Healing Regimes for Microscopic Wounds in the Vertex Model of Cell Tissues

R. F. Almada, N. A. M. Araujo, P. Patricio
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Abstract

Wounds in epithelial tissues compromise their vital role in homeostasis. A rapid and efficient wound healing encompasses different mechanisms, which includes the formation of a contractile actin-myosin cable around its edge, known as the purse-string mechanism. We combine mean-field calculations and numerical simulations of the Vertex model to study the interplay between tissue properties and the purse-string mechanism and its impact on the healing process. We find different regimes, where the wound opens, closes partially or completely. We also derive an analytic expression for the closure time which is validated by numerical simulations. This study establishes under which conditions the purse-string mechanism suffices for closure, providing an analytical mean-field expression for the respective thresholds.
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细胞组织顶点模型中显微伤口的愈合机制
上皮组织的伤口会损害其在平衡中的重要作用。快速高效的伤口愈合包含不同的机制,其中包括在伤口边缘形成收缩的肌动蛋白-肌球蛋白索,即所谓的 "荷包绳机制"。我们结合顶点模型的均场计算和数值模拟,研究了组织特性与荷包绳机制之间的相互作用及其对愈合过程的影响。我们发现了伤口张开、部分闭合或完全闭合的不同状态。我们还推导出了闭合时间的解析表达式,并通过数值模拟进行了验证。这项研究确定了在哪些条件下,荷包绳机制足以使伤口闭合,并提供了相应阈值的平均场分析表达式。
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