@phdthesis{Dittmar2008, author = {Dittmar, Sandra}, title = {Masernvirus-induzierte Blockade der transendothelialen Migration von Leukozyten und infektionsvermittelte Virusausbreitung durch Endothelzellschichten}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-35050}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2008}, abstract = {Neben dem bekannten Tropismus des Masernvirus f{\"u}r CD150-positive aktivierte Zellen des Immunsystems, spielt der Endothelzelltropismus f{\"u}r die akute Masernviruserkrankung einschließlich ihren nachfolgenden Komplikationen eine wichtige pathogene Rolle. Die Infektion der Endothelzellen steht in Zusammenhang mit dem Auftreten des MV-Exanthems. Es ist auch m{\"o}glich, dass die „Akute Enzephalitits" und der Viruseintritt ins zentrale Nervensystem wie im Falle der subakuten sklerosierenden Panenzephalitis (SSPE) durch Endothelzellinfektion vermittelt wird. Ziel der Arbeit war herauszufinden, wie und ob das MV Endothelzellbarrieren {\"u}berwinden kann mittels Transport infizierter Leukozyten oder durch Infektion von EZs mit basolateraler Virusfreisetzung. Es wurde untersucht, ob die F{\"a}higkeit von prim{\"a}ren humanen T- Zellen durch polarisierte Zellschichten von „human brain microvascular endothelial cells" (HBMECs) zu wandern durch die Infektion beeinflusst wird. Die F{\"a}higkeit von infizierten Lymphozyten durch die Poren der Filter zu wandern war teilweise beeintr{\"a}chtigt, jedoch war das Ergebnis statistisch nicht signifikant. Im Gegensatz dazu war die F{\"a}higkeit der Zellen durch Endothelzellbarrieren zu wandern drastisch reduziert. Nach Infektion adh{\"a}rierten die Leukozyten st{\"a}rker auf den Endothelzellen. Bei dieser Adh{\"a}sion von PBMCs an Endothelzellen kam es trotz Infektion zur Ausbildung von sogenannten „transmigratory cups" oder docking- Strukturen. Dieser enge Zell-Zell-Kontakt hatte zur Folge, dass die MV-Infektion vom Lymphozyten auf die Endothelzelle {\"u}bertragen wurde. Die MV-H{\"u}llproteine wurden auf der apikalen und basolateralen Seite infizierter Endothelzellen exprimiert wie anhand von Aufnahmen mit dem konfokalen Mikroskop am Beispiel des H-Proteins gezeigt werden konnte. Titrationen ergaben, dass das Virus auf beiden Seiten der Zellen freigesetzt wurde. Desweiteren wurde best{\"a}tigt, dass auch f{\"u}r polarisierte Endothelzellen die auf Tyrosin basierenden Transportsignale verantwortlich sind f{\"u}r die basolaterale Virusfreisetzung. Die Daten unterst{\"u}tzen die Hypothese, dass das Virus mit Hilfe der Infektion und der bipolaren Virusfreisetzung {\"u}ber Endothelzellbarrieren}, subject = {Masernvirus}, language = {de} } @article{PrelogAlmanzarEberleetal.2013, author = {Prelog, Martina and Almanzar, Giovanni and Eberle, Gernot and Lassacher, Andrea and Specht, Christian and Koppelstaetter, Christian and Heinz-Erian, Peter and Traw{\"o}ger, Rudolf and Bernhard, David}, title = {Maternal cigarette smoking and its effect on neonatal lymphocyte subpopulations and replication}, series = {BMC Pediatrics}, journal = {BMC Pediatrics}, doi = {10.1186/1471-2431-13-57}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-96435}, year = {2013}, abstract = {Background Significant immunomodulatory effects have been described as result of cigarette smoking in adults and pregnant women. However, the effect of cigarette smoking during pregnancy on the lymphocyte subpopulations in newborns has been discussed, controversially. Methods In a prospective birth cohort, we analyzed the peripheral lymphocyte subpopulations of smoking (SM) and non-smoking mothers (NSM) and their newborns and the replicative history of neonatal, mostly naive CD4 + CD45RA + T cells by measurements of T-cell-receptor-excision-circles (TRECs), relative telomere lengths (RTL) and the serum cytokine concentrations. Results SM had higher lymphocyte counts than NSM. Comparing SM and NSM and SM newborns with NSM newborns, no significant differences in proportions of lymphocyte subpopulations were seen. Regardless of their smoking habits, mothers had significantly lower naive T cells and higher memory and effector T cells than newborns. NSM had significantly lower percentages of CD4 + CD25++ T cells compared to their newborns, which was not significant in SM. There were no differences regarding cytokine concentrations in newborns of SM and NSM. However, NSM had significantly higher Interleukin-7 concentrations than their newborns. Regardless of smoking habits of mothers, newborns had significantly longer telomeres and higher TRECs than their mothers. Newborns of SM had significantly longer telomeres than newborns of NSM. Conclusions Apart from higher lymphocyte counts in SM, our results did not reveal differences between lymphocyte subpopulations of SM and NSM and their newborns, respectively. Our finding of significantly longer RTL in newborns of SM may reflect potential harm on lymphocytes, such as cytogenetic damage induced by smoking.}, language = {en} } @phdthesis{Rudolf2013, author = {Rudolf, Ronald}, title = {Transcriptional Regulation of and by NFATc1 in Lymphocytes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-83993}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {The transcription factor NFATc1 has been shown to regulate the activation and differentiation of T-cells and B-cells, of DCs and megakaryocytes. Dysregulation of NFAT signaling was shown to be associated with the generation of autoimmune diseases, malignant transformation and the development of cancer [71]. The primary goal of this work was to gain insights on Nfatc1 induction and regulation in lymphocytes and to find new direct NFATc1 target genes. Three new BAC -transgenic reporter mouse strains (tgNfatc1/Egfp, tgNfatc1/DE1 and tgNfatc1/DE2) were applied to analyze Nfatc1 induction and regulation in primary murine B- and T-cells. As a result, we were able to show the persistent requirement of immunoreceptor-signaling for constant Nfatc1 induction, particularly, for NFATc1/αA expression. Furthermore, we showed that NF-κB inducing agents, such as LPS, CpG or CD40 receptor engagement, in combination with primary receptor-signals, positively contributed to Nfact1 induction in B-cells [137]. We sought to establish a new system which could help to identify direct NFATc1 target genes by means of ChIP and NGS in genom-wide approaches. We were able to successfully generate a new BAC-transgene encoding a biotinylatable short isoform of NFATc1, which is currently injected into mice oocyte at the TFM in Mainz. In addition, in vivo biotinylatable NFATc1-isoforms were cloned and stably expressed in the murine B-cell lymphoma line WEHI-231. The successful use of these cells stably overexpressing either the short NFATc1/αA or the long NFATc1/βC isoform along with the bacterial BirA biotin ligase was confirmed by intracellular stainings, FACS analysis, confocal microscopy and protein IP. By NGS, we detected 2185 genes which are specifically controlled by NFATc1/αA, and 1306 genes which are exclusively controlled by NFATc1/βC. This shows that the Nfatc1 locus encodes "two genes" which exhibit alternate, in part opposite functions. Studies on the induction of apoptosis and cell-death revealed opposed roles for the highly inducible short isoform NFATc1/αA and the constantly expressed long isoform NFATc1/βC. These findings were confirmed by whole transcriptome-sequencing performed with cells overexpressing NFATc1/αA and NFATc1/βC. Several thousand genes were found to be significantly altered in their expression profile, preferentially genes involved in apoptosis and PCD for NFATc1/βC or genes involved in transcriptional regulation and cell-cycle processes for NFATc1/αA. In addition we were able to perform ChIP-seq for NFATc1/αA and NFATc1/βC in an ab-independent approach. We found potential new target-sites, but further studies will have to address this ambitious goal in the future. In individual ChIP assays, we showed direct binding of NFATc1/αA and NFATc1/βC to the Prdm1 and Aicda promoter regions which are individually controlled by the NFATc1 isoforms.}, subject = {Lymphozyt}, language = {en} }