Epithelial folding through local degradation of an elastic basement membrane plate.
blue
CRY2/CIB1
D. melanogaster in vivo
Control of cytoskeleton / cell motility / cell shape
Developmental processes
Abstract:
Epithelia are polarised layers of cells that line the outer and inner surfaces of organs. At the basal side, the epithelial cell layer is supported by a basement membrane, which is a thin polymeric layer of self-assembled extracellular matrix (ECM) that tightly adheres to the basal cell surface. Proper shaping of epithelial layers is an important prerequisite for the development of healthy organs during the morphogenesis of an organism. Experimental evidence indicates that local degradation of the basement membrane drives epithelial folding. Here, we present a coarse-grained plate theory model of the basement membrane that assumes force balance between i) cell-transduced active forces and ii) deformation-induced elastic forces. We verify key assumptions of this model through experiments in the Drosophila wing disc epithelium and demonstrate that the model can explain the emergence of outward epithelial folds upon local plate degradation. Our model accounts for local degradation of the basement membrane as a mechanism for the generation of epithelial folds in the absence of epithelial growth.