@phdthesis{Govindaraj2009, author = {Govindaraj, Vijayakumar}, title = {Improved Cardiac Glucose Uptake: A Potential Mechanism for Estrogens to Prevent the Development of Cardiac Hypertrophy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-35911}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2009}, abstract = {The incidence of cardiovascular diseases including cardiac hypertrophy and failure in pre-menopausal women is lower compared to age-matched men but the risk of heart disease increases substantially after the onset of menopause. It has been postulated that female sex hormones play an important role in cardiovascular health in pre-menopausal women. In animal studies including spontaneously hypertensive (SHR) rats, the development of cardiac hypertrophy is attenuated by 17\&\#946;-estradiol treatment. Cardiac energy metabolism is crucial for normal function of the heart. In cardiac hypertrophy and heart failure, the myocardium undergoes a metabolic shift from fatty acid as primary cardiac energy source to glucose, which re-introduces the fetal type of metabolism that representing the glucose as a major source of energy. Many studies have reported that the disruption of the balance between glucose and fatty acid metabolism plays an important role in cardiac pathologies including hypertrophy, heart failure, diabetes, dilative cardiomyopathy and myocardial infarction. Glucose enters cardiomyocytes via GLUT1 and GLUT4 glucose transporters and GLUT4 is the major glucose transporter which is insulin-dependent. Cardiac-selective GLUT4 deficiency leads to cardiac hypertrophy. This shows that the decrease in cardiac glucose uptake may play a direct role in the pathogenesis of cardiac hypertrophy. Estrogens modulate glucose homeostasis in the liver and the skeletal muscle. But it is not known whether estrogens affect also cardiac glucose uptake which could provide another mechanism to explain the prevention of cardiac hypertrophy by female sex hormones. In the present study, SHR Rats were ovariectomized (OVX), not ovariectomized (sham) or ovariectomized and treated with subcutaneous 17\&\#946;-estradiol. After 6 weeks of treatment, body weight, the serum levels of estrogen, insulin, intra-peritoneal glucose tolerance test (IP-GTT), myocardial glucose uptake by FDG-PET (2-(18F)-fluoro-deoxyglucose (18FDG) and Positron Emission Tomography), cardiac glucose transporter expression and localization and cardiac hexokinase activity were analyzed. As results of this study, PET analysis of female SHR revealed decreased cardiac glucose uptake in OVX animals compared to intact that was normalized by estrogen supplementation. Interestingly, there was no change in global glucose tolerance among the treatment groups. Serum insulin levels and cardiac hexokinase activity were elevated by E2 substitution. The protein content of cardiac glucose transporters GLUT-4 and GLUT-1, and their translocation as determined by fractionation studies and immuno-staining did not show any significant change by ovariectomy and estrogen replacement. Also levels of insulin receptor substrate-1 (IRS-1) and its tyrosine phosphorylation, which is required for activation and translocation of GLUT4, was un-affected in all groups of SHR. Cardiac gene expression analysis in SHR heart showed that ei4Ebp1 and Frap1 genes which are involved in the mTOR signaling pathway, were differentially expressed upon estrogen treatment. These genes are known to be activated in presence of glucose in the heart. As a conclusion of this study, reduced myocardial FDG uptake in ovariectomized spontaneously hypertensive rat is normalized by 17\&\#946;-estradiol treatment. Increased myocardial hexokinase appears as a potential mechanism to explain increased myocardial glucose uptake by 17\&\#946;-estradiol. Increased cardiac glucose uptake in response to 17\&\#946;-estradiol in ovariectomized SHR may provide a novel mechanism to explain the reduction of cardiac hypertrophy in E2 treated SHR. Therefore, 17\&\#946;-estradiol improves cardiac glucose utilization in ovariectomized SHR which may give rise to possible mechanism for its protective effects against cardiac hypertrophy.}, subject = {estrogen}, language = {en} } @phdthesis{Hallhuber2007, author = {Hallhuber, Matthias}, title = {Inhibition of Nuclear Import of Calcineurin Prevents the Development of Myocardial Hypertrophy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-23536}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2007}, abstract = {The Calcineurin/NFAT signaling cascade is a crucial transducer of cellular function. It has recently been emerged that in addition to the transcription factor NFAT, the phosphatase Calcineurin is also translocated to the nucleus. Our traditional understanding of Calcineurin activation via sustained high Ca2+-levels was also advanced by recent findings from this working group (AG Ritter), which showed that Calcineurin is activated by proteolysis of the C-terminal autoinhibitory domain. This leads to the constitutive activation and nuclear translocation of Calcineurin. Therefore, Calcineurin is not only responsible for dephosphorylating of NFAT in the cytosol thus enabling its nuclear import, its presence in the nucleus is also significant in ensuring the full transcriptional activity of NFAT. Formation of complexes between transcription factors and DNA regulates the transcriptional process. Therefore, the time that transcription factors remain nuclear is a major determinant of transcriptional activity. The movement of proteins over ~40 kDa into and out of the nucleus is governed by the nuclear pore complex (NPC). Transcription factors and enzymes that regulate the activity of these proteins are shuttled across the nuclear envelope by proteins that recognize nuclear localization signals (NLS) and nuclear export signals (NES) within the amino acid sequence of these transcription factors. In this study, the precise mechanisms of Calcineurin nuclear import and export were identified. Additionally to the nuclear localization sequence (NLS) and the nuclear export sequence (NES) within the sequence of Calcineurin, the respective nuclear cargo proteins, responsible for nuclear import, Importin\&\#946;1, and for nuclear export, CRM1, were identified. Inhibition of the Calcineurin/importin interaction by a competitive peptide, called Import Blocking Peptide (IBP), which mimicked the Calcineurin NLS, prevented nuclear entry of Calcineurin. A non-inhibitory control peptide showed no effect. Using this approach, it was able to prevent the development of myocardial hypertrophy. In Angiotensin II stimulated cardiomyocytes, both the transcriptional and the translational level was suppressed. Additionally, cell size and expression of Brain natriuretic peptide (as molecular marker for hypertrophy) were significantly reduced compared untreated controls. IBP worked dose-dependent, but did not affect the Calcineurin phosphatase activity. In conclusion, Calcineurin is not only capable of dephosphorylating NFAT, thus enabling its nuclear import, its presence in the nucleus is also important for full NFAT transcriptional activity. Using IBP to prevent the nuclear import of Calcineurin is a completely new approach to prevent the development of myocardial hypertrophy.}, language = {en} } @phdthesis{Visan2003, author = {Visan, Ioana Andreea}, title = {The CD23 receptor-regulation of expression and signal transduction}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-5556}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2003}, abstract = {Bisher sind zwei Isoformen des humanen CD23 (CD23a und CD23b) beschrieben. Beide unterscheiden sich lediglich in 6-7 Resten im N-terminalen, zytoplasmatischen Anteil. CD23a wird ausschließlich auf B-Zellen exprimiert, w{\"a}hrend CD23b sowohl auf B-Zellen als auch auf Monozyten, eosinophilen Granulozyten, Makrophagen und zahlreichen anderen Zelltypen durch Stimulation mit IL-4 induziert werden kann. Die beiden Isoformen vermitteln wahrscheinlich unterschiedliche Funktionen. CD23a gilt als Isoform, welche vornehmlich mit der Endozytose von IgE-Immunkomplexen und der Vermittlung von Antigen-Pr{\"a}sentation auf B-Zellen assoziiert ist. CD23b besitzt ein Phagozytose-Motiv und scheint bei der Phagozytose IgE besetzter Partikel, der Freisetzung von Zytokinen und der Bildung von Peroxiden eine Rolle zu spielen. Fr{\"u}here Untersuchungen legen die Vermutung nahe, dass die beiden Isoformen zwei getrennte Signal{\"u}bertragungswege miteinander verbinden. Die Gegen{\"u}berstellung von Ereignissen, welche in Zellen, die nur eine einer oder beide Isoformen von CD23 besitzen, stattfinden, legt die Vermutung nahe, dass CD23b cAMP und iNOS hochreguliert, wohingegen CD23a einen Anstieg des intrazellul{\"a}ren Kalziums vermittelt. Im ersten Teil unserer Untersuchungen haben wir die Regulation der B-Zell-spezifischen Expression von CD23a analysiert. Pax-5 ist ein auf B-Zellen beschr{\"a}nkter Transkriptionsfaktor, welcher f{\"u}r die fr{\"u}he und sp{\"a}te B-Zellentwicklung von entscheidender Bedeutung ist. M{\"o}gliche Pax-5 Bindungsstellen wurden in den proximalen Abschnitten des CD23a Promotors vermutet. Die Analyse des CD23a Promotors ergab drei mutmaßliche Pax-5 Bindungsstellen mit mehr als 50\% Homologie zur Konsensus-Sequenz. Eine dieser Bindungsstellen, namens CD23-1, kann mit einer hochaffinen Pax-5 Bindungsstelle konkurrieren oder direkt das Pax-5 Protein in Elektromobilit{\"a}ts Experimenten (EMSA) binden. Das Einf{\"u}gen von Mutationen an dieser Stelle verhindert die Bindung. Ein weiterer Versuch, bei dem die gesamte L{\"a}nge des CD23a Promotors durch {\"u}berlappende Peptide in einem kompetitiven Verfahren gegen{\"u}ber hoch affinen Bindungsstellen getestet wurde, zeigt ebenso CD23-1 als die einzige Stelle, welche direkt Pax-5 binden kann. In weiteren Experimenten f{\"u}hrte die Expression von Pax-5 in 293 Zellen zu einer 7fachen Aktivierung eines CD23a Kernpromotor Konstrukts. Die Kotransfektion zusammen mit STAT6 zeigte, dass Pax-5 mit diesem Transkriptionsfaktor kooperiert, indem es die Transkriptionsrate eines vergr{\"o}ßerten CD23a Promotorkonstrukts erh{\"o}ht. Von besonderer Bedeutung ist die Tatsache, dass die ektope Expression von Pax-5 in der monozyt{\"a}ren Zelllinie U-937, die normalerweise nur die CD23b Isoform exprimiert, dann zu einer Expression von CD23a nach Stimulation mit IL-4 und PMA f{\"u}hrte. Unsere Ergebnisse legen nahe, dass Pax-5 in der auf B-Zellen beschr{\"a}nkten Expression der CD23 Isoform eine Schl{\"u}sselrolle zukommt. Im zweiten Teil des Projekts haben wir ein "Zwei-Hefen-Hybrid-System" (Cyto-Trap von Stratagene) verwendet, um nach zytoplasmatischen Interaktionspartnern f{\"u}r den CD23 Rezeptor zu suchen. Das System wurde modifiziert um eine hohe Effizienz an Transformation zu erzielen. Unterschiedliche „K{\"o}der"-Vektorkonstrukte wurden hergestellt. Das Screening wurde mittels einer humanen Milzbibliothek mit dem Zielvektor des Systems durchgef{\"u}hrt. Die anfangs benutzten Konstrukte -pSosCD23a und pSosCD23b - exprimierten sehr kurze (22 Aminos{\"a}uren) zytoplasmatischen Reste der Isoformen am C-terminalen Ende des Fusionsproteins (humanes SOS). Verbesserte Konstrukte (pSos CD23a+Linker und pSosCD23b+Linker) exprimierten den zytoplasmatischen Anteil von CD23a/b am N-terminalen Ende des humanen SOS und hatten folglich den N-terminalen Anteil als Andockstelle frei, entsprechend den Bedingungen in vivo. Eine flexible Verbindungsregion trennte die Fusionsproteine, um auf diese Weise die kurze Aminos{\"a}urekette deutlich „sichtbar" werden zu lassen. Ann{\"a}hernd drei Millionen Klone wurden mittels der verschiedenen Konstrukte untersucht. Dabei konnte keine tats{\"a}chlich positive Interaktion gefunden werden. Stattdessen fand sich eine vergleichsweise hohe Zahl falsch-positiver Klone. Diese wiederum wurden in einem zweiten "Zwei-Hefen-Hybrid-System" getestet. In Zukunft wird ein neues Konstrukt als K{\"o}der verwendet werden. Hierbei wurde ein Tyrosin-Rest im zytoplasmatischen Anteil von CD23a durch Glutamat ersetzt. Das System wurde bereits dazu verwendet, die Interaktion zwischen CD23 und p59fyn - einem Mitglied der Src-Familie von Proteinkinasen, welches mit CD23a assoziiert sein soll - zu testen. Jedoch konnte im CytoTrap "Zwei-Hefen-Hybrid-System" keine Wechselwirkung nachgewiesen werden. Zusammenfassend zeigt das zentrale Ergebnis der Arbeit, dass Pax-5 der Schl{\"u}sselregulator ist, der die B-Zell-spezifische Expression von CD23a erm{\"o}glicht. Zus{\"a}tzlich wurde ein "Zwei-Hefen-Hybrid-System" etabliert, mit dem zytoplasmatische Interaktionspartner f{\"u}r die CD23 Isoformen gefunden werden k{\"o}nnen.}, subject = {Antigen CD23}, language = {en} } @phdthesis{Christensen2003, author = {Christensen, Morten Overby}, title = {Dynamics of human DNA Topoisomerases I and II}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-4927}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2003}, abstract = {The first goal of this study was to develop cell lines with a stable expression of bio-fluorescent topo II and topo I. This was successfully achieved using a bicistronic vector system. Control experiments showed that proteins of expected size were expressed, and that GFP-tagged topos I, IIa, and IIb were active in the cells and fully integrated in the endogenous pools of the enzymes. These cell-lines provided a novel tool for investigating the cell biology of human DNA topoisomerases. Our most important finding was, that both types of mammalian topoisomerases are entirely mobile proteins that are in continuous and rapid flux between all compartments of the nucleus and between the cytososl and the chromosomes of mitotic cells. This was particularly surprising with regard to topo II, which is considered to be a structural component of the nuclear matrix and the chromosome scaffold. We must conclude that if this was the case, then these architectural structures appear to be much more dynamic than believed until now. In this context it should also be mentioned, that the alignment of topo II with the central axes of the chromosome arms, which has until now been considered a hall-mark of the enzyme's association with the chromosomal scaffold, is not seen in vivo and can be demonstrated to be to some extent an artefact of immunohistochemistry. Furthermore, we show that the two isoforms of topo II (a and b) have a different localisation during mitotic cell division, supporting the general concept that topo II functions at mitosis are exclusively assigned to the a-form, whereas at interphase the two isoenzymes work in concert. Despite unrestricted mobility within the entire nuclear space, topoisomerases I and II impose as mostly nucleolar proteins. We show that this is due to the fact that in the nucleoli they are moving slower than in the nucleoplasm. The decreased nucleolar mobility cannot be due to DNA-interactions, because compounds that fix topoisomerases to the DNA deplete them from the nucleoli. Interestingly, the subnucleolar distribution of topoisomerases I and II was complementary. The type II enzyme filled the entire nucleolar space, but excluded the fibrial centers, whereas topo I accumulated at the fibrial centers, an allocation directed by the enzyme's N-terminus. During mitosis, it also mediates association with the nucleolar organising regions of the acrocentric chromosomes. Thus, topo I stays associated with the rDNA during the entire cell-cycle and consistently colocalizes there with RNA-polymerase I. Finally, we show that certain cancer drugs believed to act by stabilising covalent catalytic DNA-intermediates of topoisomerases, do indeed immobilize the enzymes in living cells. Interestingly, these drugs do not target topoisomerases in the nucleoli but only in the nucleoplasm.}, subject = {Mensch}, language = {en} } @phdthesis{Grue1999, author = {Grue, Pernille}, title = {The physiological role of the two isoforms of DNA topoisomerase II in human cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-1369}, school = {Universit{\"a}t W{\"u}rzburg}, year = {1999}, abstract = {Unique functions of DNA topoisomerase IIalpha and IIbeta have been suggested. A human cell line which carries a homozygeous mutation of the nuclear localization sequence of the topoisomerase IIalpha gene expresses the isoform outside the nucleus at the onset of mitosis. At mitosis topoisomerase IIbeta diffused away from the chromatin despite the nuclear lack of the IIalpha-form. Chromosome condensation and disjunction was performed with the aid of cytosolic topoisomerase IIalpha which bound to the mitotic chromatin with low affinity. Consequently an increased rate of nondisjunction is observed in these cells. It is concluded that high affinity chromatin binding of topoisomerase IIalpha is essential for chromosome condensation/disjunction and that topoisomerase IIbeta does not adopt these functions. A centrosomal protein was recognized by topoisomerase IIalpha. This topoisomerase IIalpha-like protein resembles a modified form of topoisomerase IIalpha with an apparent size of 205 kDa compared to 170 kDa. The expression of the protein is constant in all stages of the cell cycle and it appears in proliferating as well as in resting cells. If there is not sufficient topoisomerase IIalpha present at mitosis the centrosomal proteins might adopt the function and a mitotic catastrophe in the cells could therefore be prevented.}, subject = {DNS-Gyrase}, language = {en} }