Collective cell migration requires vesicular trafficking for chemoattractant delivery at the trailing edge

doi:10.1083/jcb.200808105

Published online December 1, 2008
doi:10.1083/jcb.200808105
The Journal of Cell Biology, Vol. 183, No. 5, 949-961
The Rockefeller University Press, 0021-9525 $30.00
© 2008 Kriebel et al.

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Article

Collective cell migration requires vesicular trafficking for chemoattractant delivery at the trailing edge

Paul W. Kriebel¹, Valarie A. Barr¹, Erin C. Rericha¹^,3, Guofeng Zhang², and Carole A. Parent¹

¹ Laboratory of Cellular and Molecular Biology, National Cancer Institute, and ² Division of Bioengineering and Physical Sciences, National Institute of Biomedical Imaging and Bioengineering, National Institutes of Health, Bethesda, MD 20892
³ Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, MD 20742

Correspondence to Carole A. Parent: parentc{at}mail.nih.gov

Chemoattractant signaling induces the polarization and directedmovement of cells secondary to the activation of multiple effectorpathways. In addition, chemotactic signals can be amplifiedand relayed to proximal cells via the synthesis and secretionof additional chemoattractant. The mechanisms underlying suchremarkable features remain ill defined. We show that the asymmetricaldistribution of adenylyl cyclase (ACA) at the back of Dictyosteliumdiscoideum cells, an essential determinant of their abilityto migrate in a head-to-tail fashion, requires vesicular trafficking.This trafficking results in a local accumulation of ACA-containingintracellular vesicles and involves intact actin, microtubulenetworks, and de novo protein synthesis. We also show that migratingcells leave behind ACA-containing vesicles, likely secretedas multivesicular bodies and presumably involved in the formationof head-to-tail arrays of migrating cells. We propose that similarcompartmentalization and shedding mechanisms exist in mammaliancells during embryogenesis, wound healing, neuron growth, andmetastasis.

Abbreviations used in this paper: ACA, adenylyl cyclase; cAR,cAMP receptor; CHC, clathrin heavy chain; CHX, cycloheximide;CLC, clathrin light chain; CRAC, cytosolic regulator of ACA;LatA, latrunculin A; MTOC, microtubule organizing center; MVB,multivesicular body; MyoJ, myosin J; Noco, Nocodazole; PI3K,phosphatidylinositol-3-kinase; ROI, region of interest; WT,wild type.

This article is distributed under the terms of an Attribution–Noncommercial–ShareAlike–No Mirror Sites license for the first six monthsafter the publication date (see http://www.jcb.org/misc/terms.shtml).After six months it is available under a Creative Commons License(Attribution–Noncommercial–Share Alike 3.0 Unportedlicense, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

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