电场在运动起始过程中加速细胞极化并绕过肌球蛋白作用。

Electric fields accelerate cell polarization and bypass myosin action in motility initiation.

作者信息

Sun Yao-Hui, Sun Yuxin, Zhu Kan, Reid Brian, Gao Xing, Draper Bruce W, Zhao Min, Mogilner Alex

机构信息

Department of Dermatology and Department of Ophthalmology, University of California, Davis School of Medicine, Sacramento, California.

Courant Institute and Department of Biology, New York University, New York, New York.

出版信息

J Cell Physiol. 2018 Mar;233(3):2378-2385. doi: 10.1002/jcp.26109. Epub 2017 Aug 25.

DOI:10.1002/jcp.26109

PMID:28749047

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5705333/

Abstract

Stationary symmetrical fish keratocyte cells break symmetry and become motile spontaneously but slowly. We found that applying electric field (EF) accelerates the polarization by an order of magnitude. While spontaneously polarized cells move persistently for hours, the EF-induced polarity is lost in a majority of cells when the EF is switched off. However, if the EF is applied for a long time and then switched off, the majority of cell move stably. Myosin inhibition abolishes spontaneous polarization, but does not slow down EF-induced polarization, and after the EF is turned off, motility does not stop; however, the cell movements are erratic. Our results suggest that the EF rapidly polarizes the cells, but that resulting polarization becomes stable slowly, and that the EF bypasses the requirement for myosin action in motility initiation.

摘要

静止对称的鱼类角膜细胞会打破对称性并自发但缓慢地变得有运动能力。我们发现施加电场（EF）能将极化加速一个数量级。虽然自发极化的细胞会持续移动数小时，但当电场关闭时，大多数由电场诱导的极性会消失。然而，如果长时间施加电场然后关闭，大多数细胞会稳定移动。肌球蛋白抑制会消除自发极化，但不会减缓电场诱导的极化，并且在电场关闭后，运动能力不会停止；然而，细胞运动是不稳定的。我们的结果表明，电场能使细胞快速极化，但由此产生的极化会缓慢变得稳定，并且电场在运动起始过程中绕过了对肌球蛋白作用的需求。

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