底物-细胞骨架偶联作为生长锥运动调控和引导的机制。

Journal of neurobiology Pub Date : 2000-08-01
D M Suter, P Forscher
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引用次数: 0

摘要

生长锥是神经过程末端的高度运动结构,能够接收多种类型的引导信号并将其转化为定向轴突生长。因此,为了将轴突引导到合适的目标细胞,生长锥执行不同的功能:它充当传感器、信号传感器和运动装置。在过去的几年里,越来越多的介导轴突引导的分子成分被表征出来。这些分子中绝大多数包括作为引导线索和各自受体的蛋白质。此外,越来越多的信号蛋白和细胞骨架相关蛋白被定位到生长锥上。此外,生长锥的运动和引导依赖于一个由传入的引导信息调节的动态细胞骨架,这已经变得很明显。目前和未来的研究将集中在不同的引导信号如何将信号传递到细胞骨架,并改变其动态特性,从而影响生长锥运动的速度和方向。在这篇综述中,我们讨论了最近的证据表明,细胞粘附分子可以通过底物-细胞骨架偶联机制调节生长锥的运动和引导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Substrate-cytoskeletal coupling as a mechanism for the regulation of growth cone motility and guidance.

Growth cones are highly motile structures at the end of neuronal processes, capable of receiving multiple types of guidance cues and transducing them into directed axonal growth. Thus, to guide the axon toward the appropriate target cell, the growth cone carries out different functions: it acts as a sensor, signal transducer, and motility device. An increasing number of molecular components that mediate axon guidance have been characterized over the past years. The vast majority of these molecules include proteins that act as guidance cues and their respective receptors. In addition, more and more signaling and cytoskeleton-associated proteins have been localized to the growth cone. Furthermore, it has become evident that growth cone motility and guidance depends on a dynamic cytoskeleton that is regulated by incoming guidance information. Current and future research in the growth cone field will be focussed on how different guidance cues transmit their signals to the cytoskeleton and change its dynamic properties to affect the rate and direction of growth cone movement. In this review, we discuss recent evidence that cell adhesion molecules can regulate growth cone motility and guidance by a mechanism of substrate-cytoskeletal coupling.

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