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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Characterization of CD109

Prosper, Joseph 31 August 2011 (has links)
CD109 is a 170kD glycosylphosphatidylinositol-anchored protein expressed on subsets of fetal and adult CD34+ haematopoietic stem cells, endothelial cells, activated T cells, and activated platelets. Cloning of the CD109 cDNA by our group identified the molecule as a novel member of the alpha2M/C3/C4/C5 family of thioester containing proteins. Curiously, CD109 bears features of both the alpha2M and complement branches of the gene family. Additionally CD109 carries the antigenic determinant of the Gov alloantigen system, which has been implicated in a subset of immune mediated platelet destruction syndromes. In this thesis, the status of CD109 in the evolution and phylogeny of the A2M family has been clarified. First, I elucidated the evolutionary relationships of CD109, and of the other eight human A2M/C3/C4/C5 proteins, using sequence analysis and a detailed comparison of the organization of the corresponding loci. Extension of this analysis to compare CD109 to related sequences extending back to placazoans, defined CD109 as a member of a distinct and archaic branch of the A2M phylogenetic tree. Second, in conjunction with collaborators, the molecular basis of the Gov alloantigen system was identified as an allele specific A2108C; Y703S polymorphism. Utilizing cDNA and genomic sequence we then developed methods to accurately and precisely genotype the Gov system. Finally, the expression kinetics of platelet CD109 was elucidated, in order to obtain basic information regarding its expression and subcellular localization, and to resolve discrepancies in reported platelet CD109 expression. Quantitative flow cytometry demonstrated that CD109 was expressed on the surface of activated platelets at very low levels in most healthy volunteers. In resting platelets, CD109 was localized to the OCS and intracellular storage granules. CD109 displayed differential agonist induced expression in comparison to GPIIb/IIIa epitope unmasking, and surface expression of CD62P and CD63. CD109 was rapidly expressed on the cell surface in response to low doses of both strong and weak agonists. This early expression is likely the result of CD109’s proximity to the plasma membrane in resting platelets. As such, CD109 is positioned to participate at early stages of primary haemostasis.
2

Characterization of CD109

Prosper, Joseph 31 August 2011 (has links)
CD109 is a 170kD glycosylphosphatidylinositol-anchored protein expressed on subsets of fetal and adult CD34+ haematopoietic stem cells, endothelial cells, activated T cells, and activated platelets. Cloning of the CD109 cDNA by our group identified the molecule as a novel member of the alpha2M/C3/C4/C5 family of thioester containing proteins. Curiously, CD109 bears features of both the alpha2M and complement branches of the gene family. Additionally CD109 carries the antigenic determinant of the Gov alloantigen system, which has been implicated in a subset of immune mediated platelet destruction syndromes. In this thesis, the status of CD109 in the evolution and phylogeny of the A2M family has been clarified. First, I elucidated the evolutionary relationships of CD109, and of the other eight human A2M/C3/C4/C5 proteins, using sequence analysis and a detailed comparison of the organization of the corresponding loci. Extension of this analysis to compare CD109 to related sequences extending back to placazoans, defined CD109 as a member of a distinct and archaic branch of the A2M phylogenetic tree. Second, in conjunction with collaborators, the molecular basis of the Gov alloantigen system was identified as an allele specific A2108C; Y703S polymorphism. Utilizing cDNA and genomic sequence we then developed methods to accurately and precisely genotype the Gov system. Finally, the expression kinetics of platelet CD109 was elucidated, in order to obtain basic information regarding its expression and subcellular localization, and to resolve discrepancies in reported platelet CD109 expression. Quantitative flow cytometry demonstrated that CD109 was expressed on the surface of activated platelets at very low levels in most healthy volunteers. In resting platelets, CD109 was localized to the OCS and intracellular storage granules. CD109 displayed differential agonist induced expression in comparison to GPIIb/IIIa epitope unmasking, and surface expression of CD62P and CD63. CD109 was rapidly expressed on the cell surface in response to low doses of both strong and weak agonists. This early expression is likely the result of CD109’s proximity to the plasma membrane in resting platelets. As such, CD109 is positioned to participate at early stages of primary haemostasis.
3

De la maturation des collagènes à la régulation de la signalisation TGF-ß : nouveaux rôles moléculaires et cellulaires de la métalloprotéase BMP-1 / From collagen maturation to regulation of TGF-ß signaling : novel molecular and cellular functions of the BMP-1 metalloproteinase

Anastasi, Cyril 07 July 2016 (has links)
La Bone Morphogenetic Protein-1 (BMP-1) est une métalloprotéase impliquée dans la maturation et l'activation de nombreuses molécules extracellulaires. Parmi celles-ci, on trouve notamment les collagènes fibrillaires, les protéines les plus abondante chez l'Homme, ainsi que les facteurs de croissance de la superfamille du TGF-ß, des protéines pléiotropes. Au travers de ses fonctions, BMP-1 joue un rôle crucial au cours du développement embryonnaire mais également durant les processus physiologiques et pathologiques de remodelage tissulaire (cicatrisation, fibroses, croissance osseuse, cancers...).Le projet présenté dans ce manuscrit a consisté à étudier plusieurs fonctions importantes de BMP-1 au niveau moléculaire et à caractériser les conséquences de ces activités au niveau de plusieurs types cellulaires.Dans un premier temps, un test quantitatif a été mis au point afin de pouvoir étudier en temps réel l'effet de BMP-1 sur les collagènes fibrillaires ainsi que les mécanismes de sa régulation. Par la suite, de nouveaux substrats de BMP-1 ont été mis en évidence, parmi lesquels des co-récepteurs du TGF-ß (Bétaglycan, CD109) ainsi qu'une protéine matricellulaire (TSP-1). L'étude de ces activités a permis de caractériser les multiples voies par lesquelles BMP-1 est capable de réguler l'activité du facteur de croissance TGF-ß.De plus, nous avons mis en évidence que le clivage de ces différents substrats entraine une modulation importante du phénotype de plusieurs lignées cellulaires (HT1080, HEK-293T) avec des effets au niveau de l'adhésion, la prolifération et la migration cellulaire. En conclusion, ce travail révèle que les activités de BMP-1 s'étendent bien au-delà de ce qui est actuellement décrit / Bone Morphogenetic Protein (BMP-1) is a metalloprotease known to be involved in the maturation and activation of several important extracellular proteins, including fibrillar collagens and growth factors of the TGF-beta superfamily. As a consequence, it is essential for embryonic development and tissue remodeling and has been clearly involved in lethal diseases such as fibrosis and cancer.This thesis project focused on the major molecular functions of BMP-1 and their implications for the phenotype of several cell types. First, a quantitative and real-time assay was developed to study the effect of BMP-1 and associated regulatory proteins on fibrillar collagens. Then, new BMP-1 substrates, such as TGF-ß co-receptors (Betaglycan and CD109) and matricellular proteins (TSP-1) were characterized in detail. Especially, we evidenced that these activities played a major role in the regulation of the TGF-ß pathway.Furthermore, we shown that these BMP-1 activities induce major phenotype changes (adhesion, proliferation, migration) in several cell lines including HT1080 and HEK-293T. Altogether, this work reveals that BMP-1 substrates extend far beyond what is presently described and open several perspectives for future studies

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