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Article Dans Une Revue Proceedings of the National Academy of Sciences of the United States of America Année : 2007

Collective migration of an epithelial monolayer in response to a model wound

Résumé

Using an original microfabrication-based technique, we experimentally study situations in which a virgin surface is presented to a confluent epithelium with no damage made to the cells. Although inspired by wound-healing experiments, the situation is markedly different from classical scratch wounding because it focuses on the influence of the free surface and uncouples it from the other possible contributions such as cell damage and/or permeabilization. Dealing with Madin–Darby canine kidney cells on various surfaces, we found that a sudden release of the available surface is sufficient to trigger collective motility. This migration is independent of the proliferation of the cells that mainly takes place on the fraction of the surface initially covered. We find that this motility is characterized by a duality between collective and individual behaviors. On the one hand, the velocity fields within the monolayer are very long range and involve many cells in a coordinated way. On the other hand, we have identified very active “leader cells” that precede a small cohort and destabilize the border by a fingering instability. The sides of the fingers reveal a pluricellular actin “belt” that may be at the origin of a mechanical signaling between the leader and the followers. Experiments performed with autocrine cells constitutively expressing hepatocyte growth factor (HGF) or in the presence of exogenous HGF show a higher average velocity of the border and no leader.

Dates et versions

hal-00175727 , version 1 (01-10-2007)

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Citer

Mathieu Poujade, Erwan Grasland-Mongrain, Ariane Hertzog, Julien Jouanneau, Philippe Chavrier, et al.. Collective migration of an epithelial monolayer in response to a model wound. Proceedings of the National Academy of Sciences of the United States of America, 2007, 104 (41), pp.15988-15993. ⟨10.1073/pnas.0705062104⟩. ⟨hal-00175727⟩
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