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生长锥中的肌动蛋白动力学

Actin dynamics in growth cones.

作者信息

Okabe S, Hirokawa N

机构信息

Department of Anatomy and Cell Biology, School of Medicine, University of Tokyo, Japan.

出版信息

J Neurosci. 1991 Jul;11(7):1918-29. doi: 10.1523/JNEUROSCI.11-07-01918.1991.

Abstract

The mechanism of actin incorporation and turnover in the nerve growth cone was examined by immunoelectron microscopy and low-light-level video microscopy of cultured neurons injected with biotin-labeled actin or fluorescently labeled actin. We first determined the sites of actin incorporation into the cytoskeleton of growth cones by immunoelectron microscopy of cultured neurons injected with biotin-labeled actin and reacted with an anti-biotin antibody and a gold-labeled secondary antibody. Shortly after the injection, biotin-actin molecules incorporated into the cytoskeleton were localized in the distal part of actin bundles in the filopodia and at the membrane-associated fringe of the actin filament network. With longer incubation, most actin polymers in the growth cones were labeled uniformly, suggesting that actin subunits are added preferentially at the membrane-associated ends of preexisting actin filaments. We then determined whether actin filaments translocate within the growth cones by low-light-level video microscopy of living neurons injected with fluorescently labeled actin and photobleached with a laser beam. When actin fluorescence at the leading edge of a growth cone was bleached, a rearward translocation of the bleached spot toward the base of the growth cone was observed. This observation suggests the presence of a rearward flow of actin polymers within growth cones. Taken together, these results indicate that there is a continuous addition of actin monomers at the leading edge of the growth cone and a successive rearward translocation of the assembled filaments.

摘要

通过免疫电子显微镜和低光水平视频显微镜,对注射了生物素标记肌动蛋白或荧光标记肌动蛋白的培养神经元进行观察,研究了神经生长锥中肌动蛋白的掺入和周转机制。我们首先通过免疫电子显微镜确定了肌动蛋白掺入生长锥细胞骨架的位点,具体方法是对注射了生物素标记肌动蛋白的培养神经元进行处理,使其与抗生物素抗体和金标记二抗反应。注射后不久,掺入细胞骨架的生物素 - 肌动蛋白分子定位于丝状伪足中肌动蛋白束的远端以及肌动蛋白丝网络的膜相关边缘。随着孵育时间延长,生长锥中的大多数肌动蛋白聚合物被均匀标记,这表明肌动蛋白亚基优先添加到预先存在的肌动蛋白丝的膜相关末端。然后,我们通过对注射了荧光标记肌动蛋白并用激光束进行光漂白的活神经元进行低光水平视频显微镜观察,来确定肌动蛋白丝是否在生长锥内移位。当生长锥前缘的肌动蛋白荧光被漂白时,观察到漂白斑点向生长锥基部的向后移位。这一观察结果表明生长锥内存在肌动蛋白聚合物的向后流动。综上所述,这些结果表明在生长锥的前缘存在肌动蛋白单体的持续添加以及组装好的丝的连续向后移位。

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