活细胞对拉伸的普遍生理反应。

Universal physical responses to stretch in the living cell.

作者信息

Trepat Xavier, Deng Linhong, An Steven S, Navajas Daniel, Tschumperlin Daniel J, Gerthoffer William T, Butler James P, Fredberg Jeffrey J

机构信息

Program in Molecular and Integrative Physiological Sciences, Harvard School of Public Health, Boston, Massachusetts 02115, USA.

出版信息

Nature. 2007 May 31;447(7144):592-5. doi: 10.1038/nature05824.

DOI:10.1038/nature05824

PMID:17538621

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2440511/

Abstract

With every beat of the heart, inflation of the lung or peristalsis of the gut, cell types of diverse function are subjected to substantial stretch. Stretch is a potent stimulus for growth, differentiation, migration, remodelling and gene expression. Here, we report that in response to transient stretch the cytoskeleton fluidizes in such a way as to define a universal response class. This finding implicates mechanisms mediated not only by specific signalling intermediates, as is usually assumed, but also by non-specific actions of a slowly evolving network of physical forces. These results support the idea that the cell interior is at once a crowded chemical space and a fragile soft material in which the effects of biochemistry, molecular crowding and physical forces are complex and inseparable, yet conspire nonetheless to yield remarkably simple phenomenological laws. These laws seem to be both universal and primitive, and thus comprise a striking intersection between the worlds of cell biology and soft matter physics.

摘要

随着心脏的每一次跳动、肺部的扩张或肠道的蠕动，具有不同功能的细胞类型都会受到显著的拉伸。拉伸是生长、分化、迁移、重塑和基因表达的有力刺激因素。在此，我们报告，响应短暂拉伸时，细胞骨架会以一种方式流化，从而定义一种通用的响应类别。这一发现暗示，其机制不仅由通常所认为的特定信号中间体介导，还由一个缓慢演化的物理力网络的非特异性作用介导。这些结果支持了这样一种观点，即细胞内部既是一个拥挤的化学空间，也是一种脆弱的软物质，其中生物化学、分子拥挤和物理力的作用复杂且不可分割，但却共同产生了非常简单的现象学规律。这些规律似乎既具有普遍性又很原始，因此构成了细胞生物学和软物质物理学领域之间一个引人注目的交叉点。

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