@phdthesis{Yang2021,
  author    = {Yang, Tao},
  title     = {Functional insights into the role of a bacterial virulence factor and a host factor in Neisseria gonorrhoeae infection},
  doi       = {10.25972/OPUS-20895},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-208959},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Neisseria gonorrhoeae (GC) is a human specific pathogenic bacterium. Currently, N. gonorrhoeae developed resistance to virtually all the available antibiotics used for treatment. N. gonorrhoeae starts infection by colonizing the cell surface, followed by invasion of the host cell, intracellular persistence, transcytosis and exit into the subepithelial space. Subepithelial bacteria can reach the bloodstream and disseminate to other tissues causing systemic infections, which leads to serious conditions such as arthritis and pneumonia. A number of studies have well established the host-pathogen interactions during the initial adherence and invasion steps. However, the mechanism of intracellular survival and traversal is poorly understood so far. Hence, identification of novel bacterial virulence factors and host factors involved in the host-pathogen interaction is a crucial step in understanding disease development and uncovering novel therapeutic approaches. Besides, most of the previous studies about N. gonorrhoeae were performed in the conventional cell culture. Although they have provided insights into host-pathogen interactions, much information about the native infection microenvironment, such as cell polarization and barrier function, is still missing. This work focused on determining the function of novel bacterial virulence factor NGFG_01605 and host factor (FLCN) in gonococcal infection. NGFG_01605 was identified by Tn5 transposon library screening. It is a putative U32 protease. Unlike other proteins in this family, it is not secreted and has no ex vivo protease activity. NGFG_01605 knockout decreases gonococcal survival in the epithelial cell. 3D models based on T84 cell was developed for the bacterial transmigration assay. NGFG_01605 knockout does not affect gonococcal transmigration. The novel host factor FLCN was identified by shRNA library screening in search for factors that affected gonococcal adherence and/or internalization. We discovered that FLCN did not affect N. gonorrhoeae adherence and invasion but was essential for bacterial survival. Since programmed cell death is a host defence mechanism against intracellular pathogens, we further explored apoptosis and autophagy upon gonococcal infection and determined that FLCN did not affect apoptosis but inhibited autophagy. Moreover, we found that FLCN inhibited the expression of E-cadherin. Knockdown of E- cadherin decreased the autophagy flux and supported N. gonorrhoeae survival. Both non-polarized and polarized cells are present in the cervix, and additionally, E-cadherin represents different polarization properties on these different cells. Therefore, we established 3-D models to better understand the functions of FLCN. We discovered that FLCN was critical for N. gonorrhoeae survival in the 3-D environment as well, but not through inhibiting autophagy. Furthermore, FLCN inhibits the E-cadherin expression and disturbs its polarization in the 3-D models. Since N. gonorrhoeae can cross the epithelial cell barriers through both cell-cell junctions and transcellular migration, we further explored the roles FLCN and E-cadherin played in transmigration. FLCN delayed N. gonorrhoeae transmigration, whereas the knockdown of E-cadherin increased N. gonorrhoeae transmigration. In summary, we revealed roles of the NGFG_01605 and FLCN-E-cadherin axis play in N. gonorrhoeae infection, particularly in relation to intracellular survival and transmigration. This is also the first study that connects FLCN and human-specific pathogen infection.},
  language  = {en}
}
@phdthesis{Hausmann2020,
  author    = {Hausmann, Michael},
  title     = {Analyse der Genexpression verschiedener Kandidatengene und der Methylierung im Xiphophorus Melanom},
  doi       = {10.25972/OPUS-20525},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-205258},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Das Melanom ist eine der aggressivsten Formen von malignen Tumoren beim Menschen. Bei Fischen der Gattung Xiphophorus kommt es zur spontanen Tumorformation, welche auch durch zwischenartliche Kreuzung herbeif{\"u}hrbar ist. Hybride mit angeborenem Melanom stellen ein n{\"u}tzliches Tiermodell zur Untersuchung der genetischen Grundlage der Tumorentwicklung dar. Ihre Tumorigenese hängt mit der pigmentzellspezifischen Überexpression der durch eine Mutation aktivierten Rezeptortyrosinkinase Xmrk zusammen. In reinrassigen Fischen wird die onkogene Funktion des xmrk durch den Genlocus R, welcher molekular noch nicht identifiziert wurde, unterdr{\"u}ckt. Zusammen mit der Überexpression von xmrk konnten mittels einer RNA-Seq Analyse weitere Gene gefunden werden, welche differenziell in den Proben von malignen und benignen Geweben des Xiphophorus exprimiert werden. Des Weiteren ist bekannt, dass die Methylierung des xmrk Promotors Einfluss auf die Expression des Genes hat. Um die Daten der durch RNA-Seq gefundenen Kandidatengene zu validieren, wurde deren Expression in malignen und benignen Geweben der Flossen und des Rumpfes mittels qPCR quantifiziert. Zusätzlich dazu wurde die Expression einiger humaner Orthologe dieser Gene in Proben aus humanen Melanomzelllinien gemessen. Mir war es möglich zu zeigen, dass mit Ausnahme von cdkn2ab, mitfb und xirp2b alle Kandidatengene signifikant unterschiedlich in mindestens einem Vergleich von benignem und malignem Gewebe exprimiert waren. Das mit xmrk verglichen gegensätzliche Expressionsmuster von pdcd4a macht es zu einem vielversprechenden Kandidaten als vom R-Locus codierten Tumorsuppressorgen. In den humanen Melanomzelllinien konnte ausschließlich von PDGFRB keine erhöhte Expression in irgendeiner Probe nachgewiesen werden. Während die Expression von PDCD4, C-MYC und MITF in mindestens drei der vier Zelllinien mittelstark erhöht war, ließ sich bei KIT eine enorm gesteigerte Überexpression in Zellen der Linie Hermes3a nachweisen. Da drei der f{\"u}nf analysierten Gene und ihre Orthologen ähnliche Expressionsmuster in Proben des Xiphophorus und der humanen Melanomzelllinien zeigen, deuten diese Ergebnisse auf die N{\"u}tzlichkeit des Tiermodells zur Identifizierung entscheidender Gene und Signalwege im malignen Melanom hin. Ein zweites Ziel der Arbeit war das Erlangen tieferer Einblicke in die Methylierung des Xiphophorus Melanoms auf einer globalen und promotor- spezifischen Ebene. Um die Hypothese einer Reduzierung der globalen Methylierung zu testen, f{\"u}hrte ich eine kolorimetrische Quantifizierung der 5-mC DNA in Kontroll- und Tumorgeweben aus. Diese Vorgehensweise zeigte zum ersten Mal eine signifikante Verminderung der methylierten globalen DNA in den benignen Läsionen und malignen Melanomen der Flossen verglichen mit dem Kontrollgewebe. Um herauszufinden, on diese Demethylierung direkt mit der Überexpression des xmrk verbunden ist, analysierte ich als nächstes die Methylierung eines CpG Dinukleotids des xmrk Promotors mithilfe von methylierungssensitiven Restriktionsendonukleasen. Obwohl nur in den Proben des exophytischen Tumorwachstums als Krebsgewebe eine verringerte Methylierung des CpG Dinukleotids verglichen mit den Kontrollen nachgewiesen werden konnte, zeigte sich die Stelle in Zellen der Xiphophorus Melanomzelllinie PSM komplett unmethyliert. Diese Ergebnisse deuten stark daraufhin, dass eine differenzierte Methylierung das onkogene Potential dieser Zellen bewirkt. Um die Effekte veränderter globaler und promotor-spezifischer Methylierung auf die Tumorigenese besser zu verstehen, sind weitere Untersuchungen nötig.},
  subject      = {Xiphophorus Melanom},
  language  = {de}
}
@phdthesis{Balasubramanian2018,
  author    = {Balasubramanian, Srikkanth},
  title     = {Novel anti-infectives against pathogenic bacteria},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163882},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {Marine sponge-associated actinomycetes are reservoirs of diverse natural products with novel biological activities. Their antibiotic potential has been well explored against a range of Gram positive and negative bacteria. However, not much is known about their anti-infective or anti-virulence potential against human pathogens. This Ph.D. project aimed to investigate the anti-infective (anti-Shiga toxin and anti-biofilm) potential of sponge-derived actinobacteria through identification and isolation of their bioactive metabolites produced and characterizing their mechanism of action by transcriptomics. This thesis is divided into three studies with the overall objective of exploring the anti-infective efficacy of actinomycetes-derived extracts and compound(s) that could possibly be used as future therapeutics. The first study deals with investigation on the anti-Shiga toxin effects of sponge-associated actinomycetes. Diarrheal infections pose a huge burden in several developing and developed countries. Diarrheal outbreaks caused by Enterohemorrhagic Escherichia coli (EHEC) could lead to life-threatening complications like gastroenteritis and haemolytic uremic syndrome (HUS) if left untreated. Shiga toxin (Stx) produced by EHEC is a major virulence factor that negatively affects the human cells, leading them to death via apoptosis. Antibiotics are not prescribed against EHEC infections since they may enhance the risk of development of HUS by inducing the production and release of Stx from disintegrating bacteria and thereby, worsening the complications. Therefore, an effective drug that blocks the Stx production without affecting the growth needs to be urgently developed. In this study, the inhibitory effects of 194 extracts and several compounds originating from a collection of marine sponge-derived actinomycetes were evaluated against the Stx production in EHEC strain EDL933 with the aid of Ridascreen® Verotoxin ELISA assay kit. It was found that treatment with the extracts did not lead to significant reduction in Stx production. However, strepthonium A isolated from the culture of Streptomyces sp. SBT345 (previously cultivated from the Mediterranean sponge Agelas oroides) reduced the Stx production (at 80 μM concentration) in EHEC strain EDL933 without affecting the bacterial growth. The structure of strepthonium A was resolved by spectroscopic analyses including 1D and 2D-NMR, as well as ESI-HRMS and ESI-HRMS2 experiments. This demonstrated the possible application of strepthonium A in restraining EHEC infections. VI In the second study, the effect of marine sponge-associated actinomycetes on biofilm formation of staphylococci was assessed. Medical devices such as contact lenses, metallic implants, catheters, pacemakers etc. are ideal ecological niches for formation of bacterial biofilms, which thereby lead to device-related infections. Bacteria in biofilms are multiple fold more tolerant to the host immune responses and conventional antibiotics, and hence are hard-to-treat. Here, the anti-biofilm potential of an organic extract derived from liquid fermentation of Streptomyces sp. SBT343 (previously cultivated from the Mediterranean sponge Petrosia ficiformis) was reported. Results obtained in vitro demonstrated its anti-biofilm (against staphylococci) and non-toxic nature (against mouse macrophage (J774.1), fibroblast (NIH/3T3) and human corneal epithelial cell lines). Interestingly, SBT343 extract could inhibit staphylococcal biofilm formation on polystyrene, glass and contact lens surfaces without affecting the bacterial growth. High Resolution Fourier Transform Mass Spectrometry (HR-MS) analysis indicated the complexity and the chemical diversity of components present in the extract. Preliminary physio-chemical characterization unmasked the heat stable and non-proteinaceous nature of the active component(s) in the extract. Finally, fractionation experiments revealed that the biological activity was due to synergistic effects of multiple components present in the extract. In the third study, anti-biofilm screening of 50 organic extracts generated from solid and liquid fermentation of 25 different previously characterized sponge-derived actinomycetes was carried out. This led to identification of the anti-biofilm organic extract derived from the solid culture of Streptomyces sp. SBT348 (previously cultivated from the Mediterranean sponge Petrosia ficiformis). Bioassay-guided fractionation was employed to identify the active fraction Fr 7 in the SBT348 crude extract. Further purification with semi-preparative HPLC led to isolation of the bioactive SKC1, SKC2, SKC3, SKC4 and SKC5 sub-fractions. The most active sub-fraction SKC3 was found to be a pure compound having BIC90 and MIC values of 3.95 μg/ml and 31.25 μg/ml against S. epidermidis RP62A. SKC3 had no apparent toxicity in vitro on cell lines and in vivo on the greater wax moth Galleria melonella larvae. SKC3 was stable to heat and enzymatic treatments indicating its non-proteinaceous nature. HR-MS analysis revealed the mass of SKC3 to be 1258.3 Da. Structure elucidation of SKC3 with the aid of 1D and 2D-NMR data is currently under investigation. Further, to obtain insights into the mode of action of SKC3 on S. epidermidis RP62A, RNA sequencing was done. Transcriptome data revealed that SKC3 was recognized by RP62A at 20 min and SKC3 negatively interfered with the central metabolism of staphylococci at 3 h. Taken VII together, these findings suggest that SKC3 could be a lead structure for development of new anti-staphylococcal drugs. Overall, the results obtained from this work underscore the anti-infective attributes of actinomycetes consortia associated with marine sponges, and their applications in natural product drug discovery programs.},
  subject      = {Marine sponges},
  language  = {en}
}
@phdthesis{Bury2018,
  author    = {Bury, Susanne},
  title     = {Molekularbiologische Untersuchungen der antagonistischen Effekte des probiotischen \(Escherichia\) \(coli\) Stamms Nissle 1917 auf Shiga-Toxin produzierende \(Escherichia\) \(coli\) St{\"a}mme},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163401},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {Shiga toxin produzierende E. coli (STEC) stellen mit einer Infektionsdosis von gerade einmal 100 Bakterien ein großes Risiko f{\"u}r unsere Gesundheit dar. Betroffene Patienten k{\"o}nnen milde Krankheitssymptome wie w{\"a}ssrigen Durchfall aufweisen, welcher sich allerdings zu blutigem Durchfall oder dem h{\"a}molytisch ur{\"a}mischen Syndrom (HUS) weiterentwickeln kann. Die Ursache f{\"u}r das Krankheitsbild ist das zytotoxische Protein Shiga-Toxin (Stx), welches von STEC St{\"a}mmen produziert wird, eukaryotischen Zellen angreift und den apoptotischen Zelltod induziert. Es konnte gezeigt werden, dass infizierte Patienten in ihrem Krankheitsverlauf stark variieren, was unter anderem auf die Zusammensetzung ihrer Mikrobiota zur{\"u}ckzuf{\"u}hren sein k{\"o}nnte. Diesbez{\"u}glich k{\"o}nnen zum Beispiel einige Bakterien bereits die Darmbesiedlung von STEC St{\"a}mmen unterbinden, wohingegen andere die Toxin Produktion der pathogenen St{\"a}mme beeinflussen und wieder andere von den stx tragenden Phagen infiziert werden k{\"o}nnen und daraufhin selbst zu Toxin produzierenden St{\"a}mmen werden. Da die genetischen Informationen f{\"u}r das Toxin auf einem Prophagen im Genom der STEC St{\"a}mme kodiert ist, f{\"u}hrt eine Antibiotika Behandlung von infizierten Patienten zwar zum Tod der Bakterien, hat allerdings auch einen Wechsel vom lysogenen zum lytischen Phagen Zyklus und damit einen enormen Anstieg an freigesetztem Stx zur Folge. In den letzten Jahrzehnten kam es immer wieder zu Epidemien mit STEC St{\"a}mmen, welche auch einige Todesopfer forderten. Die Behandlung von Patienten erfolgt auf Grund von mangelnden Behandlungsm{\"o}glichkeiten meist nur symptomatisch, weswegen neue Strategien f{\"u}r die Behandlung einer STEC Infektion dringend ben{\"o}tigt werden. Der probiotische E. coli Stamm Nissle 1917 (EcN) z{\"a}hlt bereits seit mehr als 100 Jahren als Medikament f{\"u}r Behandlungen von Darmentz{\"u}ndungen. In vitro und in vivo Studien mit dem probiotischen Stamm und STEC St{\"a}mmen konnten zeigen, dass EcN die Produktion von Stx unterdr{\"u}ckt und gleichzeitig die STEC Zellzahl reduziert. Diese Ergebnisse waren der Anlass f{\"u}r diese Studie in der die Auswirkungen von EcN auf STEC St{\"a}mme genauer untersucht wurden, um eine m{\"o}gliche Behandlung von STEC Infektionen mit dem Probiotikum zu gew{\"a}hrleisten. Eines der Hauptziele dieser Studie war es, herauszufinden, ob EcN von stx-Phagen infiziert werden kann und damit selbst zu einem Toxin Produzenten wird. In diesem Falle w{\"a}re eine Behandlung mit dem E. coli Stamm ausgeschlossen, da es den Krankheitsverlauf verschlimmern k{\"o}nnte. Verschiedene experimentelle Ans{\"a}tze in denen versucht wurde den YaeT stx-Phagen Rezeptor tragenden Stamm zu infizieren schlugen fehl. Weder mittels PCR Analysen, Phagen Plaque Assays oder der Phagen Anreicherung konnte eine Lyse oder eine Prophagen Integration nachgewiesen werden. Transkriptom Analysen konnten zeigen, dass Gene eines lambdoiden Prophagen in EcN in Anwesenheit von stx-Phagen stark reguliert sind. Auch andere E. coli St{\"a}mme, welche sich ebenfalls durch eine Resistenz gegen{\"u}ber einer stx-Phagen Infektion auswiesen, wurden positiv auf lambdoide Prophagen untersucht. Einzig dem stx-Phagen sensitiven K-12 Stamm MG1655 fehlt ein kompletter lambdoider Prophage, weswegen die Vermutung nahe liegt, dass ein intakter lambdoider Prophage vor der Superinfektion mit stx-Phagen sch{\"u}tzten kann. In weiteren Experimenten wurde der Einfluss der Mikrozin-negativen EcN Mutante SK22D auf STEC St{\"a}mme untersucht. Es konnte gezeigt werden, dass SK22D nicht nur die Produktion des zytotoxischen Proteins unterdr{\"u}ckt, sondern auch mit der Produktion der stx-Phagen von allen getesteten STEC St{\"a}mmen interferiert (O157:H7, O26:H11, O145:H25, O103:H2, O111:H- und zwei O104:H4 Isolate vom STEC Ausbruch in Deutschland im Jahr 2011). Transwell Studien konnten zeigen, dass der Faktor, welcher die Transkription des Prophagen unterdr{\"u}ckt, von SK22D sekretiert wird. Die Ergebnisse lassen vermuten, dass die Pr{\"a}senz von SK22D den lysogenen Zustand des Prophagen st{\"u}tzt und somit den lytischen Zyklus unterdr{\"u}ckt. Da stx-Phagen eine große Gefahr darstellen andere E. coli St{\"a}mme zu infizieren, haben wir uns in weiteren Studien dem Einfluss von EcN auf isolierte Phagen gewidmet. Die Kultivierungsexperimente von EcN mit Phagen zeigten, dass der probiotische Stamm in der Lage war die stx-Phagen in ihrer Effizienz der Lyse des K 12 Stammes MG1655 von~ 1e7 pfus/ml auf 0 pfus/ml nach einer 44 st{\"u}ndigen Inkubation zu inaktivieren. Diese Inaktivierung konnte auf die Aktivit{\"a}t eines hitzestabilen Proteins, welches in der station{\"a}ren Wachstumsphase synthetisiert wird, zur{\"u}ckgef{\"u}hrt werden. Studien welche einen Anstieg der Biofilmmasse zur Folge hatten zeigten eine gesteigerte Effizienz in der Phagen Inaktivierung, weswegen Komponenten des Biofilms m{\"o}glicherweise die Phagen Inaktivierung herbeif{\"u}hren. Neben dem direkten Einfluss auf die Phagen wurde auch ein Schutzeffekt von SK22D gegen{\"u}ber dem stx-Phagen empf{\"a}nglichen K 12 St{\"a}mmen untersucht. Lysogene K 12 St{\"a}mme zeichneten sich durch eine enorme Stx und stx-Phagen Produktion aus. Die Pr{\"a}senz von SK22D konnte den K 12 vermittelten Anstieg der pathogenen Faktoren unterbinden. Transwell Ergebnisse und Kinetik Studien lassen vermuten, dass SK22D eher die Phagen Infektion von K-12 St{\"a}mmen unterbindet als die Lyse von lysogenen K-12 St{\"a}mmen zu st{\"o}ren. Eine m{\"o}gliche Erkl{\"a}rung f{\"u}r den Schutz der K-12 St{\"a}mme vor einer stx-Phagen Infektion k{\"o}nnte darin liegen, dass die K-12 St{\"a}mme innerhalb der SK22D Kultur wachsen und dadurch von den infekti{\"o}sen Phagen abgeschirmt werden. Zusammenfassend konnte in dieser Studie gezeigt werden, dass der probiotische Stamm EcN sowohl die Lyse von STEC St{\"a}mmen unterdr{\"u}ckt als auch die infekti{\"o}sen stx-Phagen inaktiviert und sensitive E. coli St{\"a}mme vor der Phagen Infektion sch{\"u}tzen kann. Diese Ergebnisse sollten als Grundlage f{\"u}r in vivo Studien herangezogen werden, um eine m{\"o}gliche Behandlung von STEC infizierten Patienten mit dem Probiotikum zu gew{\"a}hrleisten.},
  subject      = {EHEC},
  language  = {en}
}
@phdthesis{Potabattula2019,
  author    = {Potabattula, Ramya Sri Krishna},
  title     = {Male aging and obesity effects on sperm methylome and consequences for the next generation},
  doi       = {10.25972/OPUS-16548},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-165481},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Besides a growing tendency for delayed parenthood, sedentary lifestyle coupled with overnutrition has dramatically increased worldwide over the last few decades. Epigenetic mechanisms can help us understand the epidemics and heritability of complex traits like obesity to a significant extent. Majority of the research till now has focused on determining the impact of maternal factors on health and disease risk in the offspring(s). This doctoral thesis is focused on deciphering the potential effects of male aging and obesity on sperm methylome, and consequences/transmission via germline to the next generation. In humans, this was assessed in a unique cohort of ~300 sperm samples, collected after in vitro fertilization/intracytoplasmic sperm injection, as well as in conceived fetal cord blood samples of the children. Furthermore, aging effect on sperm samples derived from a bovine cohort was analyzed. The study identified that human male aging significantly increased the DNA methylation levels of the promoter, the upstream core element, the 18S, and the 28S regions of ribosomal DNA (rDNA) in sperm. Prediction models were developed to anticipate an individual's age based on the methylation status of rDNA regions in his sperm. Hypermethylation of alpha satellite and LINE1 repeats in human sperm was also observed with aging. Epimutations, which are aberrantly methylated CpG sites, were significantly higher in sperm of older males compared to the younger ones. These effects on the male germline had a negative impact on embryo quality of the next generation. Consistent with these results, DNA methylation of rDNA regions, bovine alpha satellite, and testis satellite repeats displayed a significant positive correlation with aging sperm samples within the same individual and across different age-grouped bulls. A positive association between human male obesity/body mass index (BMI) and DNA methylation of the imprinted MEG3 gene and the obesity-related HIF3A gene was detected in sperm. These BMI-induced sperm DNA methylation signatures were transmitted to next generation fetal cord blood (FCB) samples in a gender-specific manner. Males, but not female offsprings exhibited a significant positive correlation between father's BMI and FCB DNA methylation in the two above-mentioned amplicons. Additionally, hypomethylation of IGF2 with increased paternal BMI was observed in female FCB samples. Parental allele-specific in-depth methylation analysis of imprinted genes using next generation sequencing technology also revealed significant correlations between paternal factors like age and BMI, and the corresponding father's allele DNA methylation in FCB samples. Deep bisulphite sequencing of imprinted genes in diploid somatic cord blood cells of offspring detected that the levels of DNA methylation signatures largely depended on the underlying genetic variant, i.e. sequence haplotypes. Allele-specific epimutations were observed in PEG1, PEG5, MEG3, H19, and IGF2 amplicons. For the former three genes, the non-imprinted unmethylated allele displayed more epimutations than the imprinted methylated allele. On the other hand, for the latter two genes, the imprinted allele exhibited higher epimutation rate than that of the non-imprinted allele. In summary, the present study proved that male aging and obesity impacts the DNA methylome of repetitive elements and imprinted genes respectively in sperm, and also has considerable consequences on the next generation. Nevertheless, longitudinal follow-up studies are highly encouraged to elucidate if these effects can influence the risk of developing abnormal phenotype in the offspring during adulthood.},
  language  = {en}
}
@phdthesis{Gupta2017,
  author    = {Gupta, Sanjay Kumar},
  title     = {The human CCHC-type Zinc Finger Nucleic Acid Binding Protein (CNBP) binds to the G-rich elements in target mRNA coding sequences and promotes translation},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-142917},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2017},
  abstract  = {The genetic information encoded with in the genes are transcribed and translated to give rise to the functional proteins, which are building block of a cell. At first, it was thought that the regulation of gene expression particularly occurs at the level of transcription by various transcription factors. Recent discoveries have shown the vital role of gene regulation at the level of RNA also known as post-transcriptional gene regulation (PTGR). Apart from non-coding RNAs e.g. micro RNAs, various RNA binding proteins (RBPs) play essential role in PTGR. RBPs have been implicated in different stages of mRNA life cycle ranging from splicing, processing, transport, localization and decay. In last 20 years studies have shown the presence of hundreds of RBPs across eukaryotic systems many of which are widely conserved. Given the rising number of RBPs and their link to human diseases it is quite evident that RBPs have major role in cellular processes and their regulation. The current study is aimed to describe the so far unknown molecular mechanism of CCHC-type Zinc Finger Nucleic Acid Binding Protein (CNBP/ZNF9) function in vivo. CNBP is ubiquitously expressed across various human tissues and is a highly conserved RBP in eukaryotes. It is required for embryonic development in mammals and has been implicated in transcriptional as well as post-transcriptional gene regulation; however, its molecular function and direct target genes remain elusive. Here, we use multiple systems-wide approaches to identify CNBP targets and document the consequences of CNBP binding. We established CNBP as a cytoplasmic RNA-binding-protein and used Photoactivatable Ribonucleoside Enhanced Crosslinking and Immunoprecipitation (PAR-CLIP) to identify direct interactions of CNBP with 4178 mRNAs. CNBP preferentially bound a G-rich motif in the target mRNA coding sequences. Functional analyses, including ribosome profiling, RNA sequencing, and luciferase assays revealed the CNBP mode of action on target transcripts. CNBP binding was found to increase the translational efficiency of its target genes. We hypothesize that this is consistent with an RNA chaperone function of CNBP helping to resolve secondary structures, thus promoting translation. Altogether this study provides a novel mechanism of CNBP function in vivo and acts as a step-stone to study the individual CNBP targets that will bring us closer to understand the disease onset.},
  subject      = {CNBP},
  language  = {en}
}
@phdthesis{Kalleda2018,
  author    = {Kalleda, Nataraja Swamy},
  title     = {Spatiotemporal analysis of immune cell recruitment and Neutrophil defence functions in \(Aspergillus\) \(fumigatus\) lung infections},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-150931},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {Humans are continuously exposed to airborne spores of the saprophytic fungus Aspergillus fumigatus. In healthy individuals, local pulmonary host defence mechanisms can efficiently eliminate the fungus without any overt symptoms. In contrast, A. fumigatus causes devastating infections in immunocompromised patients. However, local host immune responses against A. fumigatus lung infections in immunocompromised conditions have remained largely elusive. Given the dynamic changes in immune cell subsets within tissues upon immunosuppressive therapy, we dissected the spatiotemporal pulmonary immune response after A. fumigatus infection to reveal basic immunological events that fail to effectively control the invasive fungal disease. In different immunocompromised murine models, myeloid but not lymphoid cells were strongly recruited upon infection. Notably, neutrophils and macrophages were recruited to infected lungs in different immunosuppressed regimens. Other myeloid cells, particularly dendritic cells and monocytes were only recruited in the corticosteroid model after infection. Lymphoid cells, particularly CD4+ or CD8+ T-cells and NK cells were highly reduced upon immunosuppression and were not recruited after A. fumigatus infection. Importantly, adoptive CD11b+ myeloid cell transfer rescued immunosuppressed mice from lethal A. fumigatus infection. These findings illustrate that CD11b+ myeloid cells are critical for anti-A. fumigatus defence under immunocompromised conditions. Despite improved antifungal agents, invasive A. fumigatus lung infections cause a high rate morbidity and mortality in neutropenic patients. Granulocyte transfusions have been tested as an alternative therapy for the management of high-risk neutropenic patients with invasive A. fumigatus infections. To increase the granulocyte yield for transfusion, donors are treated with corticosteroids. Yet, the efficacy of granulocyte transfusion and the functional defence mechanisms of granulocytes collected from corticosteroid treated donors remain largely elusive. We aimed to assess the efficacy of granulocyte transfusion and functional defence mechanisms of corticosteroid treated granulocytes using mouse models. In this thesis, we show that transfusion of granulocytes from corticosteroid treated mice did not protect cyclophosphamide immunosuppressed mice against lethal A. fumigatus infection in contrast to granulocytes from untreated mice. Upon infection, increased levels of inflammatory cytokines helped to recruit granulocytes to the lungs without any recruitment defects in corticosteroid treated and infected mice or in cyclophosphamide immunosuppressed and infected mice that have received the granulocytes from corticosteroid treated mice. However, corticosteroid treated human or mouse neutrophils failed to form neutrophil extracellular traps (NETs) in in vitro and in vivo conditions. Further, corticosteroid treated granulocytes exhibited impaired ROS production against A. fumigatus. Notably, corticosteroids impaired the β-glucan receptor Dectin-1 (CLEC7A) on mouse and human granulocytes to efficiently recognize and phagocytize A. fumigatus, which markedly impaired fungal killing. We conclude that corticosteroid treatment of granulocyte donors for increasing neutrophil yields or patients with ongoing corticosteroid treatment could result in deleterious effects on granulocyte antifungal functions, thereby limiting the benefit of granulocyte transfusion therapies against invasive fungal infections.},
  subject      = {Aspergillus fumigatus},
  language  = {en}
}
@phdthesis{Lichtenstein2018,
  author    = {Lichtenstein, Leonie},
  title     = {Color vision and retinal development of the compound eye in bees},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-150997},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {The superfamiliy of bees, Apiformes, comprises more than 20,000 species. Within the group, the eusocial species like honeybees and bumblebees are receiving increased attention due to their outstanding importance for pollination of many crop and wild plants, their exceptional eusocial lifestyle and complex behavioral repertoire, which makes them an interesting invertebrate model to study mechanisms of sensory perception, learning and memory. In bees and most animals, vision is one of the major senses since almost every living organism and many biological processes depend on light energy. Bees show various forms of vision, e.g. color vision, achromatic vision or polarized vision in order to orientate in space, recognize mating partners, detect suitable nest sites and search for rewarding food sources. To catch photons and convert light energy into electric signals, bees possess compound eyes which consists of thousands of single ommatidia comprising a fixed number of photoreceptors; they are characterized by a specific opsin protein with distinct spectral sensitivity. Different visual demands, e.g. the detection of a single virgin queen by a drone, or the identification and discrimination of flowers during foraging bouts by workers, gave rise to the exceptional sex-specific morphology and physiology of male and female compound eyes in honeybees. Since Karl von Frisch first demonstrated color vision in honeybees more than 100 years ago, much effort has been devoted to gain insight into the molecular, morphological and physiological characteristics of (sex-specific) bee compound eyes and the corresponding photoreceptors. However, to date, almost nothing is known about the underlying mechanisms during pupal development which pattern the retina and give rise to the distinct photoreceptor distribution. Hence, in Chapter 2 and 3 I aimed to better understand the retinal development and photoreceptor determination in the honeybee eye. In a first step, the intrinsic temporal expression pattern of opsins within the retina was evaluated by quantifying opsin mRNA expression levels during the pupal phase of honeybee workers and drones. First results revealed that honeybee workers and drones express three different opsin genes, UVop, BLop and Lop1 during pupal development which give rise to an ultraviolet, blue, and green-light sensitive photoreceptor. Moreover, opsin expression patterns differed between both sexes and the onset of a particular opsin occurred at different time points during retinal development. Immunostainings of the developing honeybee retina in Chapter 2 showed that at the beginning of pupation the retina consist only of a thin hypodermis. However, at this stage all retinal structures are already present. From about mid of pupation, opsin expression levels increase and goes hand in hand with the differentiation of the rhabdoms, suggesting a two-step process in photoreceptor development and differentiation in the honeybee compound eye. In a first step the photoreceptor cells meet its fate during late pupation; in a second step, the quantity of opsin expression in each photoreceptor strongly increase up to the 25-fold shortly after eclosion. To date, the underlying mechanisms leading to different photoreceptor types have been intensively studied in the fruit fly, Drosophila melanogaster, and to some extend in butterflies. Interestingly, the molecular mechanisms seemed to be conserved within insects and e.g. the two transcription factors, spalt and spineless, which have been shown to be essential for photoreceptor determination in flies and butterflies, have been also identified in the honeybee. In chapter 3, I investigated the expression patterns of both transcription factors during pupal development of honeybee workers and showed that spalt is mainly expressed during the first few pupal stages which might correlate with the onset of BLop expression. Further, spineless showed a prominent peak at mid of pupation which might initiates the expression of Lop1. However, whether spalt and spineless are also essential for photoreceptor determination in the honeybee has still to be investigated, e.g. by a knockdown/out of the respective transcription factor during retinal development which leads to a spectral phenotype, e.g. a dichromatic eye. Such spectral phenotypes can then be tested in behavioral experiments in order to test the function of specific photoreceptors for color perception and the entrainment of the circadian clock. In order to evaluate the color discrimination capabilities of bees and the quality of color perception, a reliable behavioral experiment under controlled conditions is a prerequisite. Hence, in chapter 4, I aimed to establish the visual PER paradigm as a suitable method for behaviorally testing color vision in bees. Since PER color vision has considered to be difficult in bees and was not successful in Western honeybees without ablating the bee's antennae or presenting color stimuli in combination with other cues for several decades, the experimental setup was first established in bumblebees which have been shown to be robust and reliable, e.g. during electrophysiological recordings. Workers and drones of the bufftailed bumblebee, Bombus terrestris were able to associate different monochromatic light stimuli with a sugar reward and succeeded in discriminating a rewarded color stimulus from an unrewarded color stimulus. They were also able to retrieve the learned stimulus after two hours, and workers successfully transferred the learned information to a new behavioral context. In the next step, the experimental setup was adapted to honeybees. In chapter 5, I tested the setup in two medium-sized honeybees, the Eastern honeybee, Apis cerana and the Western honeybee, Apis mellifera. Both honeybee species were able to associate and discriminate between two monochromatic light stimuli, blue and green light, with peak sensitivities of 435 nm and 528 nm. Eastern and Western honeybees also successfully retrieve the learned stimulus after two hours, similar to the bumblebees. Visual conditioning setups and training protocols in my study significantly differed from previous studies using PER conditioning. A crucial feature found to be important for a successful visual PER conditioning is the duration of the conditioned stimulus presentation. In chapter 6, I systematically tested different length of stimuli presentations, since visual PER conditioning in earlier studies tended to be only successful when the conditioned stimulus is presented for more than 10 seconds. In this thesis, intact honeybee workers could successfully discriminate two monochromatic lights when the stimulus was presented 10 s before reward was offered, but failed, when the duration of stimulus presentation was shorter than 4 s. In order to allow a more comparable conditioning, I developed a new setup which includes a shutter, driven by a PC based software program. The revised setup allows a more precise and automatized visual PER conditioning, facilitating performance levels comparable to olfactory conditioning and providing now an excellent method to evaluate visual perception and cognition of bees under constant and controlled conditions in future studies.},
  subject      = {Biene},
  language  = {en}
}
@phdthesis{Schmitt2017,
  author    = {Schmitt, Franziska},
  title     = {Neuronal basis of temporal polyethism and sky-compass based navigation in \(Cataglyphis\) desert ants},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-142049},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2017},
  abstract  = {Desert ants of the genus Cataglyphis (Formicinae) are widely distributed in arid areas of the palearctic ecozone. Their habitats range from relatively cluttered environments in the Mediterranean area to almost landmark free deserts. Due to their sophisticated navigational toolkit, mainly based on the sky-compass, they were studied extensively for the last 4 decades and are an exceptional model organism for navigation. Cataglyphis ants exhibit a temporal polyethism: interior workers stay inside the dark nest and serve as repletes for the first ∼2 weeks of their adult life (interior I). They then switch to nursing and nest maintenance (interior II) until they transition to become day-active outdoor foragers after ∼4 weeks. The latter switch in tasks involves a transition phase of ∼2-3 days during which the ants perform learning and orientation walks. Only after this last phase do the ants start to scavenge for food as foragers. In this present thesis I address two main questions using Cataglyphis desert ants as a model organism: 1. What are the underlying mechanisms of temporal polyethism? 2. What is the neuronal basis of sky-compass based navigation in Cataglyphis ants? Neuropeptides are important regulators of insect physiology and behavior and as such are promising candidates regarding the regulation of temporal polyethism in Cataglyphis ants. Neuropeptides are processed from large precursor proteins and undergo substantial post-translational modifications. Therefore, it is crucial to biochemically identify annotated peptides. As hardly any peptide data are available for ants and no relevant genomic data has been recorded for Cataglyphis, I started out to identify the neuropeptidome of adult Camponotus floridanus (Formicinae) workers (manuscript 1). This resulted in the first neuropeptidome described in an ant species - 39 neuropeptides out of 18 peptide families. Employing a targeted approach, I identified allatostatin A (AstA), allatotropin (AT), short neuropeptide F (sNPF) and tachykinin (TK) using mass spectrometry and immunohistology to investigate the distribution of AstA, AT and TK in the brain (manuscript 2). All three peptides are localized in the central complex, a brain center for sensory integration and high-order control of locomotion behavior. In addition, AstA and TK were also found in visual and olfactory input regions and in the mushroom bodies, the centers for learning and memory formation. Comparing the TK immunostaining in the brain of 1, 7 and 14 days old dark kept animals revealed that the distribution in the central complex changes, most prominently in the 14 day old group. In the Drosophila central complex TK modulates locomotor activity levels. I therefore hypothesize that TK is involved in the internal regulation of the interior I-interior II transition which occurs after ∼2 weeks of age. I designed a behavioral setup to test the effect of neuropeptides on the two traits: 'locomotor activity level' and 'phototaxis' (manuscript 3). The test showed that interior I ants are less active than interior II ants, which again are less active than foragers. Furthermore, interior ants are negatively phototactic compared to a higher frequency of positive phototaxis in foragers. Testing the influence of AstA and AT on the ants' behavior revealed a stage-specific effect: while interior I behavior is not obviously influenced, foragers become positively phototactic and more active after AT injection and less active after AstA injection. I further tested the effect of light exposure on the two behavioral traits of interior workers and show that it rises locomotor activity and results in decreased negative phototaxis in interior ants. However, both interior stages are still more negatively phototactic than foragers and only the activity level of interior II ants is raised to the forager level. These results support the hypothesis that neuropeptides and light influence behavior in a stage-specific manner. The second objective of this thesis was to investigate the neuronal basis of skycompass navigation in Cataglyphis (manuscript 4). Anatomical localization of the sky-compass pathway revealed that its general organization is highly similar to other insect species. I further focused on giant synapses in the lateral complex, the last relay station before sky-compass information enters the central complex. A comparison of their numbers between newly eclosed ants and foragers discloses a rise in synapse numbers from indoor worker to forager, suggesting task-related synaptic plasticity in the sky-compass pathway. Subsequently I compared synapse numbers in light preexposed ants and in dark-kept, aged ants. This experiment showed that light as opposed to age is necessary and sufficient to trigger this rise in synapse number. The number of newly formed synapses further depends on the spectral properties of the light to which the ants were exposed to. Taken together, I described neuropeptides in C. floridanus and C. fortis, and provided first evidence that they influence temporal polyethism in Cataglyphis ants. I further showed that the extent to which neuropeptides and light can influence behavior depends on the animals' state, suggesting that the system is only responsive under certain circumstances. These results provided first insight into the neuronal regulation of temporal polyethism in Cataglyphis. Furthermore, I characterized the neuronal substrate for sky-compass navigation for the first time in Cataglyphis. The high level of structural synaptic plasticity in this pathway linked to the interior-forager transition might be particularly relevant for the initial calibration of the ants' compass system.},
  subject      = {Cataglyphis},
  language  = {en}
}
@phdthesis{Bluemel2021,
  author    = {Bl{\"u}mel, Rabea},
  title     = {Der Zebrab{\"a}rbling (Danio rerio) als in vivo Modell zur Untersuchung der Entstehung von Kraniosynostosen},
  doi       = {10.25972/OPUS-20743},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-207436},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Die Entwicklung des Sch{\"a}deldachs beginnt beim Menschen bereits in der fr{\"u}hen Embryogenese und ist erst im Erwachsenenalter abgeschlossen. Das Wachstum der Sch{\"a}delknochen muss sich w{\"a}hrend der Entwicklung fortw{\"a}hrend dem Gehirnwachstum anpassen. An den Stellen, wo zwei Sch{\"a}delknochen aufeinandertreffen, formen sich Sch{\"a}deln{\"a}hte, die aus mesenchymalem Bindegewebe bestehen und als Wachstumsfugen des Sch{\"a}dels dienen. Tritt eine fr{\"u}hzeitige Verkn{\"o}cherung innerhalb einer oder mehrerer Sch{\"a}deln{\"a}hte auf, spricht man von einer Kraniosynostose. Als Konsequenz wird ein weiteres Knochenwachstum verhindert, sodass sich das Neurokranium in dieser Region nicht dem expansiven Wachstum des Gehirns anpassen kann. Dies geht in der Regel mit einem kompensatorischen Wachstum des Sch{\"a}dels und infolgedessen mit kraniofazialen Dysmorphien und einem erh{\"o}hten intrakraniellen Druck einher. Klinische Studien und Forschungen an Modellorganismen konnten bereits eine Vielzahl an Genen mit der Entstehung von Kraniosynostosen assoziieren, darunter die Transkriptionsfaktoren TCF12 und TWIST1. Beim Menschen sind heterozygote Mutationen in TCF12 und TWIST1 mit Kraniosynostosen der Koronarnaht assoziiert. Bei M{\"a}usen hingegen f{\"u}hrt eine heterozygote Tcf12 Mutation nur in Kombination mit einer heterozygoten Twist1 Mutation zu Fusionen der Koronarnaht. Der Zebrab{\"a}rbling (Danio rerio, {\"u}berwiegend auch Zebrafisch genannt) weist eine bemerkenswerte {\"A}hnlichkeit bez{\"u}glich der Anatomie und Morphologie des Sch{\"a}deldachs zum Menschen auf. Um die genaue Funktion von TCF12 bei der Ausbildung der Sch{\"a}deln{\"a}hte zu untersuchen, wurde im Rahmen dieser Arbeit der Zebrafisch als in vivo Modell f{\"u}r die Entstehung tcf12-induzierter Kraniosynostosen etabliert. Zu Beginn der Arbeit wurde das Expressionsmuster von tcf12 {\"u}ber die Entwicklung hinweg analysiert. Ein besonderer Fokus lag dabei auf einem Expressionsnachweis w{\"a}hrend der Entwicklung der Sch{\"a}delplatten und der Sch{\"a}deln{\"a}hte. Ein erster Expressionsnachweis von tcf12 mittels PCR-Analysen und Whole-mount RNA in-situ Hybridisierungen zeigte eine breite Expression von tcf12 ab dem 1-3 Somiten Stadium an. F{\"u}r tiefergehende in vivo Analysen wurden im Zuge dieser Arbeit tcf12:EGFP Reportergenlinien generiert. Mit diesen gelang ein Nachweis der tcf12 Expression entlang der Wachstumsfronten der Sch{\"a}delplatten, innerhalb der Sch{\"a}deln{\"a}hte sowie im Periost und der Dura mater. Mit den tcf12:EGFP Fischen als Referenz wurde in weiterf{\"u}hrenden Experimenten die Aktivit{\"a}t drei hochkonservierter CNEs (engl. conserved non-coding elements) in vivo im Zebrafisch untersucht. Zwei der CNEs konnten als tcf12 Enhancer verifiziert werden, die eine Genexpression w{\"a}hrend der Neurogenese des zentralen Nervensystems (ZNS) steuern. Die beiden Enhancer-Elemente zeichnen sich durch eine hohe Konservierung vom Menschen bis hin zum Zebrafisch aus. Aufgrund der unterschiedlichen Sensitivit{\"a}t gegen{\"u}ber einem Funktionsverlust von TCF12 und TWIST1 in Mensch und Maus sollte die Auswirkung eines Knockouts der orthologen Gene auf die Entwicklung der Sch{\"a}deln{\"a}hte des Zebrafisches untersucht werden. Mittels CRISPR/Cas9 wurden verschiedene Knockout-Linien f{\"u}r die Gene tcf12, twist1a und twist1b generiert. Analysen der Knockoutmutanten zeigten, dass ein heterozygoter Verlust von tcf12 und twist1b in seltenen F{\"a}llen zu partiellen Fusionen der Koronarn{\"a}hte im Zebrafisch f{\"u}hrt. Des Weiteren konnte bei tcf12 und twist1b Einzel- und Doppelmutanten ein abnormes Wachstum der Sch{\"a}delplatten im Bereich der Suturen beobachtet werden. Die Expressionsstudien und die Analysen der Knockoutmutanten deuten auf eine Regulation von TCF12 bei der Differenzierung der Stammzellen sowie der Proliferation der Osteoblasten innerhalb der Sch{\"a}deln{\"a}hte hin. Um die Auswirkung von TCF12 Mutationen auf funktioneller Ebene zu untersuchen wurden im Verlauf dieser Arbeit Luciferase-Reporter Assays durchgef{\"u}hrt. Anhand dieser konnte nachgewiesen werden, dass Mutationen, die die basic helix-loop-helix (bHLH)-Dom{\"a}ne beeintr{\"a}chtigen, die Transaktivierungsf{\"a}higkeit von TCF12 aufheben. Co-Transfektions-Experimente mit TWIST1 offenbarten eine Regulation der Transaktivierung von TCF12 durch TWIST1, sowohl im Menschen, als auch im Zebrafisch. Im Rahmen dieser Arbeit konnten die genauen Expressionsorte von TCF12 w{\"a}hrend der Morphogenese des Sch{\"a}deldachs nachgwiesen und die Funktion von TCF12 und seinem Interaktionspartner TWIST1 bei der Entstehung von Kraniosynostosen weiter aufgekl{\"a}rt werden.},
  subject      = {Kraniosynostose},
  language  = {de}
}
@phdthesis{Sieger2020,
  author    = {Sieger, Charlotte Sophie},
  title     = {Potential evolutionary responses to landscape heterogeneity and systematic environmental trends},
  doi       = {10.25972/OPUS-21669},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216690},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Over the course of the last century, humans have witnessed drastic levels of global environmental change that endangered both, the survival of single species as well as biodiversity itself. This includes climate change, in both environmental means and in variance and subsequently frequent extreme weather events, as well as land use change that species have to cope with. With increasing urbanization, increasing agricultural area and increasing intensification, natural habitat is not only lost, but also changes its shape and distribution in the landscape. Both aspects can heavily influence an individual's fitness and therefore act as a selective force promoting evolutionary change. This way climate change influences individuals' niches and dispersal. Local adaptation and dispersal are not independent of each other. Dispersal can have two opposite effects on local adaptation. It can oppose local adaptation, by promoting the immigration of maladapted indi- viduals or favor local adaptation by introducing better adapted genotypes. Which of those effects of dispersal on local adaptation emerges in a population depends on the dispersal strategies and the spatial structure of the landscape. In principle an adaptive response can include adjustment of the niche optimum as well as habitat tolerance (niche width) or (instead) ecological tracking of adequate conditions by dispersal and range shifting. So far, there has been no extensive modeling study of the evolution of the environmental niche optimum and tolerance along with dispersal probability in complex landscapes. Either only dispersal or (part of ) the environmental niche can evolve or the landscapes used are not realistic but rather a very abstract representation of spatial structures. I want to try and disentangle those different effects of both local adaptation and dispersal during global change, as well as their interaction, especially considering the separation between the effects of increasing mean and increasing variance. For this, I implemented an individual based model (IBM), with escalating complexity. I showed that both on a temporal as well as on a spatial scale, variation can be more influential then mean conditions. Indeed, the actual spatial configuration of this heterogeneity and the relationship between spatial and temporal heterogeneity affect the evolution of the niche and of dispersal probability more than temporal or spatial mean conditions. I could show that in isolated populations, an increase of an environmental attribute's mean or variance can lead to extinction, under certain conditions. In particular, increasing variance cannot be tracked forever, since increasing tolerance has distinct limits of feasibility. Increasing mean conditions can also occur too fast to be tracked, especially from generalist individuals. When expanding the model to the metapopulation level without a temporal environmental trend, the degree of spatial vs.temporal heterogeneity influenced the evolution of random dispersal heavily. With increasing spatial heterogeneity, individuals from extreme and rare patches evolve from being philopatric to dispersive, while individuals from average patches switch in the opposite direction. With the last expansion to a different set of landscapes with varying degrees of edge density, I could show that edge effects are strong in pseudo-agricultural landscapes, while in pseudo-natural habitats they were hardly found, regardless of emigration strategy. Sharp edges select against dispersal in the edge patches and could potentially further isolate populations in agricultural landscapes. The work I present here can also be expanded further and I present several suggestions on what to do next. These expansions could help the realism of the model and eventually shed light on its bearing on ecological global change predictions. For example species distribution models or extinction risk models would be more precise, if they included both spatial and temporal variation. The current modeling practices might not be suffcient to describe the possible outcomes of global change, because spatio-temporal heterogeneity and its influence on species' niches is too important to be ignored for longer.},
  language  = {en}
}
@phdthesis{Amatobi2022,
  author    = {Amatobi, Kelechi Michael},
  title     = {Circadian clocks determine transport and membrane lipid oscillation in \(Drosophila\) hemolymph in complex interactions between nutrient-type, photic conditions and feeding behaviour},
  doi       = {10.25972/OPUS-24446},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-244462},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {The interaction between circadian clocks and metabolism is of increasing interest, since clock dysfunction often correlates with metabolic pathologies. Many research articles have been published analysing the impact of factors such as circadian clock, light, feeding time and diet-type on energy homeostasis in various tissues/organs of organisms with most of the findings done in mammals. Little is known about the impact of circadian clock and the above-mentioned factors on circulating lipids, especially the transport form of lipids - diacylglycerol (DG) and membrane lipids such as phosphatidylethanolamine (PE) and phosphatidylcholine (PC) in the Drosophila hemolymph. The fruit fly Drosophila is a prime model organism in circadian, behaviour and metabolism research. To study the role of circadian clock and behaviour in metabolism, we performed an extensive comparative hemolymph lipid (diacylglycerol: DG, phosphatidylethanolamine: PE, phosphatidylcholine: PC) analysis using ultra performance liquid chromatography coupled to time-of-flight mass spectrometry (UPLC-MS) between wild-type flies (WTCS) and clock disrupted mutants (per01). In addition, clock controlled food intake- feeding behaviour was investigated. Time-dependent variation of transport (DG) and membrane lipids (PE and PC) were not rhythmic in WTCS under constant darkness and in per01 under LD, suggesting an impact of light and clock genes on daily lipid oscillations. Day-time and night-time restriction of food led to comparable lipid profiles, suggesting that lipid oscillations are not exclusively entrained by feeding but rather are endogenously regulated. Ultradian oscillations in lipid levels in WTCS under LD were masked by digested fatty acids since lipid levels peaked more robustly at the beginning and end of light phase when flies were fed a lipid- and protein-free diet. These results suggest that metabolite (DG, PE and PC) oscillation is influenced by complex interactions between nutrient-type, photic conditions, circadian clock and feeding time. In conclusion, the results of this thesis suggest that circadian clocks determine transport and membrane lipid oscillation in Drosophila hemolymph in complex interactions between nutrient-type, photic conditions and feeding behaviour.},
  subject      = {Pharmaceutische Biologie},
  language  = {en}
}
@phdthesis{Kunz2021,
  author    = {Kunz, Tobias C.},
  title     = {Expansion Microscopy (ExM) as a tool to study organelles and intracellular pathogens},
  doi       = {10.25972/OPUS-22333},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-223330},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {The resolution of fluorescence light microscopy was long believed to be limited by the diffraction limit of light of around 200-250 nm described in 1873 by Ernst Abbe. Within the last decade, several approaches, such as structured illumination microscopy (SIM), stimulated emission depletion STED and (direct) stochastic optical reconstruction microscopy (d)STORM have been established to bypass the diffraction limit. However, such super-resolution techniques enabling a resolution <100 nm require specialized and expensive setups as well as expert knowledge in order to avoid artifacts. They are therefore limited to specialized laboratories. Recently, Boyden and colleagues introduced an alternate approach, termed expansion microscopy (ExM). The latter offers the possibility to perform superresolution microscopy on conventional confocal microscopes by embedding the sample into a swellable hydrogel that is isotropically expanded. Since its introduction in 2015, expansion microscopy has developed rapidly offering protocols for 4x, 10x and 20x expansion of proteins and RNA in cells, tissues and human clinical specimens. Mitochondria are double membrane-bound organelles and crucial to the cell by performing numerous tasks, from ATP production through oxidative phosphorylation, production of many important metabolites, cell signaling to the regulation of apoptosis. The inner mitochondrial membrane is strongly folded forming so-called cristae. Besides being the location of the oxidative phosphorylation and therefore energy conversion and ATP production, cristae have been of great interest because changes in morphology have been linked to a plethora of diseases from cancer, diabetes, neurodegenerative diseases, to aging and infection. However, cristae imaging remains challenging as the distance between two individual cristae is often below 100 nm. Within this work, we demonstrate that the mitochondrial creatine kinase MtCK linked to fluorescent protein GFP (MtCK-GFP) can be used as a cristae marker. Upon fourfold expansion, we illustrate that our novel marker enables visualization of cristae morphology and localization of mitochondrial proteins relative to cristae without the need for specialized setups. Furthermore, we show the applicability of expansion microscopy for several bacterial pathogens, such as Chlamydia trachomatis, Simkania negevensis, Neisseria gonorrhoeae and Staphylococcus aureus. Due to differences in bacterial cell walls, we reveal important aspects for the digestion of pathogens for isotropic expansion. We further show that expansion of the intracellular pathogens C. trachomatis and S. negevensis, enables the differentiation between the two distinct developmental forms, catabolic active reticulate bodies (RB) and infectious elementary bodies (EB), on a conventional confocal microscope. We demonstrate the possibility to precisely locate chlamydial effector proteins, such as CPAF or Cdu1, within and outside the chlamydial inclusion. Moreover, we show that expansion microscopy enables the investigation of bacteria, herein S. aureus, within LAMP1 and LC3-II vesicles. With the introduction of the unnatural α-NH2-ω-N3-C6-ceramide, we further present the first approach for the expansion of lipids that may also be suitable for far inaccessible molecule classes like carbohydrates. The efficient accumulation and high labeling density of our functionalized α-NH2-ω-N3-C6-ceramide in both cells and bacteria enables in combination with tenfold expansion nanoscale resolution (10-20 nm) of the interaction of proteins with the plasma membrane, membrane of organelles and bacteria. Ceramide is the central molecule of the sphingolipid metabolism, an important constituent of cellular membranes and regulates many important cellular processes such as differentiation, proliferation and apoptosis. Many studies report about the importance of sphingolipids during infection of various pathogens. While the transport of ceramide to Chlamydia has been reported earlier, one of the unanswered questions remaining was if ceramide forms parts of the outer or inner bacterial membrane. Expansion of α-NH2-ω-N3-C6-ceramide enabled the visualization of ceramide in the inner and outer membrane of C. trachomatis and their distance was determined to be 27.6 ± 7.7 nm.},
  subject      = {Fluoreszenzmikroskopie},
  language  = {en}
}
@phdthesis{Yang2020,
  author    = {Yang, Manli},
  title     = {\(Chlamydia\) \(trachomatis\) metabolism during infection and metatranscriptome analysis in \(Neisseria\) \(gonorrhoeae\) coinfected STD patients},
  doi       = {10.25972/OPUS-18499},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184993},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Chlamydia trachomatis (Ct) is an obligate intracellular human pathogen. It causes blinding trachoma and sexually transmitted disease such as chlamydia, pelvic inflammatory disease and lymphogranuloma venereum. Ct has a unique biphasic development cycle and replicates in an intracellular vacuole called inclusion. Normally it has two forms: the infectious form, elementary body (EB); and the non-infectious form, reticulate body (RB). Ct is not easily amenable to genetic manipulation. Hence, to understand the infection process, it is crucial to study how the metabolic activity of Ct exactly evolves in the host cell and what roles of EB and RB play differentially in Ct metabolism during infection. In addition, Ct was found regularly coinfected with other pathogens in patients who got sexually transmitted diseases (STDs). A lack of powerful methods to culture Ct outside of the host cell makes the detailed molecular mechanisms of coinfection difficult to study. In this work, a genome-scale metabolic model with 321 metabolites and 277 reactions was first reconstructed by me to study Ct metabolic adaptation in the host cell during infection. This model was calculated to yield 84 extreme pathways, and metabolic flux strength was then modelled regarding 20hpi, 40hpi and later based on a published proteomics dataset. Activities of key enzymes involved in target pathways were further validated by RT-qPCR in both HeLa229 and HUVEC cell lines. This study suggests that Ct's major active pathways involve glycolysis, gluconeogenesis, glycerolphospholipid biosynthesis and pentose phosphate pathway, while Ct's incomplete tricarboxylic acid cycle and fatty acid biosynthesis are less active. EB is more activated in almost all these carbohydrate pathways than RB. Result suggests the survival of Ct generally requires a lot of acetyl-CoA from the host. Besides, both EB and RB can utilize folate biosynthesis to generate NAD(P)H but may use different pathways depending on the demands of ATP. When more ATP is available from both host cell and Ct itself, RB is more activated by utilizing energy providing chemicals generated by enzymes associated in the nucleic acid metabolism. The forming of folate also suggests large glutamate consumption, which is supposed to be converted from glutamine by the glutamine-fructose-6-phosphate transaminase (glmS) and CTP synthase (pyrG). Then, RNA sequencing (RNA-seq) data analysis was performed by me in a coinfection study. Metatranscriptome from patient RNA-seq data provides a realistic overview. Thirteen patient samples were collected and sequenced by our collaborators. Six male samples were obtained by urethral swab, and seven female samples were collected by cervicovaginal lavage. All the samples were Neisseria gonorrhoeae (GC) positive, and half of them had coinfection with Ct. HISAT2 and Stringtie were used for transcriptomic mapping and assembly respectively, and differential expression analysis by DESeq2, Ballgown and Cuffdiff2 are parallelly processed for comparison. Although the measured transcripts were not sufficient to assemble Ct's transcriptome, the differential expression of genes in both the host and GC were analyzed by comparing Ct positive group (Ct+) against Ct-uninfected group. The results show that in the Ct+ group, the host MHC class II immune response was highly induced. Ct infection is associated with the regulation of DNA methylation, DNA double-strand damage and ubiquitination. The analysis also shows Ct infection enhances host fatty acid beta oxidation, thereby inducing mROS, and the host responds to reduce ceramide production and glycolysis. The coinfection upregulates GC's own ion transporters and amino acid uptake, while it downregulates GC's restriction and modification systems. Meanwhile, GC has the nitrosative and oxidative stress response and also increases the ability for ferric uptake especially in the Ct+ group compared to Ct-uninfected group. In conclusion, methods in bioinformatics were used here in analyzing the metabolism of Ct itself, and the responses of the host and GC respectively in a coinfection study with and without Ct. These methods provide metabolic and metatranscriptomic details to study Ct metabolism during infection and Ct associated coinfection in the human microbiota.},
  subject      = {chlamydia trachomatis},
  language  = {en}
}
@phdthesis{Lueffe2023,
  author    = {L{\"u}ffe, Teresa Magdalena},
  title     = {Behavioral and pharmacological validation of genetic zebrafish models for ADHD},
  doi       = {10.25972/OPUS-25716},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-257168},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Attention-deficit/hyperactivity disorder (ADHD) is the most prevalent neurodevelopmental disorder described in psychiatry today. ADHD arises during early childhood and is characterized by an age-inappropriate level of inattention, hyperactivity, impulsivity, and partially emotional dysregulation. Besides, substantial psychiatric comorbidity further broadens the symptomatic spectrum. Despite advances in ADHD research by genetic- and imaging studies, the etiopathogenesis of ADHD remains largely unclear. Twin studies suggest a heritability of 70-80 \% that, based on genome-wide investigations, is assumed to be polygenic and a mixed composite of small and large, common and rare genetic variants. In recent years the number of genetic risk candidates is continuously increased. However, for most, a biological link to neuropathology and symptomatology of the patient is still missing. Uncovering this link is vital for a better understanding of the disorder, the identification of new treatment targets, and therefore the development of a more targeted and possibly personalized therapy. The present thesis addresses the issue for the ADHD risk candidates GRM8, FOXP2, and GAD1. By establishing loss of function zebrafish models, using CRISPR/Cas9 derived mutagenesis and antisense oligonucleotides, and studying them for morphological, functional, and behavioral alterations, it provides novel insights into the candidate's contribution to neuropathology and ADHD associated phenotypes. Using locomotor activity as behavioral read-out, the present work identified a genetic and functional implication of Grm8a, Grm8b, Foxp2, and Gad1b in ADHD associated hyperactivity. Further, it provides substantial evidence that the function of Grm8a, Grm8b, Foxp2, and Gad1b in activity regulation involves GABAergic signaling. Preliminary indications suggest that the three candidates interfere with GABAergic signaling in the ventral forebrain/striatum. However, according to present and previous data, via different biological mechanisms such as GABA synthesis, transmitter release regulation, synapse formation and/or transcriptional regulation of synaptic components. Intriguingly, this work further demonstrates that the activity regulating circuit, affected upon Foxp2 and Gad1b loss of function, is involved in the therapeutic effect mechanism of methylphenidate. Altogether, the present thesis identified altered GABAergic signaling in activity regulating circuits in, presumably, the ventral forebrain as neuropathological underpinning of ADHD associated hyperactivity. Further, it demonstrates altered GABAergic signaling as mechanistic link between the genetic disruption of Grm8a, Grm8b, Foxp2, and Gad1b and ADHD symptomatology like hyperactivity. Thus, this thesis highlights GABAergic signaling in activity regulating circuits and, in this context, Grm8a, Grm8b, Foxp2, and Gad1b as exciting targets for future investigations on ADHD etiopathogenesis and the development of novel therapeutic interventions for ADHD related hyperactivity. Additionally, thigmotaxis measurements suggest Grm8a, Grm8b, and Gad1b as interesting candidates for prospective studies on comorbid anxiety in ADHD. Furthermore, expression analysis in foxp2 mutants demonstrates Foxp2 as regulator of ADHD associated gene sets and neurodevelopmental disorder (NDD) overarching genetic and functional networks with possible implications for ADHD polygenicity and comorbidity. Finally, with the characterization of gene expression patterns and the generation and validation of genetic zebrafish models for Grm8a, Grm8b, Foxp2, and Gad1b, the present thesis laid the groundwork for future research efforts, for instance, the identification of the functional circuit(s) and biological mechanism(s) by which Grm8a, Grm8b, Foxp2, and Gad1b loss of function interfere with GABAergic signaling and ultimately induce hyperactivity.},
  language  = {en}
}
@phdthesis{Bertolini2020,
  author    = {Bertolini, Enrico},
  title     = {Comparative analysis of insect circadian clocks: a behavioural, anatomical, and molecular study},
  doi       = {10.25972/OPUS-16465},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-164651},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Biological clocks are endogenous oscillators that give organisms the sense of time. Insects, as the largest taxonomic group, offer fascinating models to study the evolution of clocks and their adaptation to various environments. Although the laboratory fruit fly, Drosophila melanogaster, led the role in the field of circadian biology as it provides a powerful genetic experimental tool, new model insect species need to be established to understand photoperiodic responses and to enable comparative studies. This work reports the behavioural, anatomical, and molecular characterization of the circadian clock of five insect species. The malt fly Chymomyza costata carries a D. melanogaster-like clock network, which supports circadian rhythms under rhythmic environment but cannot self-sustain when isolated from external time cues. The olive fly Bactrocera oleae is the major pest of olive plantations and the characterization of its circadian clock will improve future pest management strategies. The linden bug Pyrrhocoris apterus, a well suited model for investigating circadian and photoperiodic timing interactions, shows high degree of homology of the clock network with D. melanogaster. The scuttle flies Megaselia scalaris and Megaselia abdita represent new fascinating models to study how the clock network controls circadian behaviour. Overall, this work highlights high degree of homology between different circadian clock systems, but at the same time also dramatic differences in terms of circadian behaviour and neuro-anatomical expression of clock components. These have been mainly discussed in regards to the evolution of clocks in Diptera, and the adaptation of clocks to high latitudes.},
  language  = {en}
}
@phdthesis{TawkTaouk2018,
  author    = {Tawk [Taouk], Caroline S.},
  title     = {The role of host-stress in the infection by the bacterial pathogen \(Shigella\) \(flexneri\)},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151107},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {The human-bacterial pathogen interaction is a complex process that results from a prolonged evolutionary arms race in the struggle for survival. The pathogen employs virulence strategies to achieve host colonization, and the latter counteracts using defense programs. The encounter of both organisms results in drastic physiological changes leading to stress, which is an ancient response accompanying infection. Recent evidence suggests that the stress response in the host converges with the innate immune pathways and influences the outcome of infection. However, the contribution of stress and the exact mechanism(s) of its involvement in host defense remain to be elucidated. Using the model bacterial pathogen Shigella flexneri, and comparing it with the closely related pathogen Salmonella Typhimurium, this study investigated the role of host stress in the outcome of infection. Shigella infection is characterized by a pronounced pro-inflammatory response that causes intense stress in host tissues, particularly the intestinal epithelium, which constitutes the first barrier against Shigella colonization. In this study, inflammatory stress was simulated in epithelial cells by inducing oxidative stress, hypoxia, and cytokine stimulation. Shigella infection of epithelial cells exposed to such stresses was strongly inhibited at the adhesion/binding stage. This resulted from the depletion of sphingolipidrafts in the plasma membrane by the stress-activated sphingomyelinases. Interestingly, Salmonella adhesion was not affected, by virtue of its flagellar motility, which allowed the gathering of bacteria at remaining membrane rafts. Moreover, the intracellular replication of Shigella lead to a similar sphingolipid-raft depletion in the membrane across adjacent cells inhibiting extracellular bacterial invasion. Additionally, this study shows that Shigella infection interferes with the host stress granule-formation in response to stress. Interestingly, infected cells exhibited a nuclear depletion of the global RNA-binding stress-granule associated proteins TIAR and TIA-1 and their accumulation in the cytoplasm. Overall, this work investigated different aspects of the host stress-response in the defense against bacterial infection. The findings shed light on the importance of the host stress-pathways during infection, and improve the understanding of different strategies in host-pathogen interaction.},
  subject      = {Shigella flexneri},
  language  = {en}
}
@phdthesis{JimenezMartin2022,
  author    = {Jim{\´e}nez Mart{\´i}n, Ovidio Manuel},
  title     = {Analysis of MYCN and MAX alterations in Wilms Tumor},
  doi       = {10.25972/OPUS-24291},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-242919},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Wilms tumor (WT) is the most common renal tumor in childhood. Among others, MYCN copy number gain and MYCN P44L and MAX R60Q mutations have been identified in WT. The proto-oncogene MYCN encodes a transcription factor that requires dimerization with MAX to activate transcription of numerous target genes. MYCN gain has been associated with adverse prognosis. The MYCN P44L and MAX R60Q mutations, located in either the transactivating or basic helix-loop-helix domain, respectively, are predicted to be damaging by different pathogenicity prediction tools. These mutations have been reported in several other cancers and remain to be functionally characterized. In order to further describe these events in WT, we screened both mutations in a large cohort of unselected WT patients, to check for an association of the mutation status with certain histological or clinical features. MYCN P44L and MAX R60Q revealed frequencies of 3 \% and 0.9 \% and also were significantly associated to higher risk of relapse and metastasis, respectively. Furthermore, to get a better understanding of the MAX mutational landscape in WT, over 100 WT cases were analyzed by Sanger sequencing to identify other eventual MAX alterations in its coding sequence. R60Q remained the only MAX CDS alteration described in WT to date. To analyze the potential functional consequences of these mutations, we used a doxycycline-inducible system to overexpress each mutant in HEK293 cells. This biochemical characterization identified a reduced transcriptional activation potential for MAX R60Q, while the MYCN P44L mutation did not change activation potential or protein stability. The protein interactome of N-MYC-P44L was likewise not altered as shown by mass spectrometric analyses of purified N-MYC complexes. However, we could identify a number of novel N-MYC partner proteins, several of these known for their oncogenic potential. Their correlated expression in WT samples suggested a role in WT oncogenesis and they expand the range of potential biomarkers for WT stratification and targeting, especially for high-risk WT.},
  subject      = {Nephroblastom},
  language  = {en}
}
@phdthesis{Figueiredo2021,
  author    = {Figueiredo, Ludmilla},
  title     = {Extinction debt of plants, insects and biotic interactions: interactive effects of habitat fragmentation and climate change},
  doi       = {10.25972/OPUS-23873},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-238738},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {The importance of understanding species extinctions and its consequences for ecosystems and human life has been getting increasing public attention. Nonetheless, regardless of how pressing the current biodiversity loss is, with rare exceptions, extinctions are actually not immediate. Rather, they happen many generations after the disturbance that caused them. This means that, at any point in time after a given disturbance, there is a number of extinctions that are expected to happen. This number is the extinction debt. As long as all the extinctions triggered by the disturbance have not happened, there is a debt to be paid. This delay in extinctions can be interpreted as a window of opportunity, when conservation measures can be implemented. In this thesis, I investigated the relative importance of ecological and evolutionary processes unfolding after different disturbances scenarios, to understand how this knowledge can be used to improve conservation practices aiming at controlling extinctions. In the Introduction (chapter 1), I present the concept of extinction debts and the complicating factors behind its understanding. Namely, I start by presenting i) the theoretical basis behind the definition of extinction debts, and how each theory informed different methodologies of study, ii) the complexity of understanding and predicting eco-evolutionary dynamics, and iii) the challenges to studying extinctions under a regime of widespread and varied disturbance of natural habitats. I start the main body of the thesis (chapter 2) by summarizing the current state of empirical, theoretical, and methodological research on extinction debts. In the last 10 years, extinction debts were detected all over the globe, for a variety of ecosystems and taxonomic groups. When estimated - a rare occurrence, since quantifying debts requires often unavailable data - the sizes of these debts range from 9 to 90\\% of current species richness and they have been sustained for periods ranging from 5 to 570 yr. I identified two processes whose contributions to extinction debts have been studied more often, namely 1) life-history traits that prolong individual survival, and 2) population and metapopulation dynamics that maintain populations under deteriorated conditions. Less studied are the microevolutionary dynamics happening during the payment of a debt, the delayed conjoint extinctions of interaction partners, and the extinction dynamics under different regimes of disturbances (e.g. habitat loss vs. climate change). Based on these observations, I proposed a roadmap for future research to focus on these less studies aspects. In chapters 3 and 4, I started to follow this roadmap. In chapter 3, I used a genomically-explicit, individual-based model of a plant community to study the microevolutionary processes happening after habitat loss and climate change, and potentially contributing to the settlement of a debt. I showed that population demographic recovery through trait adaptation, i.e. evolutionary rescue, is possible. In these cases, rather than directional selection, trait change involved increase in trait variation, which I interpreted as a sign of disruptive selection. Moreover, I disentangled evolutionary rescue from demographic rescue and show that the two types of rescue were equally important for community resistance, indicating that community re-assembly plays an important role in maintaining diversity following disturbance. The results demonstrated the importance of accounting for eco-evolutionary processes at the community level to understand and predict biodiversity change. Furthermore, they indicate that evolutionary rescue has a limited potential to avoid extinctions under scenarios of habitat loss and climate change. In chapter 4, I analysed the effects of habitat loss and disruption of pollination function on the extinction dynamics of plant communities. To do it, I used an individual, trait-based eco-evolutionary model (Extinction Dynamics Model, EDM) parameterized according to real-world species of calcareous grasslands. Specifically, I compared the effects of these disturbances on the magnitude of extinction debts and species extinction times, as well as how species functional traits affect species survival. I showed that the loss of habitat area generates higher number of immediate extinctions, but the loss of pollination generates higher extinction debt, as species take longer to go extinct. Moreover, reproductive traits (clonal ability, absence of selfing and insect pollination) were the traits that most influenced the occurrence of species extinction as payment of the debt. Thus, the disruption of pollination functions arose as a major factor in the creation of extinction debts. Thus, restoration policies should aim at monitoring the status of this and other ecological processes and functions in undisturbed systems, to inform its re-establishment in disturbed areas. Finally, I discuss the implications of these findings to i) the theoretical understanding of extinction debts, notably via the niche, coexistence, and metabolic theories, ii) the planning conservation measures, including communicating the very notion of extinction debts to improve understanding of the dimension of the current biodiversity crisis, and iii) future research, which must improve the understanding of the interplay between extinction cascades and extinction debts.},
  subject      = {Aussterbedynamik},
  language  = {en}
}
@phdthesis{Eckert2023,
  author    = {Eckert, Ina-Nathalie},
  title     = {Molecular markers of myeloid-derived suppressor cells and their functional role for homing and in disease models in mice},
  doi       = {10.25972/OPUS-31997},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-319974},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {MDSCs are suppressive immune cells with a high relevance in various pathologies including cancer, autoimmunity, and chronic infections. Surface marker expression of MDSCs resembles monocytes and neutrophils which have immunostimulatory functions instead of suppressing T cells. Therefore, finding specific surface markers for MDSCs is important for MDSC research and therapeutic MDSC manipulation. In this study, we analyzed if the integrin VLA-1 has the potential as a novel MDSC marker. VLA-1 was expressed by M-MDSCs but not by G-MDSCs as well as by Teff cells. VLA-1 deficiency did not impact iNOS expression, the distribution of M-MDSC and G-MDSC subsets, and the suppressive capacity of MDSCs towards na{\"i}ve and Teff cells in vitro. In mice, VLA-1 had no effect on the homing capability of MDSCs to the spleen, which is a major reservoir for MDSCs. Since the splenic red pulp contains collagen IV and VLA-1 binds collagen IV with a high affinity, we found MDSCs and Teff cells in this area as expected. We showed that T cell suppression in the spleen, indicated by reduced T cell recovery and proliferation as well as increased apoptosis and cell death, partially depended on VLA-1 expression by the MDSCs. In a mouse model of multiple sclerosis, MDSC injection prior to disease onset led to a decrease of the disease score, and this effect was significantly reduced when MDSCs were VLA-1 deficient. The expression of Sema7A by Teff cells, a ligand for VLA-1 which is implicated in negative T cell regulation, resulted in a slightly stronger Teff cell suppression by MDSCs compared to Sema7A deficient T cells. Live cell imaging and intravital 2-photon microscopy showed that the interaction time of MDSCs and Teff cells was shorter when MDSCs lacked VLA 1 expression, however VLA-1 expression had no impact on MDSC mobility. Therefore, the VLA-1-dependent interaction of MDSC and Teff cells on collagen IV in the splenic red pulp is implicated MDSC-mediated Teff cell suppression.},
  subject      = {Immunologie},
  language  = {en}
}