Role of basement membrane during epithelial morphogenesis in Drosophila melanogaster ; Rôle de la membrane basale lors de la morphogenèse épithéliale chez Drosophila melanogaster

Epithelial cell morphogenesis is an essential process for animal development. Epithelia are composed of polarized cells with a basal side interacting through Integrins, with a basement membrane (BM) and a lateral side containing cadherin-based junctional complexes. Integrins and Cadherins are, both, linked to actin filaments and are thus involved in cell shape regulation. While these links are well documented, it remains unclear how the components of the BM and the 3D organisation of this tissue influence epithelial cell morphogenesis. The model we are using to study this influence is the follicular epithelium in Drosophila melanogaster. It consists of a monolayer of 800 epithelial cells surrounding the egg chamber consisted of an internal cluster of 16 germline cells (15 nurse cells and one posteriorly-localized oocyte). An extracellular matrix (ECM), composed mainly of Collagen IV and Laminins, surrounds each follicle, directly secreted by follicular cells. During follicle development, the cuboidal epithelial cells become squamous around the nurse cells and columnar around the oocyte. The cuboidal-to-squamous transition depends on both Integrins (formed by the subunits aPS2/bPS) and Cadherin-based adherens junction remodelling. Here we designed an Atomic Force Microscopy (AFM) approach to investigate the elastic modulus of the ECM in a living ovarian follicle at different stages of development and particularly during epithelial cell morphogenesis. First, we found that the stiffness changes temporally during oogenesis with an increase of stiffness during Collagen IV deposition. Second, during cell morphogenesis, we observed a gradient of ECM stiffness. Third, by measuring the stiffness in mutants delaying or promoting cell flattening, we showed that the regional differences occurs in function of the cell ability to flatten. Fourth, to assess the involvement of Collagen IV or its structure for the ECM rigidity properties, we measured the stiffness of ECM produced by follicles mutant for Collagen IV or after ...