Molecular Mechanisms Underlying Neurotransmitter Release.

IF 10.4 1区生物学 Q1 BIOPHYSICS Annual Review of Biophysics Pub Date : 2022-05-09 DOI:10.1146/annurev-biophys-111821-104732

Josep Rizo

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引用次数: 54

Abstract

Major recent advances and previous data have led to a plausible model of how key proteins mediate neurotransmitter release. In this model, the soluble N-ethylmaleimide-sensitive factor (NSF) attachment protein (SNAP) receptor (SNARE) proteins syntaxin-1, SNAP-25, and synaptobrevin form tight complexes that bring the membranes together and are crucial for membrane fusion. NSF and SNAPs disassemble SNARE complexes and ensure that fusion occurs through an exquisitely regulated pathway that starts with Munc18-1 bound to a closed conformation of syntaxin-1. Munc18-1 also binds to synaptobrevin, forming a template to assemble the SNARE complex when Munc13-1 opens syntaxin-1 while bridging the vesicle and plasma membranes. Synaptotagmin-1 and complexin bind to partially assembled SNARE complexes, likely stabilizing them and preventing fusion until Ca²⁺ binding to synaptotagmin-1 causes dissociation from the SNARE complex and induces interactions with phospholipids that help trigger release. Although fundamental questions remain about the mechanism of membrane fusion, these advances provide a framework to investigate the mechanisms underlying presynaptic plasticity.

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神经递质释放的分子机制。

最近的重大进展和先前的数据已经导致了关键蛋白质如何介导神经递质释放的合理模型。在该模型中，可溶性n-乙基丙烯酰亚胺敏感因子(NSF)附着蛋白(SNAP)受体(SNARE)蛋白syntaxin-1、SNAP-25和synaptobrevin形成紧密复合物，将膜聚集在一起，对膜融合至关重要。NSF和SNAPs分解SNARE复合物，并确保融合通过一个精细调控的途径发生，该途径始于Munc18-1与syntaxin-1的封闭构象结合。Munc18-1也与synaptobrevin结合，当Munc13-1打开syntaxin-1并桥接囊泡和质膜时，形成一个模板来组装SNARE复合物。Synaptotagmin-1和络合蛋白结合到部分组装的SNARE复合物上，可能稳定它们并阻止融合，直到Ca2+结合到Synaptotagmin-1上导致SNARE复合物的解离并诱导与磷脂的相互作用，帮助触发释放。尽管关于膜融合机制的基本问题仍然存在，但这些进展为研究突触前可塑性的机制提供了一个框架。

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来源期刊

Annual Review of Biophysics 生物-生物物理

CiteScore

21.00

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0.00%

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期刊介绍： The Annual Review of Biophysics, in publication since 1972, covers significant developments in the field of biophysics, including macromolecular structure, function and dynamics, theoretical and computational biophysics, molecular biophysics of the cell, physical systems biology, membrane biophysics, biotechnology, nanotechnology, and emerging techniques.

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