Neuronal functions of clathrin-associated endocytic sorting adaptors – from molecules to disease

Q3 Medicine

Neuroforum Pub Date : 2020-09-16 DOI:10.1515/nf-2020-0023

N. Kononenko, V. Haucke

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引用次数: 1

Abstract

Abstract Communication in the central nervous system is based on the transmission of electrical signals at specialized junctions between nerve cells termed synapses. During chemical neurotransmission, tiny membrane spheres called synaptic vesicles that are packed with neurotransmitters elicit a postsynaptic response by fusing with the presynaptic membrane and releasing their content into the synaptic cleft. Synaptic vesicle fusion is followed by the reuptake of the membrane by endocytosis and the local reformation of functional synaptic vesicles within the presynaptic compartment to sustain further rounds of neurotransmitter release. Here, we provide an overview of the clathrin-associated endocytic adaptor proteins that help to sort and recycle synaptic vesicles during presynaptic activity. These adaptors also serve additional functions in the turnover of defective or aged synaptic components and in the retrograde axonal transport of important signaling molecules by regulating the formation or transport of autophagosomes. Endocytic adaptors thus play multiple roles in the maintenance of synaptic function. Defects in their expression or function can lead to neurodegenerative and neurological diseases.

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网格蛋白相关内吞分选衔接子的神经元功能——从分子到疾病

中枢神经系统的通讯是基于神经细胞之间称为突触的特殊连接处的电信号传递。在化学神经传递过程中，被称为突触囊泡的微小膜球充满了神经递质，通过与突触前膜融合并将其内容物释放到突触间隙中，引发突触后反应。突触囊泡融合之后，通过内吞作用对膜进行再摄取，并在突触前腔室内对功能性突触囊泡进行局部改造，以维持进一步的神经递质释放。在这里，我们提供了网格蛋白相关的内吞接头蛋白的概述，帮助在突触前活动突触囊泡的分类和循环。这些接头还通过调节自噬体的形成或运输，在有缺陷或老化的突触成分的周转和重要信号分子的轴突逆行运输中发挥额外的作用。因此，内吞接头在突触功能的维持中起着多种作用。它们的表达或功能缺陷可导致神经退行性和神经系统疾病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neuroforum NEUROSCIENCES-

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： Neuroforum publishes invited review articles from all areas in neuroscience. Readership includes besides basic and medical neuroscientists also journalists, practicing physicians, school teachers and students. Neuroforum reports on all topics in neuroscience – from molecules to the neuronal networks, from synapses to bioethics.