集体细胞运动过程中的牵引力。

Traction forces during collective cell motion.

作者信息

Gov N S

机构信息

Department of Chemical Physics, Weizmann Institute of Science, P.O. Box 26, Rehovot 76100, Israel.

出版信息

HFSP J. 2009 Aug;3(4):223-7. doi: 10.2976/1.3185785. Epub 2009 Jul 24.

DOI:10.2976/1.3185785

PMID:20119479

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2799984/

Abstract

Collective motion of cell cultures is a process of great interest, as it occurs during morphogenesis, wound healing, and tumor metastasis. During these processes cell cultures move due to the traction forces induced by the individual cells on the surrounding matrix. A recent study [Trepat, et al. (2009). Nat. Phys. 5, 426-430] measured for the first time the traction forces driving collective cell migration and found that they arise throughout the cell culture. The leading 5-10 rows of cell do play a major role in directing the motion of the rest of the culture by having a distinct outwards traction. Fluctuations in the traction forces are an order of magnitude larger than the resultant directional traction at the culture edge and, furthermore, have an exponential distribution. Such exponential distributions are observed for the sizes of adhesion domains within cells, the traction forces produced by single cells, and even in nonbiological nonequilibrium systems, such as sheared granular materials. We discuss these observations and their implications for our understanding of cellular flows within a continuous culture.

摘要

细胞培养物的集体运动是一个备受关注的过程，因为它发生在形态发生、伤口愈合和肿瘤转移期间。在这些过程中，细胞培养物由于单个细胞对周围基质施加的牵引力而移动。最近的一项研究[特雷帕特等人（2009年）。《自然·物理学》5卷，426 - 430页]首次测量了驱动集体细胞迁移的牵引力，发现这些力在整个细胞培养物中产生。最前面的5 - 10排细胞通过具有明显的向外牵引力，在引导培养物其余部分的运动中确实起着主要作用。牵引力的波动比培养物边缘的合成方向牵引力大一个数量级，而且具有指数分布。在细胞内粘附域的大小、单个细胞产生的牵引力中，甚至在非生物非平衡系统（如剪切颗粒材料）中都观察到了这种指数分布。我们讨论这些观察结果及其对我们理解连续培养中细胞流动的意义。

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