Integrin adhesion drives the emergent polarization of active cytoskeletal stresses to pattern cell delamination

Abstract: Tissue patterning relies on cellular reorganization through the interplay between signaling pathways and mechanical stresses. Their integration and spatiotemporal coordination remain poorly understood. Here we investigate the mechanisms driving the dynamics of cell delamination, diversely deployed to extrude dead cells or specify distinct cell fates. We show that a local mechanical stimulus (subcellular laser perturbation) releases cellular prestress and triggers cell delamination in the amnioserosa during Dro… Show more

“…We noticed that the tears within the AS usually appear at sites of cell delamination. It is known that around 10% of AS cells are eliminated from the epithelium through a mechanism involving cytoskeletal rearrangements in the delaminating cell and also in its nearest neighbours (Meghana et al, 2011;Muliyil et al, 2011;Toyama et al, 2008). We observe that the number of cell delamination events in mbs 541 mutant embryos increases, but this is not due to an increase in cell density (Fig.…”

Integration of actomyosin contractility with cell-cell adhesion during dorsal closure

“…We noticed that the tears within the AS usually appear at sites of cell delamination. It is known that around 10% of AS cells are eliminated from the epithelium through a mechanism involving cytoskeletal rearrangements in the delaminating cell and also in its nearest neighbours (Meghana et al, 2011;Muliyil et al, 2011;Toyama et al, 2008). We observe that the number of cell delamination events in mbs 541 mutant embryos increases, but this is not due to an increase in cell density (Fig.…”

Integration of actomyosin contractility with cell-cell adhesion during dorsal closure

“…Cell expansion alters cell morphology of the nearest neighbors such that they become progressively shorter along the radial axis and stretched along the azimuthal axis. The constriction that follows is associated with stretch and shortening in the opposite axes, radial and azimuthal respectively, of the nearest neighbors (Figure 3, A1–A4; Meghana et al. , 2011).…”

Local, cell-nonautonomous feedback regulation of myosin dynamics patterns transitions in cell behavior: a role for tension and geometry?

“…In general, cells can be extruded either apically into the surrounding lumen or basally into the underlying tissue and/or extracellular matrix ( Figure 6). In Drosophila, for instance, cells extrude predominantly basally, in a process known as cell delamination (Marinari et al, 2012;Meghana et al, 2011;Muliyil et al, 2011), whereas in vertebrates, epithelial cells are predominantly extruded apically. The direction in which cells are extruded can have major consequences for their fate.…”

Actin Rings of Power