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A mechanical G2 checkpoint controls epithelial cell division through E-cadherin-mediated regulation of Wee1-Cdk1

2022; Cell Press; Volume: 41; Issue: 2 Linguagem: Inglês

10.1016/j.celrep.2022.111475

2639-1856

Lisa Donker, Ronja M. Houtekamer, Marjolein J. Vliem, François Sipieter, Helena Canever, Manuel Gómez‐González, Miquel Bosch-Padrós, Willem‐Jan Pannekoek, Xavier Trepat, Nicolas Borghi, Martijn Gloerich,

Hippo pathway signaling and YAP/TAZ

Epithelial cell divisions are coordinated with cell loss to preserve epithelial integrity. However, how epithelia adapt their rate of cell division to changes in cell number, for instance during homeostatic turnover or wounding, is not well understood. Here, we show that epithelial cells sense local cell density through mechanosensitive E-cadherin adhesions to control G2/M cell-cycle progression. As local cell density increases, tensile forces on E-cadherin adhesions are reduced, which prompts the accumulation of the G2 checkpoint kinase Wee1 and downstream inhibitory phosphorylation of Cdk1. Consequently, dense epithelia contain a pool of cells that are temporarily halted in G2 phase. These cells are readily triggered to divide following epithelial wounding due to the consequent increase in intercellular forces and resulting degradation of Wee1. Our data collectively show that epithelial cell division is controlled by a mechanical G2 checkpoint, which is regulated by cell-density-dependent intercellular forces sensed and transduced by E-cadherin adhesions.