Tension-oriented cell divisions limit anisotropic tissue tension in epithelial spreading during zebrafish epiboly
Pedro Campinho,Martin Behrndt,Jonas Ranft,Thomas Risler,Nicolas Minc,Carl-Philipp Heisenberg +5 more
TLDR
It is found that in the absence of tension-oriented cell divisions and in the presence of increased tissue tension, EVL cells undergo ectopic fusions, suggesting that the reduction of tension anisotropy by oriented cell divisions is required to preventEVL cells from fusing.Abstract:
Epithelial spreading is a common and fundamental aspect of various developmental and disease-related processes such as epithelial closure and wound healing. A key challenge for epithelial tissues undergoing spreading is to increase their surface area without disrupting epithelial integrity. Here we show that orienting cell divisions by tension constitutes an efficient mechanism by which the enveloping cell layer (EVL) releases anisotropic tension while undergoing spreading during zebrafish epiboly. The control of EVL cell-division orientation by tension involves cell elongation and requires myosin II activity to align the mitotic spindle with the main tension axis. We also found that in the absence of tension-oriented cell divisions and in the presence of increased tissue tension, EVL cells undergo ectopic fusions, suggesting that the reduction of tension anisotropy by oriented cell divisions is required to prevent EVL cells from fusing. We conclude that cell-division orientation by tension constitutes a key mechanism for limiting tension anisotropy and thus promoting tissue spreading during EVL epiboly.read more
Citations
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E-cadherin junctions as active mechanical integrators in tissue dynamics
Thomas Lecuit,Alpha S. Yap +1 more
TL;DR: The concept that cellular contractility and E-cadherin-based adhesion are functionally integrated by biomechanical feedback pathways that operate on molecular, cellular and tissue scales is discussed.
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Quantifying forces in cell biology
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Control of cell–cell forces and collective cell dynamics by the intercellular adhesome
Elsa Bazellières,Vito Conte,Alberto Elosegui-Artola,Xavier Serra-Picamal,María Bintanel-Morcillo,Pere Roca-Cusachs,José J. Muñoz,Marta Sales-Pardo,Roger Guimerà,Xavier Trepat +9 more
TL;DR: This work shows that collective cellular responses to selective perturbations of the intercellular adhesome conform to three mechanical phenotypes; these phenotypes are controlled by different molecular modules and characterized by distinct relationships between cellular kinematics and inter cellular forces.
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Local and tissue-scale forces drive oriented junction growth during tissue extension
TL;DR: It is reported that tissue convergence and extension correlate mostly with new junction growth and it is found that tissue-scale pulling forces at the boundary with the invaginating posterior midgut actively participate in tissue extension by orienting junction growth.
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Tensile Forces and Mechanotransduction at Cell-Cell Junctions.
TL;DR: Progress in characterising the forces present at junctions in physiological conditions is discussed; the cellular mechanisms that generate intrinsic tension and detect changes in tension are discussed; and, finally, how tissue integrity is maintained in the face of junctional stresses is considered.
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