@phdthesis{Zimmermann2020, author = {Zimmermann, Henriette}, title = {Antigenic variation and stumpy development in \(Trypanosoma\) \(brucei\)}, doi = {10.25972/OPUS-14690}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-146902}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2020}, abstract = {The eukaryotic parasite Trypanosoma brucei has evolved sophisticated strategies to persist within its mammalian host. Trypanosomes evade the hosts' immune system by antigenic variation of their surface coat, consisting of variant surface glycoproteins (VSGs). Out of a repertoire of thousands of VSG genes, only one is expressed at any given time from one of the 15 telomeric expression sites (ES). The VSG is stochastically exchanged either by a transcriptional switch of the active ES (in situ switch) or by a recombinational exchange of the VSG within the active ES. However, for infections to persist, the parasite burden has to be limited. The slender (sl) bloodstream form secretes the stumpy induction factor (SIF), which accumulates with rising parasitemia. SIF induces the irreversible developmental transition from the proliferative sl to the cell cycle-arrested but fly-infective stumpy (st) stage once a concentration threshold is reached. Thus, antigenic variation and st development ensure persistent infections and transmissibility. A previous study in monomorphic cells indicated that the attenuation of the active ES could be relevant for the development of trypanosomes. The present thesis investigated this hypothesis using the inducible overexpression of an ectopic VSG in pleomorphic trypanosomes, which possess full developmental competence. These studies revealed a surprising phenotypic plasticity: while the endogenous VSG was always down-regulated upon induction, the ESactivity determined whether the VSG overexpressors arrested in growth or kept proliferating. Full ES-attenuation induced the differentiation of bona fide st parasites independent of the cell density and thus represents the sole natural SIF-independent differentiation trigger to date. A milder decrease of the ES-activity did not induce phenotypic changes, but appeared to prime the parasites for SIF-induced differentiation. These results demonstrate that antigenic variation and development are linked and indicated that the ES and the VSG are independently regulated. Therefore, I investigated in the second part of my thesis how ES-attenuation and VSG-silencing can be mediated. Integration of reporters with a functional or defective VSG 3'UTR into different genomic loci showed that the maintenance of the active state of the ES depends on a conserved motif within the VSG 3'UTR. In situ switching was only triggered when the telomere-proximal motif was partially deleted, suggesting that it serves as a DNA-binding motif for a telomere-associated protein. The VSG levels seem to be additionally regulated in trans based on the VSG 3'UTR independent of the genomic context, which was reinforced by the regulation of a constitutively expressed reporter with VSG 3' UTR upon ectopic VSG overexpression.}, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Zheng2012, author = {Zheng, Peilin}, title = {Ptpn22 silencing in the NOD model of type 1 diabetes indicates the human susceptibility allele of PTPN22 is a gain-of-function variant}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-73869}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2012}, abstract = {PTPN22 encodes the lymphoid tyrosine phosphatase Lyp that can dephosphorylate Lck, ZAP-70 and Fyn to attenuate TCR signaling. A single-nucleotide polymorphism (C1858T) causes a substitution from arginine (R) to tryptophan (W) at 620 residue (R620W). Lyp-620W has been confirmed as a susceptible allele in multiple autoimmune diseases, including type 1 diabetes (T1D). Several independent studies proposed that the disease-associated allele is a gain-of-function variant. However, a recent report found that in human cells and a knockin mouse containing the R620W homolog that Ptpn22 protein degradation is accelerated, indicating Lyp-620W is a loss-of-function variant. Whether Lyp R620W is a gain- or loss-of-function variant remains controversial. To resolve this issue, we generated two lines (P2 and P4) of nonobese diabetic (NOD) mice in which Ptpn22 can be inducibly silenced by RNAi. We found long term silencing of Ptpn22 increased spleen cellularity and regulatory T (Treg) cell numbers, replicating the effect of gene deletion reported in the knockout (KO) B6 mice. Notably, Ptpn22 silencing also increased the reactivity and apoptotic behavior of B lymphocytes, which is consistent with the reduced reactivity and apoptosis of human B cells carrying the alleged gain-of-function PTPN22 allele. Furthermore, loss of Ptpn22 protected P2 KD mice from spontaneous and Cyclophosphamide (CY) induced diabetes. Our data support the notion that Lyp-620W is a gain-of-function variant. Moreover, Lyp may be a valuable target for the treatment of autoimmune diseases.}, subject = {Diabetes mellitus}, language = {en} } @phdthesis{Zhang2014, author = {Zhang, Yi}, title = {Regulation of Agrobacterial Oncogene Expression in Host Plants}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-102578}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Virulent Agrobacterium tumefaciens strains transfer and integrate a DNA region of the tumor-inducing (Ti) plasmid, the T-DNA, into the plant genome and thereby cause crown gall disease. The most essential genes required for crown gall development are the T-DNA-encoded oncogenes, IaaH (indole-3-acetamide hydrolase), IaaM (tryptophan monooxygenase) for auxin, and Ipt (isopentenyl transferase) for cytokinin biosynthesis. When these oncogenes are expressed in the host cell, the levels of auxin and cytokinin increase and cause cell proliferation. The aim of this study was to unravel the molecular mechanisms, which regulate expression of the agrobacterial oncogenes in plant cells. Transcripts of the three oncogenes were expressed in Arabidopsis thaliana crown galls induced by A. tumefaciens strain C58 and the intergenic regions (IGRs) between their coding sequences (CDS) were proven to have promoter activity in plant cells. These promoters possess eukaryotic sequence structures and contain cis-regulatory elements for the binding of plant transcription factors. The high-throughput protoplast transactivation (PTA) system was used and identified the Arabidopsis thaliana transcription factors WRKY18, WRKY40, WRKY60 and ARF5 to activate the Ipt oncogene promoter. No transcription factor promoted the activity of the IaaH and IaaM promoters, despite the fact that the sequences contained binding elements for type B ARR transcription factors. Likewise, the treatment of Arabidopsis mesophyll protoplasts with cytokinin (trans-zeatin) and auxin (1-NAA) exerted no positive effect on IaaH and IaaM promoter activity. In contrast, the Ipt promoter strongly responded to a treatment with auxin and only modestly to cytokinin. The three Arabidopsis WRKYs play a role in crown gall development as the wrky mutants developed smaller crown galls than wild-type plants. The WRKY40 and WRKY60 genes responded very quickly to pathogen infection, two and four hours post infection, respectively. Transcription of the WRKY18 gene was induced upon buffer infiltration, which implicates a response to wounding. The three WRKY proteins interacted with ARF5 and with each other in the plant nucleus, but only WRKY40 together with ARF5 increased activation of the Ipt promoter. Moreover, ARF5 activated the Ipt promoter in an auxin-dependent manner. The severe developmental phenotype of the arf5 mutant prevented studies on crown gall development, nevertheless, the reduced crown gall growth on the transport inhibitor response 1 (TIR1) tir1 mutant, lacking the auxin sensor, suggested that auxin signaling is required for optimal crown gall development. In conclusion, A. tumefaciens recruits the pathogen defense related WRKY40 pathway to activate Ipt expression in T-DNA-transformed plant cells. IaaH and IaaM gene expression seems not to be controlled by transcriptional activators, but the increasing auxin levels are signaled via ARF5. The auxin-depended activation of ARF5 boosts expression of the Ipt gene in combination with WRKY40 to increase cytokinin levels and induce crown gall development.}, subject = {Agrobacterium tumefaciens}, language = {en} } @phdthesis{Ye2004, author = {Ye, Fang}, title = {The role of DNA supercoiling in the coordinated regulation of gene expression in Helicobacter pylori}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9878}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2004}, abstract = {Summary Mechanisms of global gene regulation in bacteria are not well characterized yet. Changes in global or local supercoiling of chromosomal DNA are thought to play a role in global gene silencing and gene activation. In Helicobacter pylori, a bacterium with few dedicated transcriptional regulators, the structure of some promoters indicates a dependency on DNA topology. For example, the promoter of the major flagellar subunit gene flaA ({\´o}28-dependent) has a shorter spacing of 13 nucleotides (nt) in comparison to the consensus promoter (15 nt). Supercoiling changes might be a mechanism of gene-specific and global transcriptional regulation in this bacterium. The aim of this study was to elucidate, if changes in global supercoiling have an influence on global gene regulation in H. pylori, and on the temporal regulation of the flagellar biosynthesis pathway in this organism. In the present work, global DNA supercoiling in H. pylori was visualized for the first time, by determining the supercoiling state of plasmids under different growth conditions. Using this method, we showed that cellular supercoiling was clearly growth phase-dependent in H. pylori. Coinciding with increased supercoiling during the growth phases, transcription of the flaA gene was increased, while the transcription of a second {\´o}28-dependent gene with regular promoter spacing (HP0472) was reduced, supporting the hypothesis that growth phase-dependency of promoters might be mediated by changes of DNA topology. Supercoiling in H. pylori could be influenced in a reproducible fashion by inhibition of gyrase using novobiocin, which led to DNA relaxation and to a concomitant decrease of flaA transcript levels. Promoter spacer mutagenesis of the flaA promoter was performed. With flaA promoters of increased or reduced length, transcription of flaA was reduced, less susceptible to supercoiling changes, and, under specific conditions, inverted as compared to the wild type promoter. Transcriptional interdependence between the coupled topA-flaB genes and flaA was found by analysis of the flaA promoter mutants. Chromosomally linked gyrA-flgR, and topA-flaB genes were all dependent on supercoiling and coregulated with each other. Comprehensive transcript profiling (DNA microarrays) of wildtype H. pylori with and without novobiocin treatment identified a number of genes (10\% of total genes), including flagellin, virulence and housekeeping genes, which were strongly dependent on and appeared to be synchronized by supercoiling changes (transcriptional up- or downregulation). These findings indicate a tightly coupled temporal regulation of flagellar biogenesis and metabolism in H. pylori, dependent on global supercoiling. A specific group of genes was also regulated in H. pylori by overexpression of Topoisomerase I, as detected by genome-wide analysis (DNA microarray). The DNA-bending protein HU is thought to be responsible for influencing the negative supercoiling of DNA, through its ability to wrap DNA. HU is encoded by the hup single gene in H. pylori, and constitutively expressed during the whole growth curve. An H. pylori hup mutant was constructed. H. pylori cells lacking HU protein were viable, but exhibited a severe growth defect. Our data indicate that the lack of HU dramatically changes global DNA supercoiling, indicating an important function of HU in chromosome structuring in H. pylori. Transcriptome analyses were performed and demonstrated that a total of 66 genes were differentially transcribed upon hup deletion, which include virulence genes and many other cell functions. The data indicate that HU might act as further important global regulator in H. pylori. Increased gene expression of heat shock proteins and a decreased transcription of the urease gene cluster may indicate a co-ordinated response of H. pylori to changes of environmental conditions in its specific ecological niche, mediated by HU. After the whole genomic sequences of H. pylori strains 26695 and J99 were published, two ORFs (HP0116 and HP0440) were presumptively annotated as topoisomerase I orthologs. HP0116 is the functional H. pylori topoisomerase I (TopA). HP0440 (topA2) was found in only few (5 of 43) strains. Western blot analysis indicated that TopA2 is antigenically different from TopA. TopA2 is transcribed in H. pylori, but the protein must be functionally different from TopA, since it is lacking one functionally essential zinc finger motif, and was not able to functionally complement a TopA-deficient E. coli. Like topA, topA2 was also transcribed in a growth phase-dependent manner. We did not find a function of TopA2 in DNA structuring or topology, but, in the present study, we were able for the first time to establish a unique function for TopA2 in global gene regulation, by comprehensive transcriptome analysis (DNA microarray). Transcriptome analysis showed that a total of 46 genes were differentially regulated upon topA2 deletion, which included flagellar genes and urease genes. These results suggest that TopA2 might act as a novel important regulator of both flagellar biosynthesis and urease in H. pylori.}, subject = {Helicobacter pylori}, language = {en} } @phdthesis{Wu2006, author = {Wu, Rongxue}, title = {Integrins and SPARC : potential implications for cardiac remodeling}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-17531}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2006}, abstract = {Der enorme Umbau des Herzgewebes, wie man ihn nach Druck{\"u}berlastung des Ventrikels oder MyokardInfarkt beobachten kann, gilt als eine der kausalen Ursachen des Herzversagens. Die Ver{\"a}nderungen in der Architektur des Herzens beeinflussen die mechanischen Eigenschaften des Herzmuskels, begr{\"u}ndet sind sie jedoch in Anpassungsprozessen auf der zellul{\"a}ren Ebene vor allem in einer Modulation der Expression bestimmter Gene. Gemeinsam mit Integrinen, den Transmembran-Rezeptoren, welche die extrazellul{\"a}re Umgebung mit dem intrazellul{\"a}ren Zytoskelett verbinden, geh{\"o}ren Proteine der extrazellul{\"a}ren Matrix (ECM) und matrizellul{\"a}re Proteine zu den Schl{\"u}sselkomponenten, die den Umbauprozess im Herzen steuern. Aus diesen Gr{\"u}nden hatte diese Doktorarbeit zum Ziel, die Rolle der Integrine f{\"u}r die Regulation der Genexpression und die Leistungsf{\"a}higkeit des Herzmuskels w{\"a}hrend der durch Druck{\"u}berlastung oder myokardialen Infarkt (MI) hervorgerufenen Wundheilungsprozesse zu analysieren. Um die Beteiligung von Integrin Beta 1 zu untersuchen, wurde ein experimentelles Modell der Druck{\"u}berlastung im Mausherzen (aortic banding; Konstriktion der Aorta; AB) eingesetzt, wobei M{\"a}use mit einer konditionalen, Herz-spezifischen Deletion des Integrin Beta 1 Gens untersucht wurden. Ein besonderes Augenmerk wurde dabei auf die physiologischen Unterschiede und eine ver{\"a}nderte Genexpression im gestressten Herzen in An- oder Abwesenheit von Integrin Beta 1 gelegt. Interessanterweise wurden die M{\"a}use, welche eine Kombination aus Integrin knock-out Allel und dem Kardiomyozyten-spezifischen konditionalen knock-out Allel von Integrin Beta 1 aufwiesen im normalen Mendelschen Verh{\"a}ltnis geboren und wuchsen normal auf. Obwohl diese Tiere immer noch geringe Mengen von Integrin Beta 1 in ihrem Herzen aufwiesen (exprimiert von nicht-Myozyten), besaßen diese M{\"a}use eine ver{\"a}nderte Herzfunktion und waren sehr sensitiv gegen{\"u}ber AB. Im Gegensatz zu der kompensatorischen hypertrophischen Reaktion, die in Wildtyp M{\"a}usen zu beobachten war, zeigte sich in den Integrin Beta 1-defizienten Mausherzen kein Gewebeumbau. Auch die erh{\"o}hte Expression von verschiedenen ECM Proteinen, insbesondere die verst{\"a}rkte Expression des matrizellul{\"a}ren Proteins SPARC, unterblieb nach AB in den Integrin Beta 1-defizienten Tieren. Interessanterweise konnte auch eine transiente Erh{\"o}hung der SPARC mRNA w{\"a}hrend der Umbauprozesse im Herzen in Folge von myokardialem Infarkt (MI) mittels cDNA Makroarrays festgestellt werden. In der Tat fanden sich gr{\"o}ßere Mengen von SPARC bereits 2 Tage (~2,5-fach erh{\"o}ht), 7 Tage (~4-fach erh{\"o}ht) und 1 Monat (~2-fach erh{\"o}ht) nach MI, w{\"a}hrend ein spezifischer Inhibitor der Integrin alpha v Untereinheit diese Hochregulation von SPARC in vivo verhinderte. Immunfluoreszenz Untersuchungen von Herzgewebe verdeutlichten, dass sich die erh{\"o}hte Expression von SPARC auf das Infarktareal beschr{\"a}nkte, dass die Expression von SPARC nach einer anf{\"a}nglichen Erh{\"o}hung im Verlauf von 1 Monaten wieder auf das Anfangsniveau zur{\"u}ckging und dass die verst{\"a}rkte Expression von der Einwanderung von Fibroblasten in das isch{\"a}mische Herzgewebe begleitet war. In vitro stimulierten die Wachstumsfaktoren TGF-Beta 1 und PDGF-BB die Expression von SPARC durch Fibroblasten. Wie sich an Hand von ELISA und Western Blot Untersuchungen feststellen ließ, war die Inhibition von Integrin Beta v nicht in der Lage, die durch TGF-Beta 1 oder PDGF induzierte Sekretion von SPARC zu beeinflussen. Jedoch zeigte sich, dass Vitronektin, ein Ligand von Integrin alpha v, sowohl die Sekretion von TGF-Beta 1 als auch von PDGF-BB durch Kardiomyozyten induzierte und diese Reaktion wurde durch den Integrin alpha v Inhibitor komplett unterdr{\"u}ckt. In funktioneller Hinsicht wirkte SPARC auf die durch ECM Proteine induzierte Migration von Fibroblasten ein, so dass man davon ausgehen kann, dass die lokale Freisetzung von SPARC nach myokardialem Infarkt zur Wundheilung im Herzen beitr{\"a}gt. Zusammenfassend l{\"a}ßt die Kombination der in vivo und in vitro erhobenen experimentellen Daten den Schluss zu, dass mehrere Integrin Untereinheiten eine entscheidende Rolle w{\"a}hrend der Gewebeumbildung im Herzen spielen. Integrin-abh{\"a}ngige Genexpressionsereignisse wie beispielsweise die erh{\"o}hte Expression von SPARC nach MI sind entscheidend an der Koordination der Wundheilung beteiligt. Diese Prozesse scheinen auf einer komplexen Wechselwirkung und Kommunikation zwischen verschiedenen Zelltypen wie Kardiomyozyten und Fibroblasten zu beruhen, um lokal begrenzt eine Heilung und Vernarbung des verletzten Gewebes zu regulieren. Die Aufkl{\"a}rung des fein abgestimmten Wechselspiels zwischen Integrinen matrizellul{\"a}ren Proteinen wie SPARC und Wachstumsfaktoren wird sicherlich zu einem besseren und klinisch nutzbarem Verst{\"a}ndnis der molekularen Mechanismen des Gewebeumbaus im Herzen beitragen.}, subject = {Integrine}, language = {en} } @phdthesis{WeinstockgebPattschull2019, author = {Weinstock [geb. Pattschull], Grit}, title = {Crosstalk between the MMB complex and YAP in transcriptional regulation of cell cycle genes}, doi = {10.25972/OPUS-17086}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-170866}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {The Myb-MuvB (MMB) multiprotein complex is a master regulator of cell cycle-dependent gene expression. Target genes of MMB are expressed at elevated levels in several different cancer types and are included in the chromosomal instability (CIN) signature of lung, brain, and breast tumors. This doctoral thesis showed that the complete loss of the MMB core subunit LIN9 leads to strong proliferation defects and nuclear abnormalities in primary lung adenocarcinoma cells. Transcriptome profiling and genome-wide DNA-binding analyses of MMB in lung adenocarcinoma cells revealed that MMB drives the expression of genes linked to cell cycle progression, mitosis, and chromosome segregation by direct binding to promoters of these genes. Unexpectedly, a previously unknown overlap between MMB-dependent genes and several signatures of YAP-regulated genes was identified. YAP is a transcriptional co-activator acting downstream of the Hippo signaling pathway, which is deregulated in many tumor types. Here, MMB and YAP were found to physically interact and co-regulate a set of mitotic and cytokinetic target genes, which are important in cancer. Furthermore, the activation of mitotic genes and the induction of entry into mitosis by YAP were strongly dependent on MMB. By ChIP-seq and 4C-seq, the genome-wide binding of MMB upon YAP overexpression was analyzed and long-range chromatin interaction sites of selected MMB target gene promoters were identified. Strikingly, YAP strongly promoted chromatin-association of B-MYB through binding to distal enhancer elements that interact with MMB-regulated promoters through chromatin looping. Together, the findings of this thesis provide a so far unknown molecular mechanism by which YAP and MMB cooperate to regulate mitotic gene expression and suggest a link between two cancer-relevant signaling pathways.}, subject = {Krebs }, language = {en} } @phdthesis{Wedel2018, author = {Wedel, Carolin}, title = {The impact of DNA sequence and chromatin on transcription in \(Trypanosoma\) \(brucei\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173438}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {For cellular viability, transcription is a fundamental process. Hereby, the DNA plays the most elemental and highly versatile role. It has long been known that promoters contain conserved and often well-defined motifs, which dictate the site of transcription initiation by providing binding sites for regulatory proteins. However, research within the last decade revealed that it is promoters lacking conserved promoter motifs and transcribing constitutively expressed genes that constitute the majority of promoters in eukaryotes. While the process of transcription initiation is well studied, whether defined DNA sequence motifs are required for the transcription of constitutively expressed genes in eukaryotes remains unknown. In the highly divergent protozoan parasite Trypanosoma brucei, most of the proteincoding genes are organized in large polycistronic transcription units. The genes within one polycistronic transcription unit are generally unrelated and transcribed by a common transcription start site for which no RNA polymerase II promoter motifs have been identified so far. Thus, it is assumed that transcription initiation is not regulated but how transcription is initiated in T. brucei is not known. This study aimed to investigate the requirement of DNA sequence motifs and chromatin structures for transcription initiation in an organism lacking transcriptional regulation. To this end, I performed a systematic analysis to investigate the dependence of transcription initiation on the DNA sequence. I was able to identify GT-rich promoter elements required for directional transcription initiation and targeted deposition of the histone variant H2A.Z, a conserved component during transcription initiation. Furthermore, nucleosome positioning data in this work provide evidence that sites of transcription initiation are rather characterized by broad regions of open and more accessible chromatin than narrow nucleosome depleted regions as it is the case in other eukaryotes. These findings highlight the importance of chromatin during transcription initiation. Polycistronic RNA in T. brucei is separated by adding an independently transcribed miniexon during trans-splicing. The data in this work suggest that nucleosome occupancy plays an important role during RNA maturation by slowing down the progressing polymerase and thereby facilitating the choice of the proper splice site during trans-splicing. Overall, this work investigated the role of the DNA sequence during transcription initiation and nucleosome positioning in a highly divergent eukaryote. Furthermore, the findings shed light on the conservation of the requirement of DNA motifs during transcription initiation and the regulatory potential of chromatin during RNA maturation. The findings improve the understanding of gene expression regulation in T. brucei, a eukaryotic parasite lacking transcriptional Regulation.}, subject = {Transkription}, language = {en} } @phdthesis{Vainshtein2010, author = {Vainshtein, Yevhen}, title = {Applying microarray-based techniques to study gene expression patterns: a bio-computational approach}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-51967}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2010}, abstract = {The regulation and maintenance of iron homeostasis is critical to human health. As a constituent of hemoglobin, iron is essential for oxygen transport and significant iron deficiency leads to anemia. Eukaryotic cells require iron for survival and proliferation. Iron is part of hemoproteins, iron-sulfur (Fe-S) proteins, and other proteins with functional groups that require iron as a cofactor. At the cellular level, iron uptake, utilization, storage, and export are regulated at different molecular levels (transcriptional, mRNA stability, translational, and posttranslational). Iron regulatory proteins (IRPs) 1 and 2 post-transcriptionally control mammalian iron homeostasis by binding to iron-responsive elements (IREs), conserved RNA stem-loop structures located in the 5'- or 3'- untranslated regions of genes involved in iron metabolism (e.g. FTH1, FTL, and TFRC). To identify novel IRE-containing mRNAs, we integrated biochemical, biocomputational, and microarray-based experimental approaches. Gene expression studies greatly contribute to our understanding of complex relationships in gene regulatory networks. However, the complexity of array design, production and manipulations are limiting factors, affecting data quality. The use of customized DNA microarrays improves overall data quality in many situations, however, only if for these specifically designed microarrays analysis tools are available. Methods In this project response to the iron treatment was examined under different conditions using bioinformatical methods. This would improve our understanding of an iron regulatory network. For these purposes we used microarray gene expression data. To identify novel IRE-containing mRNAs biochemical, biocomputational, and microarray-based experimental approaches were integrated. IRP/IRE messenger ribonucleoproteins were immunoselected and their mRNA composition was analysed using an IronChip microarray enriched for genes predicted computationally to contain IRE-like motifs. Analysis of IronChip microarray data requires specialized tool which can use all advantages of a customized microarray platform. Novel decision-tree based algorithm was implemented using Perl in IronChip Evaluation Package (ICEP). Results IRE-like motifs were identified from genomic nucleic acid databases by an algorithm combining primary nucleic acid sequence and RNA structural criteria. Depending on the choice of constraining criteria, such computational screens tend to generate a large number of false positives. To refine the search and reduce the number of false positive hits, additional constraints were introduced. The refined screen yielded 15 IRE-like motifs. A second approach made use of a reported list of 230 IRE-like sequences obtained from screening UTR databases. We selected 6 out of these 230 entries based on the ability of the lower IRE stem to form at least 6 out of 7 bp. Corresponding ESTs were spotted onto the human or mouse versions of the IronChip and the results were analysed using ICEP. Our data show that the immunoselection/microarray strategy is a feasible approach for screening bioinformatically predicted IRE genes and the detection of novel IRE-containing mRNAs. In addition, we identified a novel IRE-containing gene CDC14A (Sanchez M, et al. 2006). The IronChip Evaluation Package (ICEP) is a collection of Perl utilities and an easy to use data evaluation pipeline for the analysis of microarray data with a focus on data quality of custom-designed microarrays. The package has been developed for the statistical and bioinformatical analysis of the custom cDNA microarray IronChip, but can be easily adapted for other cDNA or oligonucleotide-based designed microarray platforms. ICEP uses decision tree-based algorithms to assign quality flags and performs robust analysis based on chip design properties regarding multiple repetitions, ratio cut-off, background and negative controls (Vainshtein Y, et al., 2010).}, subject = {Microarray}, language = {en} } @phdthesis{Tyrsin2008, author = {Tyrsin, Dmitry}, title = {Autoregulation of NFATc1 gene}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-26544}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2008}, abstract = {Die Familie der NFAT-Transkriptionsfaktoren (NFATc1-c4) ist im Zuge einer Immunreaktion endscheidend an der transkriptionellen Regulation der Genexpression beteiligt. Wurden NFAT-Faktoren zun{\"a}chst als T-zell-spezifische Aktivatoren von Zytokinpromotoren beschrieben, so hat sich inzwischen gezeigt, dass sie in einer Vielzahl von Geweben eine wichtige Rolle spielen. Als Beispiele seien die Herzklappenentwicklung, die Bildung von Blutgef{\"a}ssen, die Ausbildung neuronaler Axone oder die Osteoklastendifferenzierung genannt [10, 24]. In der hier vorliegenden Arbeit zeigen wir, dass die starke Expression der kurzen Isoform NFATc1/\&\#945;A in Effektor-T-Lymphozyten durch die induzierbare Aktivit{\"a}t des Promoters P1 kontrolliert wird. Die P1 Aktivierung f{\"u}hrt zum Splicing des Exon 1 zu 3 (\&\#945;-Isoformen) und endet meist durch Benutzung der Polyadenylierungsstelle pA1 hinter Exon 9 (A-Isoformen). Der zweite, schw{\"a}cherer Promoter P2 befindet sich vor dem zweiten Exon und ist f{\"u}r die konstitutive Synthese der \&\#946;-Isoformen verantwortlich. Der Transkriptionstart am zweiten Exon geht meist mit der Benutzung einer zweiten, hinter dem 11. Exon gelegenen Polyadenylierungsstelle pA2 einher, die durch alternatives Splicing zur Synthese der Isoformen B und C f{\"u}hrt. Insgesamt k{\"o}nnen so vom nfatc1-Lokus sechs verschiedene Isoformen (\&\#945;A, \&\#945;B, \&\#945;C, \&\#946;A, \&\#946;B und \&\#946;C) generiert werden. Die induzierbare Aktivit{\"a}t des P1-Promoters ist, im Gegensatz zum eher konstitutiv aktiven P2-Promoter, NFAT-abh{\"a}ngig und somit eine Form der Autoregulation. In ruhenden T-Lymphozyten sind einzig die Transkripte der NFATc1/\&\#946;-Isoformen nachweisbar. Nach einer T-Zell-Aktivierung nimmt ihre H{\"a}ufigkeit dann ab, w{\"a}hrend nun die \&\#945;-Isoformen dominant werden. In dieser Arbeit wird gezeigt, dass es nach Induktion prim{\"a}rer Effektor-T-Helfer-Zellen oder in T-Zell-Linien zu einer 15-20-fachen Akkumulation der NFATc1/\&\#945;A mRNA bzw. einer 2-5-fachen Zunahme der NFATc1/\&\#945;B und C mRNAs kommt. Zur maximalen Induktion des P1-Promotors bedarf es zum einen eines anhaltenden Anstiegs der intrazellul{\"a}ren Kalziumkonzentration, die zur Aktivierung der Phosphatase Calcineurin und damit zur Kernlokalisation der NFAT-Faktoren f{\"u}hrt. Zum anderen ist die Aktivierung der Proteinkinase C-Enzyme und der MAP-Kinasen notwendig, wie sie durch Phorbolester in der Zelle vermittelt wird. Dies l{\"a}sst darauf schließen, dass f{\"u}r eine optimale Aktivierung des P1-Promotors sowohl Signale des T-Zell-Rezeptors als auch Signale von Korezeptoren - wie von CD28 - notwendig sind. Da die Induktion von NFATc1/\&\#945;A in NFATc2/NFATc3 doppeldefizienten M{\"a}usen normal erfolgt, kann man schlussfolgern, dass NFATc1 in Form einer Autoregulation die Aktivit{\"a}t des P1-Promoters und damit die Synthese der \&\#945;-Isoformen kontrolliert. Die NFAT-vermittelte Aktivierung des P1-Promoters erfolgt {\"u}ber zwei tandemartig angeordnete NFAT-Bindungsstellen der Nukleotidsequenz TGGAAA, an die jeweils ein NFAT-Protein binden kann. Daneben enth{\"a}lt der Promoter konservierte Bindemotive f{\"u}r CREB-, AP-1, Sp-, NF-kB- und GATA-Faktoren, die wahrscheinlich an der komplexen Kontrolle dieses induzierbaren NFATc1-Promoters beteiligt sind. Zusammengefasst ergibt sich aus diesen Daten das folgende Modell. Die Transkription im nfatc1-Genlokus erfolgt in naiven und in ruhenden Effektor-T-Zellen konstitutiv und gesteuert durch den P2-Promotor. In Folge einer Aktivierung der Zelle verringert sich die Aktivit{\"a}t des P2-Promotors, w{\"a}hrend gleichzeitig der P1-Promotor induziert wird, der zusammen mit einer verst{\"a}rkten Nutzung der pA1-Polyadenylierungssequenz f{\"u}r die massive Zunahme der NFATc1/\&\#945;A-Isoform verantwortlich ist. Dies deutet auf eine besondere Bedeutung dieser kurzen Isoform in der Effektorphase der T-Zell-Aktivierung hin, insbesondere in Th1-Zellen, die NFATc1/\&\#945;A in hohen Konzentrationen produzieren.}, subject = {Autoregulation}, language = {en} } @phdthesis{Subota2011, author = {Subota, Ines}, title = {Switches in trypanosome differentiation: ALBA proteins acting on post-transcriptional mRNA control}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85707}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2011}, abstract = {Trypanosoma brucei is a digenetic eukaryotic parasite that develops in different tissues of a mammalian host and a tsetse fly. It is responsible for sleeping sickness in sub-saharan Africa. The parasite cycle involves more than nine developmental stages that can be clearly distinguished by their general morphology, their metabolism and the relative positioning of their DNA-containing organelles. During their development, trypanosomes remain exclusively extracellular and encounter changing environments with different physico-chemical properties (nutritional availability, viscosity, temperature, etc.). It has been proposed that trypanosomes use their flagellum as a sensing organelle, in agreement with the established role of structurally-related cilia in metazoa and ciliates. Recognition of environmental triggers is presumed to be at the initiation of differentiation events, leading to the parasite stage that is the best suited to the new environment. These changes are achieved by the modification of gene expression programmes, mostly underlying post-transcriptional control of mRNA transcripts. We first demonstrate that the RNA-binding proteins ALBA3/4 are involved in specific differentiation processes during the parasite development in the fly. They are cytosolic and expressed throughout the parasite cycle with the exception of the stages found in the tsetse fly proventriculus, as shown by both immunofluorescence and live cell analysis upon endogenous tagging with YFP. Knock-down of both proteins in the developmental stage preceding these forms leads to striking modifications: cell elongation, cell cycle arrest and relocalization of the nucleus in a posterior position, all typical of processes acting in parasites found in the proventriculus region. When ALBA3 is over-expressed from an exogenous copy during infection, it interferes with the relocalization of the nucleus in proventricular parasites. This is not observed for ALBA4 over-expression that does not visibly impede differentiation. Both ALBA3/4 proteins react to starvation conditions by accumulating in cytoplasmic stress granules together with DHH1, a recognized RNA-binding protein. ALBA3/4 proteins also partially colocalize with granules formed by polyA+ RNA in these conditions. We propose that ALBA are involved in trypanosome differentiation processes where they control a subset of developmentally regulated transcripts. These processes involving ALBA3/4 are likely to result from the specific activation of sensing pathways. In the second part of the thesis, we identify novel flagellar proteins that could act in sensing mechanisms. Several protein candidates were selected from a proteomic analysis of intact flagella performed in the host laboratory. This work validates their flagellar localization with high success (85\% of the proteins examined) and defines multiple different patterns of protein distribution in the flagellum. Two proteins are analyzed during development, one of them showing down-regulation in proventricular stages. The functional analysis of one novel flagellar membrane protein reveals its rapid dynamics within the flagellum but does not yield a visible phenotype in culture. This is coherent with sensory function that might not be needed in stable culture conditions, but could be required in natural conditions during development. In conclusion, this work adds new pieces to the puzzle of identifying molecular switches involved in developmental mRNA control and environmental sensing in trypanosome stages in the tsetse fly.}, subject = {Trypanosoma brucei}, language = {en} }