Cooperation of Dual Modes of Cell Motility Promotes Epithelial Stress Relaxation to Accelerate Wound Healing

Overview

Journal PLoS Comput Biol

Specialty Biology

Date 2018 Oct 2

PMID 30273354

Citations 23

Authors

Michael F Staddon

Dapeng Bi

A Pasha Tabatabai

Visar Ajeti

Michael P Murrell

Shiladitya Banerjee

Affiliations

Soon will be listed here.

Abstract

Collective cell migration in cohesive units is vital for tissue morphogenesis, wound repair, and immune response. While the fundamental driving forces for collective cell motion stem from contractile and protrusive activities of individual cells, it remains unknown how their balance is optimized to maintain tissue cohesiveness and the fluidity for motion. Here we present a cell-based computational model for collective cell migration during wound healing that incorporates mechanochemical coupling of cell motion and adhesion kinetics with stochastic transformation of active motility forces. We show that a balance of protrusive motility and actomyosin contractility is optimized for accelerating the rate of wound repair, which is robust to variations in cell and substrate mechanical properties. This balance underlies rapid collective cell motion during wound healing, resulting from a tradeoff between tension mediated collective cell guidance and active stress relaxation in the tissue.

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