by Keyword: Force transduction

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Sehgal, Poonam, Kong, Xinyu, Wu, Jun, Sunyer, Raimon, Trepat, Xavier, Leckband, Deborah, (2018). Epidermal growth factor receptor and integrins control force-dependent vinculin recruitment to E-cadherin junctions Journal of Cell Science 131, (6), jcs206656

This study reports novel findings that link E-cadherin (also known as CDH1)-mediated force-transduction signaling to vinculin targeting to intercellular junctions via epidermal growth factor receptor (EGFR) and integrins. These results build on previous findings that demonstrated that mechanically perturbed E-cadherin receptors activate phosphoinositide 3-kinase and downstream integrins in an EGFR-dependent manner. Results of this study show that this EGFR-mediated kinase cascade controls the force-dependent recruitment of vinculin to stressed E-cadherin complexes – a key early signature of cadherin-based mechanotransduction. Vinculin targeting requires its phosphorylation at tyrosine 822 by Abl family kinases (hereafter Abl), but the origin of force-dependent Abl activation had not been identified. We now present evidence that integrin activation, which is downstream of EGFR signaling, controls Abl activation, thus linking E-cadherin to Abl through a mechanosensitive signaling network. These findings place EGFR and integrins at the center of a positive-feedback loop, through which force-activated E-cadherin signals regulate vinculin recruitment to cadherin complexes in response to increased intercellular tension.This article has an associated First Person interview with the first author of the paper.

Keywords: Cadherin, Epidermal growth factor receptor, Force transduction, Magnetic twisting cytometry, Vinculin, Integrin