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Dense monolayers of living cells display intriguing relaxation dynamics, reminiscent of soft and glassy materials close to the jamming transition, and migrate collectively when space is available, as in wound healing or in cancer invasion. Here we show that collective cell migration occurs in bursts that are similar to those recorded in the propagation of cracks, fluid fronts in porous media, and ferromagnetic domain walls. In analogy with these systems, the distribution of activity bursts displays scaling laws that are universal in different cell types and for cells moving on different substrates. The main features of the invasion dynamics are quantitatively captured by a model of interacting active particles moving in a disordered landscape. Our results illustrate that collective motion of living cells is analogous to the corresponding dynamics in driven, but inanimate, systems.

Bursts of activity in collective cell migration

Zapperi S;
2016

Abstract

Dense monolayers of living cells display intriguing relaxation dynamics, reminiscent of soft and glassy materials close to the jamming transition, and migrate collectively when space is available, as in wound healing or in cancer invasion. Here we show that collective cell migration occurs in bursts that are similar to those recorded in the propagation of cracks, fluid fronts in porous media, and ferromagnetic domain walls. In analogy with these systems, the distribution of activity bursts displays scaling laws that are universal in different cell types and for cells moving on different substrates. The main features of the invasion dynamics are quantitatively captured by a model of interacting active particles moving in a disordered landscape. Our results illustrate that collective motion of living cells is analogous to the corresponding dynamics in driven, but inanimate, systems.
2016
Istituto di Chimica della Materia Condensata e di Tecnologie per l'Energia - ICMATE
Inglese
WOS:000380950000002
113
41
11408
11413
2-s2.0-84991486035
http://www.pnas.org/content/113/41/11408
Sì, ma tipo non specificato
Avalanches
Collagen substrate
Collective cell migration
Universality
Vascular endothelial cadherin
Significance During wound healing and in cancer invasion, cells migrate collectively driven by active internal forces and invade the available space. Here we show that this motion occurs by intermittent bursts of activity described by universal scaling laws similar to the ones observed in other driven systems where a front propagates in response to an external force, such as in fracture and fluid imbibition. Our results demonstrate that living systems display universal nonequilibrium critical fluctuations, induced by cell mutual interactions, that are usually associated with externally driven inanimate media.
14
info:eu-repo/semantics/article
262
Chepizhko, O; Giampietro, C; Mastrapasqua, E; Nourazar, M; Ascagni, M; Sugni, M; Fascio, U; Leggio, L; Malinverno, C; Scita, G; Santucci, S; Alavaa, M...espandi
01 Contributo su Rivista::01.01 Articolo in rivista
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01.01 Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/323761
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