微丝与细胞运动。

Microfilaments and cell locomotion.

作者信息

Spooner B S, Yamada K M, Wessells N K

出版信息

J Cell Biol. 1971 Jun;49(3):595-613. doi: 10.1083/jcb.49.3.595.

DOI:10.1083/jcb.49.3.595

PMID:4933470

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2108496/

Abstract

The role of microfilaments in generating cell locomotion has been investigated in glial cells migrating in vitro. Such cells are found to contain two types of microfilament systems: First, a sheath of 50-70-A in diameter filaments is present in the cytoplasm at the base of the cells, just inside the plasma membrane, and in cell processes. Second, a network of 50-A in diameter filaments is found just beneath the plasma membrane at the leading edge (undulating membrane locomotory organelle) and along the sides of the cell. The drug, cytochalasin B, causes a rapid cessation of migration and a disruption of the microfilament network. Other organelles, including the microfilament sheath and microtubules, are unaltered by the drug, and protein synthesis is not inhibited. Removal of cytochalasin results in complete recovery of migratory capabilities, even in the absence of virtually all protein synthesis. Colchicine, at levels sufficient to disrupt all microtubules, has no effect on undulating membrane activity, on net cell movement, or on microfilament integrity. The microfilament network is, therefore, indispensable for locomotion.

摘要

微丝在体外迁移的神经胶质细胞中产生细胞运动的作用已得到研究。发现这类细胞含有两种微丝系统：第一，直径为50 - 70埃的细丝鞘存在于细胞基部的细胞质中，就在质膜内侧以及细胞突起内。第二，直径为50埃的细丝网络见于前缘（波动膜运动细胞器）的质膜下方以及细胞两侧。细胞松弛素B这种药物会导致迁移迅速停止以及微丝网络的破坏。包括微丝鞘和微管在内的其他细胞器不受该药物影响，并且蛋白质合成也未受抑制。去除细胞松弛素会导致迁移能力完全恢复，即便几乎没有蛋白质合成也是如此。秋水仙碱在足以破坏所有微管的浓度下，对波动膜活性、细胞净运动或微丝完整性均无影响。因此，微丝网络对于运动是不可或缺的。

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