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T-Plastin reinforces membrane protrusions to bridge matrix gaps during cell migration

Damien Garbett, Anjali Bisaria, Changsong Yang, Dannielle G. McCarthy, Arnold Hayer, W. E. Moerner, Tatyana Svitkina, Tobias Meyer

2020Nature Communications38 citationsDOIOpen Access PDF

Abstract

Migrating cells move across diverse assemblies of extracellular matrix (ECM) that can be separated by micron-scale gaps. For membranes to protrude and reattach across a gap, actin filaments, which are relatively weak as single filaments, must polymerize outward from adhesion sites to push membranes towards distant sites of new adhesion. Here, using micropatterned ECMs, we identify T-Plastin, one of the most ancient actin bundling proteins, as an actin stabilizer that promotes membrane protrusions and enables bridging of ECM gaps. We show that T-Plastin widens and lengthens protrusions and is specifically enriched in active protrusions where F-actin is devoid of non-muscle myosin II activity. Together, our study uncovers critical roles of the actin bundler T-Plastin to promote protrusions and migration when adhesion is spatially-gapped.

Topics & Concepts

ActinExtracellular matrixCell biologyMyosinCell migrationAdhesionMembraneCytoskeletonBridging (networking)Cell adhesionChemistryBiophysicsBiologyCellBiochemistryComputer scienceOrganic chemistryComputer networkCellular Mechanics and InteractionsMicrotubule and mitosis dynamicsCell Adhesion Molecules Research
T-Plastin reinforces membrane protrusions to bridge matrix gaps during cell migration | Litcius