细胞的刚性感知。

Stiffness Sensing by Cells.

机构信息

Department of Physiology, Institute for Medicine and Engineering, University of Pennsylvania, Philadelphia, Pennsylvania; Department of Bioengineering, University of California-Berkeley, Berkeley, California; and Department of Biomedical Engineering, Vanderbilt University, Nashville, Tennessee.

出版信息

Physiol Rev. 2020 Apr 1;100(2):695-724. doi: 10.1152/physrev.00013.2019. Epub 2019 Nov 21.

DOI:10.1152/physrev.00013.2019

PMID:31751165

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7276923/

Abstract

Physical stimuli are essential for the function of eukaryotic cells, and changes in physical signals are important elements in normal tissue development as well as in disease initiation and progression. The complexity of physical stimuli and the cellular signals they initiate are as complex as those triggered by chemical signals. One of the most important, and the focus of this review, is the effect of substrate mechanical properties on cell structure and function. The past decade has produced a nearly exponentially increasing number of mechanobiological studies to define how substrate stiffness alters cell biology using both purified systems and intact tissues. Here we attempt to identify common features of mechanosensing in different systems while also highlighting the numerous informative exceptions to what in early studies appeared to be simple rules by which cells respond to mechanical stresses.

摘要

物理刺激对于真核细胞的功能至关重要，物理信号的变化是正常组织发育以及疾病发生和进展的重要因素。物理刺激的复杂性及其引发的细胞信号与化学信号一样复杂。其中最重要的一个，也是本综述的重点，是基质力学性质对细胞结构和功能的影响。在过去的十年中，已经有大量的机械生物学研究使用纯化系统和完整组织来定义基质硬度如何改变细胞生物学，这些研究呈指数级增长。在这里，我们试图在不同系统中识别机械感知的共同特征，同时突出早期研究中似乎是细胞对机械应力做出反应的简单规则的许多有启发性的例外。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aff0/7276923/b89cbdbcd3cc/z9j002202937r001.jpg

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细胞的刚性感知。

Stiffness Sensing by Cells.

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