@phdthesis{Weisert2024,
  author    = {Weisert, Nadine},
  title     = {Characterization of telomere-associated proteins in \(Trypanosoma\) \(brucei\)},
  doi       = {10.25972/OPUS-35273},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-352732},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {The unicellular pathogen Trypanosoma brucei is the causative agent of African trypanosomiasis, an endemic disease prevalent in sub-Saharan Africa. Trypanosoma brucei alternates between a mammalian host and the tsetse fly vector. The extracellular parasite survives in the mammalian bloodstream by periodically exchanging their ˈvariant surface glycoproteinˈ (VSG) coat to evade the host immune response. This antigenic variation is achieved through monoallelic expression of one VSG variant from subtelomeric ˈbloodstream form expression sitesˈ (BES) at a given timepoint. During the differentiation from the bloodstream form (BSF) to the procyclic form (PCF) in the tsetse fly midgut, the stage specific surface protein is transcriptionally silenced and replaced by procyclins. Due to their subtelomeric localization on the chromosomes, VSG transcription and silencing is partly regulated by homologues of the mammalian telomere complex such as TbTRF, TbTIF2 and TbRAP1 as well as by ˈtelomere-associated proteinsˈ (TelAPs) like TelAP1. To gain more insights into transcription regulation of VSG genes, the identification and characterization of other TelAPs is critical and has not yet been achieved. In a previous study, two biochemical approaches were used to identify other novel TelAPs. By using ˈco-immunoprecipitationˈ (co-IP) to enrich possible interaction partners of TbTRF and by affinity chromatography using telomeric repeat oligonucleotides, a listing of TelAP candidates has been conducted. With this approach TelAP1 was identified as a novel component of the telomere complex, involved in the kinetics of transcriptional BES silencing during BSF to PCF differentiation. To gain further insights into the telomere complex composition, other previously enriched proteins were characterized through a screening process using RNA interference to deplete potential candidates. VSG expression profile changes and overall proteomic changes after depletion were analyzed by mass spectrometry. With this method, one can gain insights into the functions of the proteins and their involvement in VSG expression site regulation. To validate the interaction of proteins enriched by co-IP with TbTRF and TelAP1 and to identify novel interaction proteins, I performed reciprocal affinity purifications of the four most promising candidates (TelAP2, TelAP3, PPL2 and PolIE) and additionally confirmed colocalization of two candidates with TbTRF via immunofluorescence (TelAP2, TelAP3). TelAP3 colocalizes with TbTRF and potentially interacts with TbTRF, TbTIF2, TelAP1 and TelAP2, as well as with two translesion polymerases PPL2 and PolIE in BSF. PPL2 and PolIE seem to be in close contact to each other at the telomeric ends and fulfill different roles as only PolIE is involved in VSG regulation while PPL2 is not. TelAP2 was previously characterized to be associated with telomeres by partially colocalizing with TbTRF and cells show a VSG derepression phenotype when the protein was depleted. Here I show that TelAP2 interacts with the telomere-binding proteins TbTRF and TbTIF2 as well as with the telomere-associated protein TelAP1 in BSF and that TelAP2 depletion results in a loss of TelAP1 colocalization with TbTRF in BSF. In conclusion, this study demonstrates that characterizing potential TelAPs is effective in gaining insights into the telomeric complex's composition and its role in VSG regulation in Trypanosoma brucei. Understanding these interactions could potentially lead to new therapeutic targets for combatting African trypanosomiasis.},
  subject      = {Telomer <Molekulargenetik>},
  language  = {en}
}
@phdthesis{Nirchal2024,
  author    = {Nirchal, Naveen Kumar},
  title     = {Mechanistische Regulierung des gastro{\"o}sophagealen {\"U}bergangs und die Rolle der Retins{\"a}ure bei der Entwicklung des Barrett-{\"O}sophagus},
  doi       = {10.25972/OPUS-31155},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311556},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {Der gastro{\"o}sophageale {\"U}bergang (GEJ), der die Region abgrenzt, in der der distale {\"O}sophagus auf die proximale Magenregion trifft, ist bekannt f{\"u}r die Entwicklung pathologischer Zust{\"a}nde, wie Metaplasie und Adenokarzinom des {\"O}sophagus (EAC). Es ist wichtig, die Mechanismen der Entwicklungsstadien zu verstehen, die zu EAC f{\"u}hren, da die Inzidenzrate von EAC in den letzten 4 Jahrzehnten um das 7-fache gestiegen ist und die Gesamt{\"u}berlebensrate von 5 Jahren 18,4 \% betr{\"a}gt. In den meisten F{\"a}llenwird die Diagnose im fortgeschrittenen Stadium ohne vorherige Symptome erstellt. Der Hauptvorl{\"a}ufer f{\"u}r die Entwicklung von EAC ist eine pr{\"a}maligne Vorstufe namens Barrett-{\"O}sophagus (BE). BE ist der metaplastische Zustand, bei dem das mehrschichtige Plattenepithel des nativen {\"O}sophagus durch ein spezialisiertes einschichtiges S{\"a}ulenepithel ersetzt wird, das die molekularen Eigenschaften des Magen- sowie des Darmepithels aufweist. Zu den wichtigsten Risikofaktoren f{\"u}r die Entwicklung von BE geh{\"o}ren die chronische gastro{\"o}sophageale Refluxkrankheit (GERD), eine ver{\"a}nderte Mikrobiota und ver{\"a}nderte Retins{\"a}ure-Signalwege (RA). Es ist unklar, welche Zelle der Ursprung f{\"u}r BE ist, da es keine eindeutigen Beweisen f{\"u}r den Prozess der BE-Initiation gibt. In dieser Arbeit habe ich untersucht, wie die GEJ-Hom{\"o}ostase in gesundem Gewebe durch stammzellregulatorische Morphogene aufrechterhalten wird, welche Rolle der Vitamin-A (RA-Signal{\"u}bertragung) spieltund wie ihre Ver{\"a}nderung zur BE-Entwicklung beitr{\"a}gt. Im ersten Teil meiner Dissertation habe ich anhand von Einzelmolek{\"u}l-RNA in situ-Hybridisierung und Immunhistochemie eindeutig das Vorhandensein von zwei Arten von Epithelzellen nachweisen k{\"o}nnen, dem Plattenepithel in der Speiser{\"o}hre und dem S{\"a}ulenepithel imMagenbereich des GEJ. Mittels Abstammungsanalysen im Mausmodell konnte ich zeigen, dass die Epithelzellen des {\"O}sophagus und des Magens von zwei verschiedenen epithelialen Stammzelllinien imGEJ abstammen. Die Grenze zwischen Plattenepithel und S{\"a}ulenepithelzellen im SCJ des GEJ wirddurch gegens{\"a}tzliche Wnt-Mikroumgebungen streng reguliert. Plattenepithelstammzellen des {\"O}sophagus werden durch das Wnt-hemmende Mikroumgebungssignal aufrechterhalten, w{\"a}hrend Magens{\"a}ulenepithelzellen durch das Wnt-aktivierende Signal aus dem Stromakompartiment erhalten werden. Ich habe die in vivo Erhaltung der Epithelstammzellen des GEJ mit Hilfe eines in vitro Epithel-3D-Organoidkulturmodells rekonstruiert. Das Wachstum und die Vermehrung von Magens{\"a}ulenepithel-Organoiden h{\"a}ngen von Wnt-Wachstumsfaktoren ab, w{\"a}hrend das Wachstum von Plattenepithel-Organoiden von Wnt-defizienten Kulturbedingungen abh{\"a}ngt. Dar{\"u}ber hinaus zeigte die Einzelzell-RNA-Sequenzanalyse (scRNA-seq) der aus Organoiden gewonnenenEpithelzellen, dass der nicht-kanonische Wnt/ planar cell polarity (PCP) Signalweg an der Regulierung der Plattenepithelzellen beteiligt ist. Im Gegensatz dazu werden s{\"a}ulenf{\"o}rmige Magenepithelzellen durch den kanonischen Wnt/beta-Catenin- und den nicht-kanonischen Wnt/Ca2+-Weg reguliert. Meine Daten zeigen, dass die SCJ-Epithelzellen, die am GEJ verschmelzen, durch entgegengesetzte stromale Wnt-Faktoren und unterschiedliche Wnt-Weg-Signalee in den Epithelzellen reguliert werden. Im zweiten Teil der Dissertation untersuchte ich die Rolle der bioaktiven Vitamin A Verbindung RA auf {\"O}sophagus- und Magenepithelstammzellen. Die In-vitro-Behandlung von epithelialen Organoiden der Speiser{\"o}hre und des Magens mitRA oder seinem pharmakologischen Inhibitors BMS 493 zeigte, dass jeder Zelltyp unterschiedlich reguliert wurde. Ich beobachtete, dass eine verst{\"a}rkte RA die Differenzierung von Stammzellen und den Verlust der Schichtung f{\"o}rderte, w{\"a}hrend die RA-Hemmung zu einer verst{\"a}rkten Stammzellbildung und Regeneration im mehrschichtigen Epithel der Speiser{\"o}hre f{\"u}hrte. Im Gegensatz zur Speiser{\"o}hre ist der RA-Signalweg in Magen-Organoiden aktiv, und die Hemmung von RA hat ein reduziertes Wachstum von Magen-Organoiden. Globale transkriptomische Daten und scRNA-seq-Daten zeigten, dass derRA-Signalweg einen Ruheph{\"a}notyp in den {\"O}sophaguszellen induziert. Dagegen f{\"u}hrt das Fehlen von RA in Magenepithelzellen zur Expression von Genen, die mit BE assoziiert sind. Daher isteine r{\"a}umlich definierte Regulation der Wnt- und Retins{\"a}ure-Signalgebung amGEJ entscheidend f{\"u}r eine gesunde Hom{\"o}ostase, und ihre St{\"o}rung f{\"u}hrt zur Entwicklung von Krankheiten.},
  subject      = {Retinoes{\"a}ure},
  language  = {en}
}
@phdthesis{Koenig2024,
  author    = {K{\"o}nig, Sebastian Thomas},
  title     = {Temperature-driven assembly processes of Orthoptera communities: Lessons on diversity, species traits, feeding interactions, and associated faecal microorganisms from elevational gradients in Southern Germany (Berchtesgaden Alps)},
  doi       = {10.25972/OPUS-35460},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-354608},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {Chapter I: Introduction Temperature is a major driver of biodiversity and abundance patterns on our planet, which becomes particularly relevant facing the entanglement of an imminent biodiversity and climate crisis. Climate shapes the composition of species assemblages either directly via abiotic filtering mechanisms or indirectly through alterations in biotic interactions. Insects - integral elements of Earth's ecosystems - are affected by climatic variation such as warming, yet responses vary among species. While species' traits, antagonistic biotic interactions, and even species' microbial mutualists may determine temperature-dependent assembly processes, the lion's share of these complex relationships remains poorly understood due to methodological constraints. Mountains, recognized as hotspots of diversity and threatened by rapidly changing climatic conditions, can serve as natural experimental settings to study the response of insect assemblages and their trophic interactions to temperature variation, instrumentalizing the high regional heterogeneity of micro- and macroclimate. With this thesis, we aim to enhance our mechanistic understanding of temperature-driven assembly processes within insect communities, exemplified by Orthoptera, that are significant herbivores in temperate mountain grassland ecosystems. Therefore, we combined field surveys of Orthoptera assemblages on grassland sites with molecular tools for foodweb reconstruction, primarily leveraging the elevational gradients offered by the complex topography within the Berchtesgaden Alpine region (Bavaria, Germany) as surrogate for temperature variation (space-for-time substitution approach). In this framework, we studied the effects of temperature variation on (1) species richness, abundance, community composition, and interspecific as well as intraspecific trait patterns, (2) ecological feeding specialisation, and (3) previously neglected links to microbial associates found in the faeces. Chapter II: Temperature-driven assembly processes Climate varies at multiple scales. Since microclimate is often overlooked, we assessed effects of local temperature deviations on species and trait compositions of insect communities along macroclimatic temperature gradients in Chapter II. Therefore, we employed joint species distribution modelling to explore how traits drive variation in the climatic niches of Orthoptera species at grassland sites characterized by contrasting micro- and macroclimatic conditions. Our findings revealed two key insights: (1) additive effects of micro- and macroclimate on the diversity, but (2) interactive effects on the abundance of several species, resulting in turnover and indicating that species possess narrower climatic niches than their elevational distributions might imply. This chapter suggests positive effects of warming on Orthoptera, but also highlights that the interplay of macro- and microclimate plays a pivotal role in structuring insect communities. Thus, it underscores the importance of considering both elements when predicting the responses of species to climate change. Additionally, this chapter revealed inter- and intraspecific effects of traits on the niches and distribution of species. Chapter III: Dietary specialisation along climatic gradients A crucial trait linked to the position of climatic niches is dietary specialisation. According to the 'altitudinal niche-breadth hypothesis', species of high-elevation habitats should be less specialized compared to their low-elevation counterparts. However, empirical evidence on shifts in specialization is scarce for generalist insect herbivores and existing studies often fail to control for the phylogeny and abundance of interaction partners. In Chapter III, we used a combination of field observations and amplicon sequencing to reconstruct dietary relationships between Orthoptera and plants along an extensive temperature gradient. We did not find close but flexible links between individual grasshopper and plant taxa in space. While interaction network specialisation increased with temperature, the corrected dietary specialisation pattern peaked at intermediate elevations on assemblage level. These nuanced findings demonstrate that (1) resource availability, (2) phylogenetic relationships, and (3) climate can affect empirical foodwebs intra- and interspecifically and, hence, the dietary specialisation of herbivorous insects. In this context, we discuss that the underlying mechanisms involved in shaping the specialisation of herbivore assemblages may switch along temperature clines. Chapter IV: Links between faecal microbe communities, feeding habits, and climate Since gut microbes affect the fitness and digestion of insects, studying their diversity could provide novel insights into specialisation patterns. However, their association with insect hosts that differ in feeding habits and specialisation has never been investigated along elevational climatic gradients. In Chapter IV, we utilized the dietary information gathered in Chapter III to characterize links between insects with distinct feeding behaviour and the microbial communities present in their faeces, using amplicon sequencing. Both, feeding and climate affected the bacterial communities. However, the large overlap of microbes at site level suggests that common bacteria are acquired from the shared feeding environment, such as the plants consumed by the insects. These findings emphasize the influence of a broader environmental context on the composition of insect gut microbial communities. Chapter V: Discussion \& Conclusions Cumulatively, the sections of this dissertation provide support for the hypothesis that climatic conditions play a role in shaping plant-herbivore systems. The detected variation of taxonomic and functional compositions contributes to our understanding of assembly processes and resulting diversity patterns within Orthoptera communities, shedding light on the mechanisms that structure their trophic interactions in diverse climates. The combined results presented suggest that a warmer climate could foster an increase of Orthoptera species richness in Central European semi-natural grasslands, also because the weak links observed between insect herbivores and plants are unlikely to limit decoupled range shifts. However, the restructuring of Orthoptera communities in response to warmer temperatures depends on species' traits such as moisture preferences or phenology. Notably, we were able to demonstrate a crucial role of microclimate for many species, partly unravelling narrower climatic niches than their elevational ranges suggest. We found evidence that not only Orthoptera community composition, specialisation, and traits varied along elevational gradients, but even microbial communities in the faeces of Orthoptera changed, which is a novel finding. This complex restructuring and reassembly of communities, coupled with the nonlinear specialisation of trophic interactions and a high diversity of associated bacteria, emphasize our currently incomplete comprehension of how ecosystems will develop under future climatic conditions, demanding caution in making simplified predictions for biodiversity change under climate warming. Since these predictions may benefit from including biotic interactions and both, micro- and macroclimate based on our findings, conservation authorities and practitioners must not neglect improving microclimatic conditions to ensure local survival of a diverse set of threatened and demanding species. In this context, mountains can play a pivotal role for biodiversity conservation since these offer heterogeneous microclimatic conditions in proximity that can be utilized by species with distinct niches.},
  subject      = {Heuschrecken},
  language  = {en}
}
@phdthesis{MaierverhHartmann2024,
  author    = {Maier [verh. Hartmann], Carina Ramona},
  title     = {Regulation of the Mevalonate Pathway by the Deubiquitinase USP28 in Squamous Cancer},
  doi       = {10.25972/OPUS-34874},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348740},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {The reprogramming of metabolic pathways is a hallmark of cancer: Tumour cells are dependent on the supply with metabolites and building blocks to fulfil their increased need as highly proliferating cells. Especially de novo synthesis pathways are upregulated when the cells of the growing tumours are not able to satisfy the required metabolic levels by uptake from the environment. De novo synthesis pathways are often under the control of master transcription factors which regulate the gene expression of enzymes involved in the synthesis process. The master regulators for de novo fatty acid synthesis and cholesterogenesis are sterol regulatory element-binding proteins (SREBPs). While SREBP1 preferably controls the expression of enzymes involved in fatty acid synthesis, SREBP2 regulates the transcription of the enzymes of the mevalonate pathway and downstream processes namely cholesterol, isoprenoids and building blocks for ubiquinone synthesis. SREBP activity is tightly regulated at different levels: The post-translational modification by ubiquitination decreases the stability of active SREBPs. The attachment of K48-linked ubiquitin chains marks the transcription factors for the proteasomal degradation. In tumour cells, high levels of active SREBPs are essential for the upregulation of the respective metabolic pathways. The increased stability and activity of SREBPs were investigated in this thesis. SREBPs are ubiquitinated by the E3 ligase Fbw7 which leads to the subsequential proteolysis of the transcription factors. The work conducted in this thesis identified the counteracting deubiquitination enzyme USP28 which removes the ubiquitin chains from SREBPs and prevents their proteasomal degradation. It further revealed that the stabilization of SREBP2 by USP28 plays an important role in the context of squamous cancers. Increased USP28 levels are associated with a poor survival in patients with squamous tumour subtypes. It was shown that reduced USP28 levels in cell lines and in vivo result in a decrease of SREBP2 activity and downregulation of the mevalonate pathway. This manipulation led to reduced proliferation and tumour growth. A direct comparison of adenocarcinomas and squamous cell carcinomas in lung cancer patients revealed an upregulation of USP28 as well as SREBP2 and its target genes. Targeting the USP28-SREBP2 regulatory axis in squamous cell lines by inhibitors also reduced cell viability and proliferation. In conclusion, this study reports evidence for the importance of the mevalonate pathway regulated by the USP28-SREBP2 axis in tumour initiation and progression of squamous cancer. The combinatorial inhibitor treatment of USP28 and HMGCR, the rate limiting enzyme of the mevalonate pathway, by statins opens the possibility for a targeted therapeutic treatment of squamous cancer patients.},
  subject      = {Ubiquitin},
  language  = {en}
}
@phdthesis{BakariSoale2024,
  author    = {Bakari Soale, Majeed},
  title     = {Regulation of the Variant Surface Glycoprotein (VSG) Expression and Characterisation of the Nucleolar DExD/H box Protein Hel66 in \(Trypanosoma\) \(brucei\)},
  doi       = {10.25972/OPUS-25809},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-258090},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {The variant surface glycoprotein (VSG) of African trypanosomes plays an essential role in protecting the parasites from host immune factors. These trypanosomes undergo antigenic variation resulting in the expression of a single VSG isoform out of a repertoire of around 2000 genes. The molecular mechanism central to the expression and regulation of the VSG is however not fully understood. Gene expression in trypanosomes is unusual due to the absence of typical RNA polymerase II promoters and the polycistronic transcription of genes. The regulation of gene expression is therefore mainly post-transcriptional. Regulatory sequences, mostly present in the 3´ UTRs, often serve as key elements in the modulation of the levels of individual mRNAs. In T. brucei VSG genes, a 100 \% conserved 16mer motif within the 3´ UTR has been shown to modulate the stability of VSG transcripts and hence their expression. As a stability-associated sequence element, the absence of nucleotide substitutions in the motif is however unusual. It was therefore hypothesised that the motif is involved in other essential roles/processes besides stability of the VSG transcripts. In this study, it was demonstrated that the 100 \% conservation of the 16mer motif is not essential for cell viability or for the maintenance of functional VSG protein levels. It was further shown that the intact motif in the active VSG 3´ UTR is neither required to promote VSG silencing during switching nor is it needed during differentiation from bloodstream forms to procyclic forms. Crosstalk between the VSG and procyclin genes during differentiation to the insect vector stage is also unaffected in cells with a mutated 16mer motif. Ectopic overexpression of a second VSG however requires the intact motif to trigger silencing and exchange of the active VSG, suggesting a role for the motif in transcriptional VSG switching. The 16mer motif therefore plays a dual role in VSG in situ switching and stability of VSG transcripts. The additional role of the 16mer in the essential process of antigenic variation appears to be the driving force for the 100 \% conservation of this RNA motif. A screen aimed at identifying candidate RNA-binding proteins interacting with the 16mer motif, led to the identification of a DExD/H box protein, Hel66. Although the protein did not appear to have a direct link to the 16mer regulation of VSG expression, the DExD/H family of proteins are important players in the process of ribosome biogenesis. This process is relatively understudied in trypanosomes and so this candidate was singled out for detailed characterisation, given that the 16mer story had reached a natural end point. Ribosome biogenesis is a major cellular process in eukaryotes involving ribosomal RNA, ribosomal proteins and several non-ribosomal trans-acting protein factors. The DExD/H box proteins are the most important trans-acting protein factors involved in the biosynthesis of ribosomes. Several DExD/H box proteins have been directly implicated in this process in yeast. In trypanosomes, very few of this family of proteins have been characterised and therefore little is known about the specific roles they play in RNA metabolism. Here, it was shown that Hel66 is involved in rRNA processing during ribosome biogenesis. Hel66 localises to the nucleolus and depleting the protein led to a severe growth defect. Loss of the protein also resulted in a reduced rate of global translation and accumulation of rRNA processing intermediates of both the small and large ribosomal subunits. Hel66 is therefore an essential nucleolar DExD/H protein involved in rRNA processing during ribosome biogenesis. As very few protein factors involved in the processing of rRNAs have been described in trypanosomes, this finding represents an important platform for future investigation of this topic.},
  subject      = {Trypanosoma brucei},
  language  = {en}
}
@phdthesis{Pitsch2024,
  author    = {Pitsch, Maximilian Jonathan},
  title     = {Zyklisches Adenosinmonophosphat (cAMP) als {\"A}quivalent akkumulierter neuronaler Evidenz},
  doi       = {10.25972/OPUS-35129},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-351292},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {Die vier Crz-Neurone des ventralen Nervensystems von Drosophila melanogaster sammeln Evidenz, wann im Rahmen eines Paarungsakts zirka 6 Minuten vergangen sind. Diese Entscheidung ist f{\"u}r die m{\"a}nnliche Fliege von Bedeutung, da das M{\"a}nnchen vor Ablauf dieser ~6 Minuten, welche den Zeitpunkt der Ejakulation darstellen, eher das eigene Leben opfern w{\"u}rde, als dass es die Paarung beenden w{\"u}rde. Nach Ablauf der ~6 Minuten f{\"a}llt die Motivation des M{\"a}nnchens dagegen dramatisch ab. Im Rahmen der vorliegenden Arbeit wurde zun{\"a}chst mittels optogenetischer neuronaler Inhibitionsprotokolle sowie Verhaltensanalysen das Ph{\"a}nomen der Evidenz-akkumulation in den Crz-Neuronen genauer charakterisiert. Dabei zeigte sich, dass die akkumulierte Evidenz auch w{\"a}hrend einer elektrischen Inhibition der Crz-Neurone persistierte. Dieses Ergebnis warf die Hypothese auf, dass das {\"A}quivalent der akkumulierten Evidenz in den Crz-Neuronen biochemischer Natur sein k{\"o}nnte. Es wurde daraufhin ein Hochdurchsatzscreening-Verfahren entwickelt, mittels dessen 1388 genetische Manipulationen der Crz-Neurone durchgef{\"u}hrt und auf eine {\"A}nderung der Evidenzakkumulation getestet wurden. Nur ~30 genetische Manipulationen zeigten eine ver{\"a}nderte Evidenzakkumulation, wobei die meisten dieser Manipulationen den cAMP-Signalweg betrafen. Mittels der optogenetischen Photoadenylatzyklase bPAC, einer Reihe weiterer genetischer Manipulationen des cAMP-Signalwegs sowie der ex vivo Kalzium-Bildgebung und Fluoreszenzlebensdauer-Mikroskopie konnte best{\"a}tigt werden, dass cAMP das {\"A}quivalent der in den Crz-Neuronen spannungsabh{\"a}ngig akkumulierten Evidenz darstellt, wobei die Kombination dieser Methoden nahelegte, dass der Schwellenwert der Evidenzakkumulation durch die cAMP-Bindungsaffinit{\"a}t der regulatorischen PKA-Untereinheiten festgelegt sein k{\"o}nnte. Mittels genetischer Mosaikexperimente sowie bildgebenden Verfahren konnte dar{\"u}ber hinaus gezeigt werden, dass innerhalb des Crz-Netzwerks eine positive R{\"u}ckkopplungsschleife aus rekurrenter Aktivit{\"a}t sowie der cAMP-Akkumulation besteht, welche, sobald die cAMP-Spiegel den Schwellenwert erreichen, zu einem netzwerkweit synchronisierten massiven Kalziumeinstrom f{\"u}hrt, was die Abgabe des Crz-Signals an nachgeschaltete Netzwerke triggert. Dieses Ph{\"a}nomen k{\"o}nnte ein Analogon des Aktionspotenzials auf Netzwerkebene sowie auf Intervallzeitskalen darstellen und wurde als „Eruption" bezeichnet. Genetische, optogenetische sowie Bildgebungsexperimente konnten zeigen, dass die CaMKII derartige Eruptionen durch Niedrighalten der cAMP-Spiegel unterdr{\"u}ckt, was den Zeitmessmechanismus des ersten beschriebenen Intervallzeitmessers CaMKII offenlegt.},
  subject      = {Evidenz},
  language  = {de}
}
@phdthesis{Helmerich2023,
  author    = {Helmerich, Dominic Andreas},
  title     = {Einfl{\"u}sse der Photophysik und Photochemie von Cyaninfarbstoffen auf die Lokalisationsmikroskopie},
  doi       = {10.25972/OPUS-24716},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-247161},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {In den letzten Jahren haben sich hochaufl{\"o}sende Fluoreszenzmikroskopiemethoden, basierend auf der Lokalisation einzelner Fluorophore, zu einem leistungsstarken Werkzeug etabliert, um Fluoreszenzbilder weit unterhalb der Aufl{\"o}sungsgrenze zu generieren. Hiermit k{\"o}nnen r{\"a}umliche Aufl{\"o}sungen von ~ 20 nm erzielt werden, was weit unterhalb der Beugungsgrenze liegt. Dabei haben zahlreiche Optimierungen und Entwicklungen neuer Methoden in der Einzelmolek{\"u}l-Lokalisationsmikroskopie die Genauigkeit der orstspezifischen Bestimmung einzelner Fluorophore auf bis zu ~ 1 - 3 nm erh{\"o}ht. Eine Aufl{\"o}sung im molekularen Bereich, weit unterhalb von ~ 10 nm bleibt allerdings herausfordernd, da die Lokalisationsgenauigkeit nur ein Kriterium hierf{\"u}r ist. Allerdings wurde sich in den letzten Jahren {\"u}berwiegend auf die Verbesserung dieses Parameters konzentriert. Weitere Kriterien f{\"u}r die fluoreszenzmikroskopische Aufl{\"o}sung sind dabei unter anderem die Markierungsdichte und die Kopplungseffizienz der Zielstruktur, sowie der Kopplungsfehler (Abstand zur Zielstruktur nach Farbstoffkopplung), die sich herausfordernd f{\"u}r eine molekulare Aufl{\"o}sung darstellen. Auch wenn die Kopplungseffizienz und -dichte hoch und der Kopplungsfehler gering ist, steigt bei Interfluorophordistanzen < 5nm, abh{\"a}ngig von den Farbstoffen, die Wahrscheinlichkeit von starken und schwachen Farbstoffwechselwirkungen und damit von Energie{\"u}bertragungsprozessen zwischen den Farbstoffen, stark an. Daneben sollten Farbstoffe, abh{\"a}nging von der Lokalisationsmikroskopiemethode, spezifische Kriterien, wie beispielsweise die Photoschaltbarkeit bei dSTORM, erf{\"u}llen, was dazu f{\"u}hrt, dass diese Methoden h{\"a}ufig nur auf einzelne Farbstoffe beschr{\"a}nkt sind. In dieser Arbeit konnte mithilfe von definierten DNA-Origami Konstrukten gezeigt werden, dass das Blinkverhalten von Cyaninfarbstoffen unter dSTORM-Bedingungen einer Abstandsabh{\"a}ngigkeit aufgrund von spezifischen Energie{\"u}bertragungsprozessen folgt, womit Farbstoffabst{\"a}nde im sub-10 nm Bereich charakterisiert werden konnten. Dar{\"u}ber hinaus konnte diese Abstandsabh{\"a}ngigkeit an biologischen Proben gezeigt werden. Hierbei konnten verschiedene zellul{\"a}re Rezeptoren effizient und mit geringem Abstandsfehler zur Zielstruktur mit Cyaninfarbstoffen gekoppelt werden. Diese abstandsabh{\"a}nigen Prozesse und damit Charakterisierungen k{\"o}nnten dabei nicht nur spezifisch f{\"u}r die h{\"a}ufig unter dSTORM-Bedingungen verwendeten Cyaninfarbstoffen g{\"u}ltig sein, sondern auch auf andere Farbstoffklassen, die einen Auszustand zeigen, {\"u}bertragbar sein. Dar{\"u}ber hinaus konnte gezeigt werden, dass hochaufl{\"o}sende dSTORM Aufnahmen unabh{\"a}ngig vom Farbstoffkopplungsgrad der Antik{\"o}rpern sind, welche h{\"a}ufig f{\"u}r Standardf{\"a}rbungen von zellul{\"a}ren Strukturen verwendet werden. Dabei konnte durch Photonenkoinzidenzmessungen dargelegt werden, dass aufgrund komplexer Farbstoffwechselwirkungen im Mittel nur ein Farbstoff aktiv ist, wobei h{\"o}here Kopplungsgrade ein komplexes Blinkverhalten zu Beginn der Messung zeigen. Durch die undefinierten Farbstoffabst{\"a}nde an Antik{\"o}rpern konnte hier kein eindeutiger Energie{\"u}bertragungsmechanismus entschl{\"u}sselt werden. Dennoch konnte gezeigt werden, dass Farbstoffaggregate bzw. H-Dimere unter dSTORM-Bedingungen destabilisiert werden. Durch die zuvor erw{\"a}hnten DNA-Origami Konstrukte definierter Interfluorophordistanzen konnten Energie{\"u}bertragungsmechanismen entschl{\"u}sselt werden, die auch f{\"u}r die Antik{\"o}rper diverser Kopplungsgrade g{\"u}ltig sind. Des Weiteren konnten, ausgel{\"o}st durch komplexe Energie{\"u}bertragungsprozesse h{\"o}herer Kopplungsgrade am Antik{\"o}rper, Mehrfarbenaufnahmen zellul{\"a}rer Strukturen generiert werden, die {\"u}ber die spezifische Fluoreszenzlebenszeit separiert werden konnten. Dies stellt hier eine weitere M{\"o}glichkeit dar, unter einfachen Bedingungen, schnelle Mehrfarbenaufnahmen zellul{\"a}rer Strukturen zu generieren. Durch die Verwendung des selben Farbstoffes unterschiedlicher Kopplungsgrade kann hier nur mit einer Anregungswellenl{\"a}nge und frei von chromatischer Aberration gearbeitet werden. Neben den photophysikalischen Untersuchungen der Cyaninfarbstoffe Cy5 und Alexa Fluor 647 wurden diese ebenso photochemisch n{\"a}her betrachtet. Dabei konnte ein neuartiger chemischer Mechanismus entschl{\"u}sselt werden. Dieser Mechanismus f{\"u}hrt, ausgel{\"o}st durch Singulett-Sauerstoff (1O2), zu einer Photozerschneidung des konjugierten Doppelbindungssystems um zwei Kohlenstoffatome, was zu strukturellen und spektroskopischen Ver{\"a}nderungen dieser Farbstoffe f{\"u}hrt. Auf Grundlage dieses Mechanismus konnte eine neue DNA-PAINT Methode entwickelt werden, die zu einer Beschleunigung der Aufnahmezeit f{\"u}hrt.},
  subject      = {Einzelmolek{\"u}lmikroskopie},
  language  = {de}
}
@phdthesis{WasgebHouben2023,
  author    = {Was [geb. Houben], Nina},
  title     = {Die Rolle der nicht-kodierenden RNAs miR-26 und \(Malat1\) bei der \(in\) \(vitro\) Differenzierung zu Neuronen},
  doi       = {10.25972/OPUS-30371},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303714},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {W{\"a}hrend der embryonalen Neurogenese spielt die Repression neuraler Gene in nicht neuralen Zellen, sowie in neuralen Vorl{\"a}uferzellen durch den REST (repressor element silencing transcription factor)-Komplex eine wichtige Rolle. Durch die schrittweise Inaktivierung diese Komplexes im Verlauf der Differenzierung werden neurale Genexpressionsprogramme gesteuert. Zus{\"a}tzlich kommt bei der Kontrolle der r{\"a}umlichen und zeitlichen Regulation der Genexpression w{\"a}hrend der Neurogenese verschiedenen miRNAs eine wichtige Rolle zu. So konnte in vorangegangenen Arbeiten im Zebrafischen gezeigt werden, dass miR-26b die Transkription eines wichtigen Effektorproteins des REST-Komplexes, CTDSP2 (C-terminal domain small phosphatases), w{\"a}hrend der Neurogenese negativ reguliert. Da dar{\"u}ber hinaus die miR-26 Repression zu einer stark verminderten neuronalen Differenzierung f{\"u}hrte, kommt diesem regulatorischen Schaltkreis eine zentrale Rolle bei der Neurogenese im Zebrafisch zu. Die zusammen mit ihren Ctdsp-Wirtsgenen koexprimierte miR-26 Familie liegt in Vertebraten evolution{\"a}r hoch konserviert vor. Analog zum Zebrafisch konnte im murinen in vitro ES-Zell Differenzierungssystem gezeigt werden, dass miR-26 die Expression von Ctdsp2 reprimiert. Weiterhin konnte in diesem System gezeigt werden, dass auch Rest ein miR-26 Zielgen ist und dass der Verlust der miR-26 zu einem Arrest der differenzierenden Zellen im neuronalen Vorl{\"a}uferstadium f{\"u}hrt. Zusammengenommen deuten diese vorangegangenen Arbeiten auf eine zentrale Rolle der miR-26 w{\"a}hrend der Neurogenese hin. Die hier vorgestellte Arbeit zielte zun{\"a}chst darauf ab die Regulation des REST-Komplexes durch die miR-26 auf molekularer Ebene besser zu verstehen. Der Verlust der miR-26 Bindestelle in der Ctdsp2 mRNA f{\"u}hrte zu einer erh{\"o}hten Ctdsp2 Expression, beeinflusste aber nicht die terminale Differenzierung zu Neuronen. Im Gegensatz hierzu f{\"u}hrte der Verlust der miR-26 Bindestelle in der Rest mRNA zu einem Arrest der Differenzierung im neuralen Vorl{\"a}uferzellstadium. Zellen in denen die miR-26 Bindestelle in Rest deletiert war, zeigten zudem, genau wie miR-26 knockout (KO) Zellen, eine erh{\"o}hte Expression von REST-Komplex Komponenten, sowie eine verringerte Expression von REST-regulierten miRNAs. Zusammengenommen weisen diese Daten daraufhin, dass w{\"a}hrend der Neurogenese im S{\"a}ugersystem die Inaktivierung von Rest durch miR-26 f{\"u}r die Maturierung von Neuronen eine zentrale Rolle spielt. Ein weiterer Fokus dieser Arbeit lag auf der Regulation der miR-26 Expression w{\"a}hrend der Neurogenese. Vorangegangene Arbeiten in nicht-neuronalen Zelltypen identifizierten die lnc (long-non-coding) RNA Malat1 als eine ce (competitive endogenous) RNA der miR-26. Um den Einfluss von Malat1 auf die miR-26 Expression w{\"a}hrend der Neurogenese zu untersuchen, wurde zun{\"a}chst mittels CRISPR/Cas9 der vollst{\"a}ndige Malat1-Lokus in ESCs deletiert. Der Verlust von Malat1 f{\"u}hrte zu einer erh{\"o}hten Expression der miR-26 Familienmitglieder sowie deren Ctdsp-Wirtsgene. Weiterhin war die Proliferation von Malat1 KO neuronalen Vorl{\"a}uferzellen stark vermindert, was mit einer Erh{\"o}hung der Frequenz seneszenter Zellen einherging. Durch die Inaktivierung von miR-26 in differenzierenden Malat1 KO ESCs konnte dieser proliferative Ph{\"a}notyp aufgehoben werden. Dar{\"u}ber hinaus konnte eine verst{\"a}rkte neuronale Differenzierung dieser Zellen beobachtet werden. Zusammenfassend zeigen diese Daten, dass neben der Regulation des REST-Komplexes durch miR-26 auch die Kontrolle des Zellzyklus {\"u}ber die Malat1-vermittelte Regulation der miR-26 in neuronalen Vorl{\"a}uferzellen einen kritischen Schritt bei der Differenzierung von neuronalen Vorl{\"a}uferzellen zu maturen Neuronen darstellt.},
  subject      = {Neurogenese},
  language  = {de}
}
@phdthesis{Petrov2023,
  author    = {Petrov, Ivan},
  title     = {Combinational therapy of tumors in syngeneic mouse tumor models with oncolytic Vaccinia virus strains expressing IL-2 and INF-g. Human adipose tissue-derived stem cell mediated delivery of oncolytic Vaccinia virus},
  doi       = {10.25972/OPUS-27355},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-273550},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Cancer is one of the leading causes of death worldwide, with currently assessed chances to develop at least one cancer in a lifetime for about 20\%. High cases rates and mortality require the development of new anticancer therapies and treatment strategies. Another important concern is toxicity normally associated with conventional therapy methods, such as chemo- and radiotherapy. Among many proposed antitumoral agents, oncolytic viruses are still one of the promising and fast-developing fields of research with almost a hundred studies published data on over 3000 patients since the beginning of the new millennia. Among all oncolytic viruses, the Vaccinia virus is arguably one of the safest, with an extremely long and prominent history of use, since it was the one and only vaccine used in the Smallpox Eradication Program in the 1970s. Interestingly enough, it was the first oncolytic virus proven to have tumor tropism in vitro and in vivo in laboratory settings, and this year we can celebrate an unofficial 100th anniversary since the publication of the fact. While being highly immunogenic, Vaccinia virus DNA replication takes place in the cytoplasm of the infected cell, and virus genes never integrate into the host genome. Another advantage of using Vaccinia as an oncolytic agent is its high genome capacity, which allows inserting up to 25 kbps of exogenous genes, thus allowing to additionally arm the virus against the tumor. Oncolytic virus action consists of two major parts: direct oncolysis and immune activation against the tumor, with the latter being the key to successful treatment. To this moment, preclinical research data are mostly generated in immunocompromised xenograft models, which have hurdles to be properly translated for clinical use. In the first part of the current study, fourteen different recombinant Vaccinia virus strains were tested in two different murine tumor cell lines and corresponding immunocompetent animal models. We found, that Copenhagen backbone Vaccinia viruses while being extremely effective in cell culture, do not show significant oncolytic efficacy in animals. In contrast, several of the LIVP backbone viruses tested (specifically, IL-2 expressing ones) have little replication ability when compared to the Copenhagen strain, but are able to significantly delay tumor growth and prolong survival of the treated animals. We have also noted cytokine related toxicity of the animals to be mouse strain specific. We have also tested the virus with the highest therapeutic benefit in combination with romidepsin and cyclophosphamide. While the combination with histone deacetylase inhibitor romidepsin did not result in therapeutic benefit in our settings, the addition of cyclophosphamide significantly improved the efficacy of the treatment, at the same time reducing cytokine-associated toxicity of the IL-2 expressing virus. In the second part of the work, we analyzed the ability of adipose-derived mesenchymal stem cells to serve as a carrier for the oncolytic Vaccinia virus. We showed for the first time that the cells can be infected with the virus and can generate virus progeny. They are also able to survive for a substantially long time and, when injected into the bloodstream of tumor-bearing animals, produce the virus that is colonizing the tumor. Analysis of the systemic distribution of the cells after injection revealed that infected and uninfected cells are not distributed in the same manner, possibly suggesting that infected cells are getting recognized and cleared by an impaired immune system of athymic mice faster than non-infected cells. Despite this, injection of virus-loaded adipose-derived mesenchymal stem cells to human A549 tumor-bearing xenograft mice resulted in rapid tumor regression and reduced virus-related side effects of the treatment when compared to injection of the naked virus. In conclusion, we have tested two different approaches to augmenting oncolytic Vaccinia virus therapy. First, the combination of recombinant Vaccinia virus expressing IL-2 and cyclophosphamide showed promising results in a syngeneic mouse model, despite the low permissivity of murine cells to the virus. Second, we loaded the oncolytic Vaccinia virus into mesenchymal stem cells and have proven that they can potentially serve as a vehicle for the virus.},
  subject      = {Vaccinia-virus},
  language  = {en}
}
@phdthesis{Nguyen2023,
  author    = {Nguyen, Tu Anh Thi},
  title     = {Neural coding of different visual cues in the monarch butterfly sun compass},
  doi       = {10.25972/OPUS-30380},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-303807},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Monarch butterflies are famous for their annual long-distance migration. Decreasing temperatures and reduced daylight induce the migratory state in the autumn generation of monarch butterflies. Not only are they in a reproductive diapause, they also produce fat deposits to be prepared for the upcoming journey: Driven by their instinct to migrate, they depart from their eclosion grounds in the northern regions of the North American continent and start their southern journey to their hibernation spots in Central Mexico. The butterflies cover a distance of up to 4000 km across the United States. In the next spring, the same butterflies invert their preferred heading direction due to seasonal changes and start their northward spring migration. The spring migration is continued by three consecutive butterfly generations, until the animals repopulate the northern regions in North America as non-migratory monarch butterflies. The monarch butterflies' migratory state is genetically and epigenetically regulated, including the directed flight behavior. Therefore, the insect's internal compass system does not only have to encode the butterflies preferred, but also its current heading direction. However, the butterfly's internal heading representation has to be matched to external cues, to avoid departing from its initial flight path and increasing its risk of missing its desired destination. During the migratory flight, visual cues provide the butterflies with reliable orientation information. The butterflies refer to the sun as their main orientation cue. In addition to the sun, the butterflies likely use the polarization pattern of the sky for orientation. The sky compass signals are processed within a region in the brain, termed the central complex (CX). Previous research on the CX neural circuitry of the monarch butterflies demonstrated that tangential central complex neurons (TL) carry the visual input information into the CX and respond to a simulated sun and polarized light. However, whether these cells process additional visual cues like the panoramic skyline is still unknown. Furthermore, little is known about how the migratory state affects visual cue processing. In addition to this, most experiments studying the monarch butterfly CX focused on how neurons process single visual cues. However, how combined visual stimuli are processed in the CX is still unknown. This thesis is investigating the following questions: 1) How does the migratory state affect visual cue processing in the TL cells within the monarch butterfly brain? 2) How are multiple visual cues integrated in the TL cells? 3) How is compass information modulated in the CX? To study these questions, TL neurons from both animal groups (migratory and non-migratory) were electrophysiologically characterized using intracellular recordings while presenting different simulated celestial cues and visual sceneries. I showed that the TL neurons of migratory butterflies are more narrowly tuned to the sun, possibly helping them in keeping a directed flight course during migration. Furthermore, I found that TL cells encode a panoramic skyline, suggesting that the CX network combines celestial and terrestrial information. Experiments with combined celestial stimuli revealed that the TL cells combine both cue information linearly. However, if exposing the animals to a simulated visual scenery containing a panoramic skyline and a simulated sun, the single visual cues are weighted differently. These results indicate that the CX's input region can flexibly adapt to different visual cue conditions. Furthermore, I characterize a previously unknown neuron in the monarch butterfly CX which responds to celestial stimuli and connects the CX with other brain neuropiles. How this cell type affects heading direction encoding has yet to be determined.},
  subject      = {Monarchfalter},
  language  = {en}
}