Global ETD Search

1	Genetisch bedingte Variabilität der Expression von Genen des TGFß-Signalwegs und deren Bedeutung für die Zellvitalität: Untersuchungen in T-Lymphozyten, immortalisierten B-Lymphozyten und Fibroblasten / Genetically determined variability in the expression of TGFbeta signalling pathway genes and relation to cell vitality: Investigations in T-lymphocytes, immortalized B-lymphocytes and fibroblasts. Neumann, Michael 23 January 2013 (has links) No description available. 610 Medizin (PPN619874732) TGFbeta
2	Cross-regulation between TGFβ/BMP Signalling and the metabolic LKB1 pathway Raja, Erna January 2012 (has links) Cell signalling determines physiological responses to many cellular stimuli and environmental changes. The transforming growth factor-beta (TGFβ)/bone morphogenetic protein (BMP) signalling pathways begin by binding of ligand to the heterodimeric receptor complex, followed by activation of Smads that translocate to the nucleus to regulate transcription of genes that further mediate cellular physiology. The TGFβ/BMP pathways are very important for proper tissue development and homeostasis, thus precise spatial and temporal regulation of the signalling pathway is required and achieved by many positive and negative signalling regulators. This thesis work identified the liver kinase B1 (LKB1) pathway as a negative regulator of TGFβ/BMP signalling pathways. In the first paper, we established LKB1 as a negative regulator of TGFβ signalling and TGFβ-induced epithelial to mesenchymal transition (EMT). LKB1 impairs Smad4 binding capacity to DNA leading to suppressed TGFβ-activated gene transcription. The second paper describes further the mechanism of LKB1 negative regulation on BMP signalling, by mediating BMP type I receptor degradation resulting in inhibition of BMP-induced cell differentiation. Downstream of LKB1, salt inducible kinase 1 (SIK1) is a TGFβ target gene and its expression is up-regulated by Smad2/3/4-mediated gene transcription. The third paper elucidates the mechanism of SIK1 transcriptional induction via an enhancer element located 3’ of the gene and SIK1-mediated type I TGFβ receptor degradation, which requires the activity of Smad7 and of the Smurf2 ubiquitin ligase. The fourth manuscript finds sucrose non-fermenting (SNF) 1-like kinase 2 (NUAK2) as another TGFβ target gene and its up-regulation results in modification of the mammalian target of rapamycin (mTOR) pathway that controls protein synthesis. NUAK2 cooperates with LKB1 leading to Raptor phosphorylation and inhibition of mTOR-mediated protein synthesis. Collectively, this thesis work has provided a functional link between two important signalling pathways, the metabolic LKB1 pathway and TGFβ/BMP pathway. cell signalling TGFbeta BMP LKB1 AMPK
3	Rôle de l'EMMPRIN, inducteur des MMPs,dans l'activation des fibroblastes : conséquences sur la formation du stroma tumoral / Role of EMMPRIN, an MMPs inducer, in fibroblast activation : conséquences in tumor stroma formation Jarosz, Camille 31 January 2014 (has links) Les fibroblastes activés qui composent les stromas tumoraux sont des acteurs majeurs des interactions tumeur-stroma impliquées dans la croissance et la dissémination des cellules tumorales. Ce processus d'activation des fibroblastes est caractérisé par l'expression de marqueurs protéiques spécifiques parmi lesquels figure l'alphaSMA et FAPalpha;. Le TGFbeta;, cytokine secrétée massivement par les cellules tumorales, est un des éléments impliqués dans l'activation des fibroblastes et la formation du stroma tumoral qui en résulte. L'EMMPRIN, glycoprotéine transmembranaire surexprimée dans les cellules tumorales est également un médiateur des interactions tumeur-stroma puisqu'il a la capacité d'induire la synthèse des MMPs par les fibroblastes péri-tumoraux accroissant ainsi la propagation des cellules tumorales à travers l'organisme. Nos travaux identifièrent que le TGFbeta secrété par les cellules tumorales induisait la synthèse du marqueur FAPalpha par les fibroblastes. L'EMMPRIN stromal apparaît comme récepteur de ces signaux tumoraux et est nécessaire à la synthèse du marqueur FAPalpha; par les fibroblastes. L'EMMPRIN participe donc à l'activation TGFbeta; dépendante des fibroblastes. Son inhibition dans ces cellules conduit à un dysfonctionnement de la signalisation médiée par les protéines Smad2/Smad3 aboutissant à une diminution de la synthèse du marqueur alphaSMA ainsi que de certaines protéines matricielles induites par le TGFbeta. L'étude du mécanisme d'action de l'EMMPRIN dans ce processus a permis d'identifier l'EMMPRIN comme nouvelle protéine chaperonne du récepteur de type I au TGFbeta;. / Tumor stroma activated fibroblasts are major actors of tumor stroma interactions taking to tumor growth and spreading. Activated fibroblasts are characterized by the expression of specific markers including alphaSMA and FAPalpha;. The TGFbeta;, a cytokine highly secreted by tumor cells, is one of the key factors involved in fibroblast activation and tumor stroma formation. EMMPRIN, a transmembrane glycoprotein overexpressed in tumor cells, is also a mediator of tumor-stroma interactions by its ability to induce the synthesis of MMPs by peri-tumor fibroblasts enhancing then tumor cells dissemination across the organism.Here, we demonstrate that TGFbeta; secreted by tumor cells is the tumor factor involved in the synthesis of FAPalpha; by fibroblasts. Stromal EMMPRIN appeared to be the receptor of these tumor-stroma interactions and is required for the synthesis of FAPalpha; by fibroblasts. EMMPRIN was also evidenced to take part in TGFbeta;-dependent fibroblast activation. Its inhibition in these cells correlate to a dysfunction in Smad2/Smad3 signaling leading to a decrease in the expression of alphaSMA and matrix proteins induced by TGFbeta;. The study of the mechanism used by EMMPRIN in this process evidenced this protein as a new chaperone for the type I TGFbeta; receptor. Stroma tumoral Emmprin TGFbeta Fibroblastes Protéine chaperonne Tumour stroma Emmprin TGFbeta Fibroblasts Chaperon protein 570
4	Potentiel thérapeutique de l'activation du récepteur nucléaire PPARgamma dans la myélofibrose / Therapeutic Potential of Activation of the Nuclear Receptor PPARgamma Pathway in Myelofibrosis Lambert, Juliette 16 December 2019 (has links) La myélofibrose primitive (MFP) est un néoplasme myéloprolifératif (NMP) classique BCR-ABL négatif associé à une forte altération de la qualité de vie et à une augmentation de la mortalité. Les traitements conventionnels réduisent les symptômes mais ont peu d’effet sur l’histoire naturelle de la maladie. La MFP résulte d’interactions complexes entre le développement du clone hématopoïétique malin, l’installation d’un contexte inflammatoire et le remodelage du microenvironnement médullaire. Chacun de ces axes est une cible thérapeutique potentielle. Dans ce travail, nous avons évalué le potentiel thérapeutique de l’activation de PPARγ dans trois modèles murins de myélofibrose et nous montrons que les ligands de PPARγ permettent d’améliorer les paramètres hématologiques et histologiques en rapport avec l’installation du phénotype de myélofibrose. Chacun des axes de la physiopathologie a ensuite été exploré. Les ligands de PPARγ ont une action anti-proliférative sur le clone malin, tant dans les modèles murins de NMPs que dans les cellules JAK2V617F de lignée et dans les progéniteurs hématopoïétiques issus de patients atteints de NMPs. Le traitement atténue également l’hyperleucocytose associée au phénotype inflammatoire des NMPs et modifie la transcription de gènes de l’inflammation. Enfin, les ligands de PPARγ ont un effet protecteur sur le stroma médullaire, dépendant de la capacité de PPARγ à contrecarrer la voie de signalisation du TGF-β1, cytokine majeure du développement de la fibrose médullaire, par déplacement du cofacteur de transcription p300 de la voie du TGF-β1 vers la voie PPARγ. Par son action sur les trois composantes de la physiopathologie, l’activation de PPARγ constitue une cible thérapeutique pertinente dans la prise en charge de la MFP. / Primary myelofibrosis (PMF) is a non BCR-ABL myeloproliferative neoplasm (MPN) associated with poor quality of life and reduced survival. Current treatments are mainly symptomatic and have little effect on the natural history of the disease. PMF results from complex interactions between the emergence of a hematopoietic malignant clone, an inflammatory context and the remodeling of the bone marrow (BM) microenvironment. Each of these axes is a potential therapeutic target. Here, we evaluated the therapeutic potential of PPARγ ligands in three murine models of myelofibrosis and we showed that PPARγ ligands improve hematological and histological changes related to myelofibrosis phenotype. Then, we explored each axis of the pathophysiology. We showed that PPARγ ligands have an anti-proliferative effect and limit the proliferation of the malignant clone in murine models of MPNs, in JAK2V617F cell lines and in hematopoietic progenitors from MPNs patients. PPARγ ligands also decrease leukocytosis related to the inflammatory phenotype of MPNs and modify the transcription of inflammatory genes. Finally, we demonstrated that PPARγ ligands have a protective effect on BM stroma. They counteract the signaling pathway of TGF-β1, a major cytokine in BM fibrosis development, by moving the p300 cofactor of transcription from the TGF-β1 pathway to the PPARγ pathway. By its action on the three components of the pathophysiology, activation of PPARγ pathway is a relevant therapeutic target in PMF. Myélofibrose PPARgamma Néoplasmes myéloprolifératifs TGFbeta P300 Pioglitazone Myelofibrosis PPARgamma Myeloproliferative neoplasms TGFbeta P300 Pioglitazone
5	EGF module-containing mucin-like hormone receptor 2 and its role in human immune privilege Song, Helen 22 January 2016 (has links) PURPOSE: In the mouse, the macrophage adhesion G protein-coupled receptor (ad-GPCR) molecule, F4/80, is required for the development of regulatory T cells in two models of tolerance, the eye and gut. Since F4/80 is not expressed in humans, the purpose of this research is to determine the human analog of F4/80. F4/80 belongs to a novel family of Epidermal growth factor-seven transmembrane (EGF-TM7) molecules, which include the EGF module-containing mucin-like hormone receptor (EMR) molecules. In the human, EMR1 has sequential homology with F4/80 and EMR2 has shown immune suppressing function in tumor cells. Thus, we investigate the possible suppressor role of the EMR family in human ocular tolerance. METHODS: Human peripheral blood mononuclear cells (huPBMC) were treated with porcine TGFβ2 and LPS or an antigenic stimulant for at least six hours to generate tolerogenic antigen presenting cells (APC). Cells were characterized by flow cytometric analysis for expression of CD14, CD40, PDL1, ILT3, and EMR2. Later, T regulatory cells were generated by incubating tolerogenic APCs with autologous huPBMC for five to seven days. Post culture, the T cells were stained and characterized for expression of CD4, CD25, and FoxP3. RESULTS: Post treatment of huPBMC with TGFβ2 and antigen, the resulting tolerogenic APCs expressed PDL1, ILT3, and EMR2. CD40 remained unchanged and CD14 was constitutively expressed. Post five to seven day culture, tolerogenic APCs treated with TGFβ2 increased the CD4+ CD25+ FoxP3+ lymphocyte populations. CONCLUSIONS: The upregulation of EMR2 on human tolerogenic APCs suggests that EMR2 may have a role in inducing tolerance in humans. Much like its mouse counterpart, F4/80, EMR2 is an adhesion molecule that may facilitate the induction of naïve T lymphocytes to regulatory T lymphocytes. Once the F4/80 analog is established for humans, novel therapies may be developed to interfere or encourage signaling in the treatment of tumors or immune inflammatory diseases, respectively. Immunology EMR2 F4/80 Ocular TGFbeta Antigen Immune privilege
6	Úloha TGFß a studium prognostických faktorů u pacientů s MDS a AML / The role of TGFß and study of prognostic factors of patients with MDS and AML Provazníková, Dana January 2011 (has links) We did not find mutation in coding areas of genes for components of TGFbeta1 signaling pathway but we detected decreased or undetectable expression of these analysed genes.The decreased expression is probably caused by epigenetic changes, so by hypermethylation and deacetylation of promoter regionsof these genes.Antiproliferative and apoptotic effect of TGF1 was analysed in AML cell lines (ML1, ML2, CTV1 and Kasumi1). ML2 cells rezistence to inhibition of DNA synthesis by TGFβ1 is not caused by mutations of genes for components of TGFβ1 signaling pathway. We found that increased SnoN (Ski-like novel gene) expression on the level of coresponding mRNA and protein is probably accountable for this rezistence. Kasumi1 and M2 cells were sensitive to induction of apoptózis caused by TGFβ1 treatment but in less extent than by proteazome inhibitor bortezomib. The difference of AML cells of different lines answers shows a great heterogeneity AML in AML patients. Prognostic factors analysis in AML with normal karyotype confirmed that CEBPA (CCAAT/enhancer binding protein alpha) mutations predict favourable prognosis but the elevated EVI1 ("Ecotropic Virus Integration Site 1") and ERG ("ETS-related gene") expression are connected with unfavourable prognosis. EVI1 is a negative marker for MDS as well. We did not confirm...
7	Úloha TGFß a studium prognostických faktorů u pacientů s MDS a AML / The role of TGFß and study of prognostic factors of patients with MDS and AML Provazníková, Dana January 2011 (has links) We did not find mutation in coding areas of genes for components of TGFbeta1 signaling pathway but we detected decreased or undetectable expression of these analysed genes.The decreased expression is probably caused by epigenetic changes, so by hypermethylation and deacetylation of promoter regionsof these genes.Antiproliferative and apoptotic effect of TGF1 was analysed in AML cell lines (ML1, ML2, CTV1 and Kasumi1). ML2 cells rezistence to inhibition of DNA synthesis by TGFβ1 is not caused by mutations of genes for components of TGFβ1 signaling pathway. We found that increased SnoN (Ski-like novel gene) expression on the level of coresponding mRNA and protein is probably accountable for this rezistence. Kasumi1 and M2 cells were sensitive to induction of apoptózis caused by TGFβ1 treatment but in less extent than by proteazome inhibitor bortezomib. The difference of AML cells of different lines answers shows a great heterogeneity AML in AML patients. Prognostic factors analysis in AML with normal karyotype confirmed that CEBPA (CCAAT/enhancer binding protein alpha) mutations predict favourable prognosis but the elevated EVI1 ("Ecotropic Virus Integration Site 1") and ERG ("ETS-related gene") expression are connected with unfavourable prognosis. EVI1 is a negative marker for MDS as well. We did not confirm...
8	Selective Targeting of GARP-TGFbeta axis for Cancer Immunotherapy Li, Anqi January 2022 (has links) No description available. Biomedical Research Immunology
9	EVALUATING THE ROLE OF BREAST CANCER STEM CELL POPULATIONS AS PREDICTORS OF RESPONSE TO TRASTUZUMAB TREATMENT Sandoval, Maria Luisa 02 September 2014 (has links) No description available. Oncology Physiology Biology Bioinformatics
10	Lung tumors formed in the TGFΒRII conditional knockout mouse are the result of metastasis from the spontaneous tumor in the anorectal transition zone Gallas, Alyssa L. 13 October 2014 (has links) No description available. Developmental Biology TGFBeta metastasis transition zones squamous cell carcinoma

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