG Dynamik in k{\"u}nstlichen Membransystemen, aber auch f{\"u}r Studien in lebenden Zellen unter Verwendung der auf Hydrogelen basierenden Zelleinbettung.}, subject = {Trypanosoma brucei}, language = {en} }