F-actin dynamics regulates collective cell migration by modulating cell shape and stress correlation.

IF 3.2 3区生物学 Q2 BIOPHYSICS

Biophysical journal Pub Date : 2025-06-17 Epub Date: 2025-05-02 DOI:10.1016/j.bpj.2025.04.030

Xiangdong Kong, Zheng Zhong, Chao Fang

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引用次数: 0

Abstract

As an essential component in generating cell contractility, F-actin plays a pivotal role in collective cell migration. However, the mechanisms by which subcellular F-actin dynamics influence the collective behaviors of cell clusters across scales remain poorly understood. In this study, we developed a mechanical model to investigate how the dynamics of stress fibers and cryptic lamellipodia, prominent F-actin structures generating traction forces, regulate collective cell migration. Our results show that strengthening stress fibers significantly amplifies cell rearrangements and counteracts the high-density-induced inhibition of cell movements in the monolayer. It is attributed to the tension-caused cell elongation, which facilitates the growth of normalized mean-squared displacements in high-density cell monolayers. Moreover, the model shows that stronger stress fibers could effectively guide collaborative cell movements through enhancing the spatial correlation of maximum principal stress. Additionally, we found cryptic lamellipodia exhibit similar influence on collective cell migration. Our results bridge intracellular F-actin dynamics with collective cell migration, offering insights into the underlying mechanisms and their biological significance.

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f -肌动蛋白动力学通过调节细胞形状和应力相关性调节集体细胞迁移。

作为产生细胞收缩性的重要组成部分，f -肌动蛋白在细胞集体迁移中起着关键作用。然而，亚细胞f -肌动蛋白动力学影响细胞簇集体行为的机制仍然知之甚少。在这项研究中，我们建立了一个力学模型来研究应力纤维和隐板足（主要的f -肌动蛋白结构产生牵引力）的动力学如何调节集体细胞迁移。我们的研究结果表明，强化应力纤维可显著增强细胞重排，并抵消高密度诱导的单层细胞运动抑制。这归因于张力引起的细胞伸长，这促进了高密度单层细胞中归一化均方位移（NMSD）的增长。此外，该模型还表明，较强的应力纤维可以通过增强最大主应力的空间相关性来有效地引导细胞协同运动。此外，我们发现隐板足对集体细胞迁移也有类似的影响。我们的研究结果将细胞内f -肌动蛋白动力学与集体细胞迁移联系起来，提供了对潜在机制及其生物学意义的见解。

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来源期刊

Biophysical journal 生物-生物物理

CiteScore

6.10

自引率

5.90%

发文量

3090

审稿时长

2 months

期刊介绍： BJ publishes original articles, letters, and perspectives on important problems in modern biophysics. The papers should be written so as to be of interest to a broad community of biophysicists. BJ welcomes experimental studies that employ quantitative physical approaches for the study of biological systems, including or spanning scales from molecule to whole organism. Experimental studies of a purely descriptive or phenomenological nature, with no theoretical or mechanistic underpinning, are not appropriate for publication in BJ. Theoretical studies should offer new insights into the understanding ofexperimental results or suggest new experimentally testable hypotheses. Articles reporting significant methodological or technological advances, which have potential to open new areas of biophysical investigation, are also suitable for publication in BJ. Papers describing improvements in accuracy or speed of existing methods or extra detail within methods described previously are not suitable for BJ.