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Etude du rôle des protéines de polarité Apico-Basale dans l' organisation des jonctions adhérentes / Role of apico-basal polarity proteins in E-Cadherin organization

Epithelial tissues are composed of a sheet of adherent cells and are present in all metazoans. Their broad function is to compartmentalize tissues and enable the regulated exchange of nutrients and waste between the internal and external environments. To accomplish this function, cells require a specific organization: an apico-basal polarity that provides directionality and intercellular adhesion mediated by adherens junctions that hold cells together. How the epithelia architecture is initiated and maintained remains to be fully elucidated. Adherens junctions and the polarity proteins are functionally linked, as a loss of the main component of AJs: E-cadherin leads to a loss of apico-basal polarity, while disturbing apico-basal polarity results in a re-localization of E-Cadherin. Therefore is challenging to study either pathway in isolation.During my thesis I explored the role of Crumbs, a polarity protein, in the regulation of E-Cadherin in both AJ maturation and maintenance. During maturation of AJs in Drosophila embryo, I demonstrated for the first time by using quantitative high-resolution microscopy PALM that Crumbs regulates E-Cadherin clusters size and their homogenous distribution along the junction. In conclusion, my thesis work provides the first dissection of polarity proteins in E-Cadherin regulation apart from polarity pathways. / Epithelial tissues are composed of a sheet of adherent cells and are present in all metazoans. Their broad function is to compartmentalize tissues and enable the regulated exchange of nutrients and waste between the internal and external environments. To accomplish this function, cells require a specific organization: an apico-basal polarity that provides directionality and intercellular adhesion mediated by adherens junctions that hold cells together. How the epithelia architecture is initiated and maintained remains to be fully elucidated. Adherens junctions and the polarity proteins are functionally linked, as a loss of the main component of AJs: E-cadherin leads to a loss of apico-basal polarity, while disturbing apico-basal polarity results in a re-localization of E-Cadherin. Therefore is challenging to study either pathway in isolation.During my thesis I explored the role of Crumbs, a polarity protein, in the regulation of E-Cadherin in both AJ maturation and maintenance. During maturation of AJs in Drosophila embryo, I demonstrated for the first time by using quantitative high-resolution microscopy PALM that Crumbs regulates E-Cadherin clusters size and their homogenous distribution along the junction. In conclusion, my thesis work provides the first dissection of polarity proteins in E-Cadherin regulation apart from polarity pathways.

Identiferoai:union.ndltd.org:theses.fr/2015AIXM4015
Date19 May 2015
CreatorsSalis, Pauline
ContributorsAix-Marseille, Le Bivic, André
Source SetsDépôt national des thèses électroniques françaises
LanguageEnglish
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation, Text

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