Cell mechanics: a dialogue.

Regulatory Peptides Pub Date : 2017-03-01 Epub Date: 2017-01-27 DOI:10.1088/1361-6633/aa5282
Jiaxiang Tao, Yizeng Li, Dhruv K Vig, Sean X Sun
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Abstract

Under the microscope, eukaryotic animal cells can adopt a variety of different shapes and sizes. These cells also move and deform, and the physical mechanisms driving these movements and shape changes are important in fundamental cell biology, tissue mechanics, as well as disease biology. This article reviews some of the basic mechanical concepts in cells, emphasizing continuum mechanics description of cytoskeletal networks and hydrodynamic flows across the cell membrane. We discuss how cells can generate movement and shape changes by controlling mass fluxes at the cell boundary. These mass fluxes can come from polymerization/depolymerization of actin cytoskeleton, as well as osmotic and hydraulic pressure-driven flow of water across the cell membrane. By combining hydraulic pressure control with force balance conditions at the cell surface, we discuss a quantitative mechanism of cell shape and volume control. The broad consequences of this model on cell mechanosensation and tissue mechanics are outlined.

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细胞力学:对话。
在显微镜下,真核动物细胞可以呈现出各种不同的形状和大小。这些细胞也会移动和变形,而驱动这些移动和形状变化的物理机制在基础细胞生物学、组织力学以及疾病生物学中非常重要。本文回顾了细胞中的一些基本力学概念,强调细胞骨架网络的连续介质力学描述和细胞膜上的流体力学流动。我们讨论了细胞如何通过控制细胞边界的质量流来产生运动和形状变化。这些质量通量可能来自肌动蛋白细胞骨架的聚合/解聚,以及渗透压和水压驱动的细胞膜上的水流。通过将水压控制与细胞表面的力平衡条件相结合,我们讨论了细胞形状和体积控制的定量机制。概述了这一模型对细胞机械感觉和组织力学的广泛影响。
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Regulatory Peptides
Regulatory Peptides 医学-内分泌学与代谢
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审稿时长
2 months
期刊介绍: Regulatory Peptides provides a medium for the rapid publication of interdisciplinary studies on the physiology and pathology of peptides of the gut, endocrine and nervous systems which regulate cell or tissue function. Articles emphasizing these objectives may be based on either fundamental or clinical observations obtained through the disciplines of morphology, cytochemistry, biochemistry, physiology, pathology, pharmacology or psychology.
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