SLK-mediated Phosphorylation of Paxillin Is Required for Focal Adhesion Turnover and Cell Migration

Abstract

The precise mechanism regulating focal adhesion disassembly has yet to be elucidated. Recently, we have implicated the Ste20-like kinase SLK in mediating efficient focal adhesion turnover and cell migration in a Rac-1 and FAK-dependent manner. Although an indirect association of this kinase with the microtubule network has been determined, the exact involvement of SLK in the disassembly of the adhesion complex remains unclear. With the identification of the focal adhesion protein paxillin as a substrate of SLK, we show that SLK regulates adhesion turnover through its phosphorylation at S250. Mutation of S250 to a threonine residue ablates SLK phosphorylation of paxillin in vitro and results in reduced adhesion turnover and migration in vivo. Additionally, our studies demonstrate that overexpression of the paxillin S250T mutation prevents the redistribution of paxillin to the membrane ruffle in migrating cells. The complete loss of polyubiquitylation in the S250T mutant, combined with no observed reduction in S250T protein expression, suggests that S250 phosphorylation is required for a ubiquitin-mediated modification that regulates paxillin redistribution within the cell. Moreover, we show that phosphorylation of S250 is required for paxillin to interact with FAK. An observed accumulation of phospho-FAKY397 in cells overexpressing the paxillin S250T mutant suggests that phosphorylation of S250 is involved in regulating FAK-dependent focal adhesion dynamics. Consequently, our data suggests that SLK regulates adhesion turnover through the phosphorylation of paxillin at S250.