Macropinocytosis-mediated membrane recycling drives neural crest migration by delivering F-actin to the lamellipodium
Abstract
Individual cell migration requires front-to-back polarity manifested by lamellipodial extension. At present, it remains debated whether and how membrane motility mediates this cell morphological change. To gain insights into these processes, we perform live imaging and molecular perturbation of migrating chick neural crest cells in vivo. Our results reveal an endocytic loop formed by circular membrane flow and anterograde movement of lipid vesicles, resulting in cell polarization and locomotion. Rather than clathrin-mediated endocytosis, macropinosomes encapsulate F-actin in the cell body, forming vesicles that translocate via microtubules to deliver actin to the anterior. In addition to previously proposed local conversion of actin monomers to polymers, we demonstrate a surprising role for shuttling of F-actin across cells for lamellipodial expansion. Thus, the membrane and cytoskeleton act in concert in distinct subcellular compartments to drive forward cell migration.
Additional Information
© 2020 the Author(s). Published by PNAS. This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND). Contributed by Marianne E. Bronner, September 22, 2020 (sent for review June 8, 2020; reviewed by Angela Nieto and Tatjana Piotrowski) We thank Pierre Martineau for sharing reagents and Beckman Institute Biological Imaging Facility at Caltech for sharing equipment. We thank the Beckman Institute at Caltech for financial support to the Center for Advanced Methods in Biological Image Analysis (A.C.). W.G.G. is supported by the Della Martin Foundation, the American Heart Association, and the Burroughs Wellcome Fund. S.G. is supported by the American Heart Association. This project is supported by DE024157 and R35NS111564 (to M.E.B.). Data Availability. All study data are included in the article and supporting information. Author contributions: Y.L. and W.G.G. designed research; Y.L., W.T., and S.G. performed research; Y.L., W.G.G., and A.A. contributed new reagents/analytic tools; Y.L., W.G.G., A.A., A.C., D.P., and C.L. analyzed data; and Y.L., W.G.G., and M.E.B. wrote the paper. Reviewers: A.N., Instituto de Neurociencias de Alicante, Consejo Superior de Investigaciones Científicas–Universidad Miguel Hernández; and T.P., Stowers Institute for Medical Research. Competing interest statement: M.E.B. and A.N. are listed as coauthors on a 2020 Consensus Statement. They did not collaborate directly on the paper. This article contains supporting information online at https://www.pnas.org/lookup/suppl/doi:10.1073/pnas.2007229117/-/DCSupplemental.Attached Files
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Additional details
- PMCID
- PMC7959501
- Eprint ID
- 106204
- Resolver ID
- CaltechAUTHORS:20201022-090820908
- Caltech Beckman Institute
- Della Martin Foundation
- American Heart Association
- Burroughs Wellcome Fund
- DE024157
- NIH
- R35NS111564
- NIH
- Created
-
2020-10-22Created from EPrint's datestamp field
- Updated
-
2021-04-19Created from EPrint's last_modified field
- Caltech groups
- Division of Biology and Biological Engineering, Division of Biology and Biological Engineering