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Intermediate filaments control collective migration by restricting traction forces and sustaining cell–cell contacts

Chiara de Pascalis 1, 2, 3 Carlos Pérez-González 4, 5 Shailaja Seetharaman 1, 6 Batiste Boëda 1 Benoit Vianay 7 Mithila Burute 7 Cécile Leduc 1 Nicolas Borghi 8 Xavier Trepat 4, 9, 10 Sandrine Etienne-Manneville 1, *
* Corresponding author
1 Polarité cellulaire, Migration et Cancer / Cell Polarity, Migration and Cancer
2 Sorbonne Université
3 UPMC - Université Pierre et Marie Curie - Paris 6
4 BIST - Barcelona Institute of Science and Technology
5 Facultat de Medicina [Barcelona]
6 UPD5 - Université Paris Descartes - Paris 5
7 CytoMorphoLab
LPCV - Laboratoire de physiologie cellulaire végétale, LPCV - Laboratoire de physiologie cellulaire végétale, LPCV - Physiologie cellulaire et végétale
8 IJM (UMR_7592) - Institut Jacques Monod
9 University of Barcelona
10 CIBER-BBN - Centro de Investigación Biomédica en Red en Bioingeniería, Biomateriales y Nanomedicina
Abstract : Mesenchymal cell migration relies on the coordinated regulation of the actin and microtubule networks that participate in polarized cell protrusion, adhesion, and contraction. During collective migration, most of the traction forces are generated by the acto-myosin network linked to focal adhesions at the front of leader cells, which transmit these pulling forces to the followers. Here, using an in vitro wound healing assay to induce polarization and collective directed migration of primary astrocytes, we show that the intermediate filament (IF) network composed of vimentin, glial fibrillary acidic protein, and nestin contributes to directed collective movement by controlling the distribution of forces in the migrating cell monolayer. Together with the cytoskeletal linker plectin, these IFs control the organization and dynamics of the acto-myosin network, promoting the actin-driven treadmilling of adherens junctions, thereby facilitating the polarization of leader cells. Independently of their effect on adherens junctions, IFs influence the dynamics and localization of focal adhesions and limit their mechanical coupling to the acto-myosin network. We thus conclude that IFs promote collective directed migration in astrocytes by restricting the generation of traction forces to the front of leader cells, preventing aberrant tractions in the followers, and by contributing to the maintenance of lateral cell-cell interactions.
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Chiara de Pascalis, Carlos Pérez-González, Shailaja Seetharaman, Batiste Boëda, Benoit Vianay, et al.. Intermediate filaments control collective migration by restricting traction forces and sustaining cell–cell contacts. Journal of Cell Biology, Rockefeller University Press, 2018, 217 (9), pp.3031-3044. ⟨10.1083/jcb.201801162⟩. ⟨pasteur-02057813⟩

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