Global ETD Search

1	Identifizierung neuer E2F-Zielgene in der Wachstumskontrolle und Tumorprogression Schreiber, Caroline 01 December 2008 (has links) Der pRB/E2F-Signalweg ist ein wichtiger Schlüsselpunkt für die Wachstumskontrolle in Säugerzellen und in vielen Tumoren sind Komponenten dieses Signalweges dereguliert. Durch die Nullmutation von E2F3 in Mausembryonalen Fibroblasten (MEFs) und Mäusen konnte gezeigt werden, dass E2F3 essentiell für das zelluläre Wachstum ist und in der Maus organspezifisch sowohl als Tumorsuppressor als auch Onkogen agieren kann. Jedoch sind dafür die zugrunde liegenden Mechanismen noch nicht genau geklärt. Möglicherweise tragen verschiedene Signalwege, die durch den Verlust von E2F3 dereguliert werden, zu den Defekten bei. In dieser Arbeit wurde TGFbeta1, ein wichtiger Wachstumsregulator, in den E2f3-/- MEFs untersucht und es konnte zum ersten Mal eine direkte Verbindung zwischen der E2F3-Expression und der TGFbeta1-Signalwirkung gezeigt werden. Durch den Verlust von E2F3 werden Tgfb1 und die TGFbeta1-regulierten Gene PAI-1, p21, Vimentin und Fibronectin in MEFs dereprimiert. Darüber hinaus werden MEFs und humane Lungenkarzinomzellen durch den Verlust von E2F3 gegenüber TGFbeta1 sensibilisiert und reagieren verstärkt auf TGFbeta1-induzierte Genexpression und Prozesse wie Wachstumsarrest und EMT. Somit wird E2F3 nicht nur durch TGFbeta1 reguliert, sondern kann auch auf TGFbeta1 und die TGFbeta1-Signalwirkung Einfluss nehmen, was für die Tumorprogression weit reichende Auswirkung haben kann. Um die tumorsuppressiven Eigenschaften von E2F3 besser zu verstehen, wurden im zweiten Teil dieser Arbeit murine medulläre Schilddrüsentumore mit unterschiedlichem metastatischen Potential miteinander verglichen und es konnten neue E2F-Zielgene identifiziert werden. Die Untersuchung von humanen Struma nodosa-Biopsien und metastatischen medullären Schilddrüsentumoren ergab, dass die in den Mäusen gefundenen Gene künftig auch als humane Metastasemarker Verwendung finden können. / The pRB/E2F-pathway plays a key role in growth control and it is deregulated in many tumors. Previously, by analysing E2f3 deficient mouse embryonic fibroblasts (MEFs) and mice it has been shown that E2F3, a key downstream target of pRB, is essential for cellular proliferation and can act either as an oncogene or tumorsuppressor in mice depending on the organ. However, the underlying mechanism is still unclear. We suggest that specific pathways which are deregulated due to the deletion of E2F3 contribute to these defects. TGFbeta1, which is one of the most potent growth regulators for mammalian cells was analysed in E2f3-/- MEFs. In this study, we could establish a direct link between E2F3 expression and TGFbeta1 signalling. Loss of E2F3 in MEFs leads to de-repression of Tgfb1 and TGFbeta1-regulated genes like PAI-1, p21, vimentin and fibronectin. Moreover, loss of E2F3 in MEFs or in human lung carcinoma cells results in an increased sensitivity to TGFbeta1-induced gene expression and processes like growth arrest and epithelial mesenchymal transition. These data suggest that not only TGFbeta1 can act on E2F3 but also E2F3 can affect TGFbeta1 and the outcome of TGFbeta1-induced signalling. In order to understand the tumor suppressive properties of E2F3, we compared gene expression profiles of murine medullary thyroid carcinomas (MTCs) of different metastatic potential and could identify novel E2F-target genes. Analysis of human struma nodosa biopsies and human metastatic medullary thyroid tumors showed that the genes identified in the mouse model can also be used as metastasis markers in human tumors. Proliferation E2F3 TGFbeta1 E2F-Zielgene proliferation E2F3 TGFbeta1 E2F-target genes 570 Biowissenschaften, Biologie 32 Biologie XH 1800 ddc:570
2	Expressão de recptor de estrógeno, vimentina, TGFbeta, e marcador de macrófagos em tumor ósseo de células gigantes em gatos domésticos Dune, Ana Cláudia [UNESP] 26 February 2008 (has links) (PDF) Made available in DSpace on 2014-06-11T19:27:58Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-02-26Bitstream added on 2014-06-13T20:36:41Z : No. of bitstreams: 1 dune_acc_me_jabo.pdf: 415734 bytes, checksum: 508642fb7787a9fec7ba22d33d842496 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O tumor ósseo de células gigantes apresenta 3 diferentes tipos celulares, sendo duas estromais: fibroblastos neoplásicos e células mononucleares; e o terceiro tipo, células gigantes. Propôs-se que este tumor é de linhagem monócito-macrofágica e acredita-se que as células gigantes se formam por fusão de células mononucleares. Aparentemente os fibroblastos neoplásicos que expressam o fator transformador de crescimento TGFbeta1 estão envolvidos no recrutamento das células gigantes para o tumor. Com o intuito de compreender melhor a histogênese, o envolvimento do estrógeno e a expressão de receptores TGFbeta1, foi realizado este estudo em casos deste tumor em gatos domésticos. Para tanto foi utilizado o método imuno-enzimático Streptoavidina-biotina utilizando-se o anticorpo primário anti-vimentina, clone 3B4 (Dako A/s, Denmark); o anticorpo marcador de macrófago, MAC387 (Dako A/s, Denmark); o anticorpo para receptores de estrógeno, clone 15D (Dako A/s, Denmark) e o anticorpo marcador para TGFBeta1 (Santa Cruz Biotechnology). Os resultados foram analisados pela porcentagem e desvio padrão de células marcadas para cada anticorpo e permitiram concluir que: o TOCG de gatos domésticos, assim como em humanos, tem origem mesenquimal e expressa receptores de estrógeno e de TGF 1 e as células gigantes do tumor não reagem com o clone 387, marcador de células de linhagem mielomonocítica. / Giant cell tumor of bone are composed of 3 different cell types: round mononuclear stromal cells, spindle-shaped mononuclear stromal cells, and giant cells. Some authors assert giant cell could arise by fusion of mononuclear cell mielomonocytic. Aparently neoplasic fibroblast that expression TGF is involved in the recruitment of giant cells from tumor. For better understand of histogenesis, the involved of receptors estrogen and of expression of TGF receptors, achieved this study in this cases tumor in domestics cats. By using the immune-enzymatic Streptoavidin- biotin using the primary antibody anti-vimentin, clone VIM 3B4 (Dako A/s, Denmark); antibody myeloid/histocyte clone MAC 387 (Dako A/s, Denmark); antibody estrogen receptor clone 1D5 (Dako A/s, Denmark) and the antibody TGFb1 (Santa Cruz Biotechnology). The results analyzed for percent and standara deviation of marks cells for each antibody and permissive to come to a conclusion: the GCT of bone in domestic cats, like humans, has mesenchymal origin and has expression of estrogen receptors and of TGFbeta, and giants cells this tumor not react with the clone 387, mark the cells myeloidmonocyte lineage. Gato - Doenças Tumor ósseo Célula gigante Receptor de estrógeno TGFbeta1 Vimentina Macrófago Bone tumor Giant cell Estrogen receptor Vimentin Macrophage Cat
3	YB-1 Stress-Response Protein Conformation Implicated in Post-transcriptional Control of Myofibroblast Differentiation Willis, William L. January 2013 (has links) No description available. Biomedical Research Cellular Biology Molecular Biology Biochemistry YB-1 transglutaminase 2 translational control RNA-binding protein myofibroblast AMPK smooth muscle alpha-actin cardiac remodeling cardiac intercalated disc metabolic stress fibrosis ROS TGFbeta1

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