神经肌肉连接处突触重塑过程中的神经胶质成像。

Neuron glia biology Pub Date : 2008-11-01 Epub Date: 2009-11-25 DOI:10.1017/S1740925X09990421
Yi Zuo, Derron Bishop
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引用次数: 5

摘要

胶质细胞是突触中不可缺少的结构和功能成分。它们调节突触传递,并在突触形成和维持中发挥重要作用。脊椎动物神经肌肉连接(NMJ)是一种典型的神经突触模型。由于它的大尺寸,简单和可访问性,NMJ对我们对突触发育和组织的理解做出了很大的贡献。在过去的十年中,NMJ也成为研究神经胶质突触相互作用的有效模型,部分原因是由于各种标记技术的发展,使得NMJ和相关的雪旺细胞(NMJ处的胶质细胞)在体外和体内可见。这些方法表明,雪旺细胞在早期发育和损伤后神经再生过程中都积极参与突触重塑。体内成像最近也与连续切片透射电镜(system)重建相结合,直接检查重构NMJs的超微结构组织。在本文中,我们利用目前可用的最高时空分辨率方法,重点研究了雪旺细胞动力学及其在脊椎动物NMJs形成、成熟和重塑中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glial imaging during synapse remodeling at the neuromuscular junction.

Glia are an indispensable structural and functional component of the synapse. They modulate synaptic transmission and also play important roles in synapse formation and maintenance. The vertebrate neuromuscular junction (NMJ) is a classic model synapse. Due to its large size, simplicity and accessibility, the NMJ has contributed greatly to our understanding of synapse development and organization. In the past decade, the NMJ has also emerged as an effective model for studying glia-synapse interactions, in part due to the development of various labeling techniques that permit NMJs and associated Schwann cells (the glia at NMJs) to be visualized in vitro and in vivo. These approaches have demonstrated that Schwann cells are actively involved in synapse remodeling both during early development and in post-injury reinnervation. In vivo imaging has also recently been combined with serial section transmission electron microscopic (ssTEM) reconstruction to directly examine the ultrastructural organization of remodeling NMJs. In this review, we focus on the anatomical studies of Schwann cell dynamics and their roles in formation, maturation and remodeling of vertebrate NMJs using the highest temporal and spatial resolution methods currently available.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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