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Stable Force Balance between Epithelial Cells Arises from F-Actin Turnover

Authors :: Norbert Perrimon
Michael B. Tworoger
Lizabeth A. Perkins
Elena R. Kingston
Jeanne N. Jodoin
Jonathan S. Coravos
Claudia G. Vasquez
Adam C. Martin
Soline Chanet
Massachusetts Institute of Technology. Department of Biology
Jodoin, Jeanne
Coravos, Jonathan Stuck
Chanet, Soline
Tworoger, Michael B
Kingston, Elena
Martin, Adam C
Vasquez, Claudia G
Source :: PMC
Publication Year :: 2015
Publisher :: Elsevier BV, 2015.
Abstract: The propagation of force in epithelial tissues requires that the contractile cytoskeletal machinery be stably connected between cells through E-cadherin-containing adherens junctions. In many epithelial tissues, the cells’ contractile network is positioned at a distance from the junction. However, the mechanism or mechanisms that connect the contractile networks to the adherens junctions, and thus mechanically connect neighboring cells, are poorly understood. Here, we identified the role for F-actin turnover in regulating the contractile cytoskeletal network’s attachment to adherens junctions. Perturbing F-actin turnover via gene depletion or acute drug treatments that slow F-actin turnover destabilized the attachment between the contractile actomyosin network and adherens junctions. Our work identifies a critical role for F-actin turnover in connecting actomyosin to intercellular junctions, defining a dynamic process required for the stability of force balance across intercellular contacts in tissues.<br />National Institute of General Medical Sciences (U.S.) (F32GM113425)<br />National Institute of General Medical Sciences (U.S.) (R01GM084947)<br />National Institute of General Medical Sciences (U.S.) (R01GM105984)