SLK/LOSK Kinase Regulates Cell Motility Independently of Microtubule Organization and Golgi Polarization

Overview

Journal Cytoskeleton (Hoboken)

Specialty Cell Biology

Date 2016 Jan 29

PMID 26818812

Citations 6

Authors

Artem I Fokin

Tatiana S Klementeva

Elena S Nadezhdina

Anton V Burakov

Affiliations

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Abstract

Cell motility is an essential complex process that requires actin and microtubule cytoskeleton reorganization and polarization. Such extensive rearrangement is closely related to cell polarization as a whole. The serine/threonine kinase SLK/LOSK is a potential regulator of cell motility, as it phosphorylates a series of cytoskeleton-bound proteins that collectively participate in the remodeling of migratory cell architecture. In this work, we report that SLK/LOSK is an indispensable regulator of cell locomotion that primarily acts through the small GTPase RhoA and the dynactin subunit p150(Glued). Both RhoA and dynactin affect cytoskeleton organization, polarization, and general cell locomotory activity to various extents. However, it seems that these events are independent of each other. Thus, SLK/LOSK kinase effectively functions as a switch that links all of the processes underlying cell motility to provide robust directional movement.

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