细胞骨架对渗透肿胀引起的细胞硬度的贡献；扩展唐南平衡。

Cytoskeletal Contribution to Cell Stiffness Due to Osmotic Swelling; Extending the Donnan Equilibrium.

作者信息

Chao Pei-Chuan, Sivaselvan Mettupalayam, Sachs Frederick

机构信息

Department of Civil, Structural and Environmental Engineering, University at Buffalo, The State University of New York, Buffalo, NY, United States.

Department of Physiology and Biophysics, University at Buffalo, The State University of New York, Buffalo, NY, United States.

出版信息

Curr Top Membr. 2018;81:83-96. doi: 10.1016/bs.ctm.2018.07.002. Epub 2018 Aug 9.

DOI:10.1016/bs.ctm.2018.07.002

PMID:30243441

Abstract

Cell volume regulation is commonly analyzed with a model of a closed semipermeable membrane filled with impermeant mobile solutes and the Donnan Equilibrium is used to predict the hydrostatic pressure. This traditional model ignores the fact that most cells are filled with a crosslinked cytoskeleton that is elastic and can be stretched or compressed like a sponge with no obvious need to move mobile solutes. However, calculations show that under osmotic stress, the elastic energy of the cytoskeleton is far greater than the elastic energy of the membrane. Here we expand the traditional Donnan model to include the elasticity of a cytoskeleton with fixed charges and show that cell stiffening happens without a membrane.

摘要

细胞体积调节通常用一个封闭的半透膜模型来分析，该模型中充满了不可渗透的可移动溶质，并利用唐南平衡来预测静水压力。这个传统模型忽略了一个事实，即大多数细胞都充满了交联的细胞骨架，它具有弹性，可以像海绵一样被拉伸或压缩，而无需明显移动可移动溶质。然而，计算表明，在渗透胁迫下，细胞骨架的弹性能远大于膜的弹性能。在这里，我们扩展了传统的唐南模型，将带有固定电荷的细胞骨架的弹性纳入其中，并表明细胞硬化可以在没有膜的情况下发生。

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细胞骨架对渗透肿胀引起的细胞硬度的贡献；扩展唐南平衡。

Cytoskeletal Contribution to Cell Stiffness Due to Osmotic Swelling; Extending the Donnan Equilibrium.

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