Collective epithelial migration mediated by the unbinding of hexatic defects
Dimitrios Krommydas, Livio Carenza, Luca Giomi (2026) Collective epithelial migration mediated by the unbinding of hexatic defects Elife 14
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Abstract
Collective cell migration in epithelia relies on cell intercalation: a local remodeling of the cellular network that allows neighboring cells to swap their positions. Unlike foams and passive cellular fluid, in epithelial intercalation, these rearrangements crucially depend on activity. During these processes, the local geometry of the network and the contractile forces generated therein conspire to produce a burst of remodeling events, which collectively give rise to a vortical flow at the mesoscopic length scale. In this article, we formulate a continuum theory of the mechanism driving this process, built upon recent advances toward understanding the hexatic (i.e., sixfold ordered) structure of epithelial layers. Using a combination of active hydrodynamics and cell-resolved numerical simulations, we demonstrate that cell intercalation takes place via the unbinding of topological defects, naturally initiated by fluctuations and whose late-times dynamics is governed by the interplay between passive attractive forces and active self-propulsion. Our approach sheds light on the structure of the cellular forces driving collective migration in epithelia and provides an explanation of the observed extensile activity of in vitro epithelial layers.© 2025, Krommydas et al.
Links
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC13143286http://www.ncbi.nlm.nih.gov/pubmed/42084036
http://dx.doi.org/10.7554/eLife.105397
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