Endocytic reawakening of motility in jammed epithelia

Dynamics of epithelial monolayers has recently been interpreted in terms of a jamming or rigidity transition. How cells control such phase transitions is, however, unknown. Here we show that RAB5A, a key endocytic protein, is sufficient to induce large-scale, coordinated motility over tens of cells...

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Autores principales: Malinverno, Chiara, Corallino, Salvatore, Giavazzi, Fabio, Bergert, Martin, Li, Qingsen, Leoni, Marco, Disanza, Andrea, Frittoli, Emanuela, Oldani, Amanda, Martini, Emanuele, Lendenmann, Tobias, Deflorian, Gianluca, Beznoussenko, Galina V., Poulikakos, Dimos, Haur, ONG Kok, Uroz, Marina, Trepat, Xavier, Parazzoli, Dario, Maiuri, Paolo, Yu, Weimiao, Ferrari, Aldo, Cerbino, Roberto, Scita, Giorgio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5407454/
https://www.ncbi.nlm.nih.gov/pubmed/28135264
http://dx.doi.org/10.1038/nmat4848
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author Malinverno, Chiara
Corallino, Salvatore
Giavazzi, Fabio
Bergert, Martin
Li, Qingsen
Leoni, Marco
Disanza, Andrea
Frittoli, Emanuela
Oldani, Amanda
Martini, Emanuele
Lendenmann, Tobias
Deflorian, Gianluca
Beznoussenko, Galina V.
Poulikakos, Dimos
Haur, ONG Kok
Uroz, Marina
Trepat, Xavier
Parazzoli, Dario
Maiuri, Paolo
Yu, Weimiao
Ferrari, Aldo
Cerbino, Roberto
Scita, Giorgio
author_facet Malinverno, Chiara
Corallino, Salvatore
Giavazzi, Fabio
Bergert, Martin
Li, Qingsen
Leoni, Marco
Disanza, Andrea
Frittoli, Emanuela
Oldani, Amanda
Martini, Emanuele
Lendenmann, Tobias
Deflorian, Gianluca
Beznoussenko, Galina V.
Poulikakos, Dimos
Haur, ONG Kok
Uroz, Marina
Trepat, Xavier
Parazzoli, Dario
Maiuri, Paolo
Yu, Weimiao
Ferrari, Aldo
Cerbino, Roberto
Scita, Giorgio
author_sort Malinverno, Chiara
collection PubMed
description Dynamics of epithelial monolayers has recently been interpreted in terms of a jamming or rigidity transition. How cells control such phase transitions is, however, unknown. Here we show that RAB5A, a key endocytic protein, is sufficient to induce large-scale, coordinated motility over tens of cells and ballistic motion in otherwise kinetically-arrested monolayers. This is linked to increased traction forces and to the extension of cell protrusions, which align with local velocity. Molecularly, impairing endocytosis, macropinocytosis or increasing fluid efflux abrogates RAB5A-induced collective motility. A simple model based on mechanical junctional tension and an active cell reorientation mechanism for the velocity of self-propelled cells identifies regimes of monolayer dynamics that explain endocytic reawakening of locomotion in terms of a combination of large-scale directed migration and local unjamming. These changes in multicellular dynamics enable collectives to migrate under physical constraints and may be exploited by tumors for interstitial dissemination.
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spelling pubmed-54074542017-07-30 Endocytic reawakening of motility in jammed epithelia Malinverno, Chiara Corallino, Salvatore Giavazzi, Fabio Bergert, Martin Li, Qingsen Leoni, Marco Disanza, Andrea Frittoli, Emanuela Oldani, Amanda Martini, Emanuele Lendenmann, Tobias Deflorian, Gianluca Beznoussenko, Galina V. Poulikakos, Dimos Haur, ONG Kok Uroz, Marina Trepat, Xavier Parazzoli, Dario Maiuri, Paolo Yu, Weimiao Ferrari, Aldo Cerbino, Roberto Scita, Giorgio Nat Mater Article Dynamics of epithelial monolayers has recently been interpreted in terms of a jamming or rigidity transition. How cells control such phase transitions is, however, unknown. Here we show that RAB5A, a key endocytic protein, is sufficient to induce large-scale, coordinated motility over tens of cells and ballistic motion in otherwise kinetically-arrested monolayers. This is linked to increased traction forces and to the extension of cell protrusions, which align with local velocity. Molecularly, impairing endocytosis, macropinocytosis or increasing fluid efflux abrogates RAB5A-induced collective motility. A simple model based on mechanical junctional tension and an active cell reorientation mechanism for the velocity of self-propelled cells identifies regimes of monolayer dynamics that explain endocytic reawakening of locomotion in terms of a combination of large-scale directed migration and local unjamming. These changes in multicellular dynamics enable collectives to migrate under physical constraints and may be exploited by tumors for interstitial dissemination. 2017-01-30 2017-05 /pmc/articles/PMC5407454/ /pubmed/28135264 http://dx.doi.org/10.1038/nmat4848 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Malinverno, Chiara
Corallino, Salvatore
Giavazzi, Fabio
Bergert, Martin
Li, Qingsen
Leoni, Marco
Disanza, Andrea
Frittoli, Emanuela
Oldani, Amanda
Martini, Emanuele
Lendenmann, Tobias
Deflorian, Gianluca
Beznoussenko, Galina V.
Poulikakos, Dimos
Haur, ONG Kok
Uroz, Marina
Trepat, Xavier
Parazzoli, Dario
Maiuri, Paolo
Yu, Weimiao
Ferrari, Aldo
Cerbino, Roberto
Scita, Giorgio
Endocytic reawakening of motility in jammed epithelia
title Endocytic reawakening of motility in jammed epithelia
title_full Endocytic reawakening of motility in jammed epithelia
title_fullStr Endocytic reawakening of motility in jammed epithelia
title_full_unstemmed Endocytic reawakening of motility in jammed epithelia
title_short Endocytic reawakening of motility in jammed epithelia
title_sort endocytic reawakening of motility in jammed epithelia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5407454/
https://www.ncbi.nlm.nih.gov/pubmed/28135264
http://dx.doi.org/10.1038/nmat4848
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