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Wnt5a Control of Cell Polarity and Directional Movement by Polarized Redistribution of Adhesion Receptors
Eric S. Witze,1Elizabeth S. Litman,1,2Gretchen M. Argast,1Randall T. Moon,3,2Natalie G. Ahn1,2*
Mechanisms by which Wnt pathways integrate the organizationof receptors, organelles, and cytoskeletal proteins to confercell polarity and directional cell movement are incompletelyunderstood. We show that acute responses to Wnt5a involve recruitmentof actin, myosin IIB, Frizzled 3, and melanoma cell adhesionmolecule into an intracellular structure in a melanoma cellline. In the presence of a chemokine gradient, this Wnt-mediatedreceptor–actin–myosin polarity (W-RAMP) structureaccumulates asymmetrically at the cell periphery, where it triggersmembrane contractility and nuclear movement in the directionof membrane retraction. The process requires endosome trafficking,is associated with multivesicular bodies, and is regulated byWnt5a through the small guanosine triphosphatases Rab4 and RhoB.Thus, cell-autonomous mechanisms allow Wnt5a to control cellorientation, polarity, and directional movement in responseto positional cues from chemokine gradients.
1 Department of Chemistry and Biochemistry, University of Colorado, Boulder, CO80309, USA. 2 Howard Hughes Medical Institute, University of Colorado, Boulder, CO 80309, USA. 3 Department of Pharmacology and Howard Hughes Medical Institute, University of Washington, Seattle, WA 98195, USA.
* To whom correspondence should be addressed. E-mail: natalie.ahn{at}colorado.edu
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