单囊泡毫秒级融合动力学揭示了快速SNARE介导的膜融合的最佳SNARE复合体数量。

Single vesicle millisecond fusion kinetics reveals number of SNARE complexes optimal for fast SNARE-mediated membrane fusion.

作者信息

Domanska Marta K, Kiessling Volker, Stein Alexander, Fasshauer Dirk, Tamm Lukas K

机构信息

Center for Membrane Biology and Department of Molecular Physiology and Biological Physics, University of Virginia, Charlottesville, Virginia 22908, USA.

出版信息

J Biol Chem. 2009 Nov 13;284(46):32158-66. doi: 10.1074/jbc.M109.047381. Epub 2009 Sep 15.

DOI:10.1074/jbc.M109.047381

PMID:19759010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2797286/

Abstract

SNAREs mediate membrane fusion in intracellular vesicle traffic and neuronal exocytosis. Reconstitution of membrane fusion in vitro proved that SNAREs constitute the minimal fusion machinery. However, the slow fusion rates observed in these systems are incompatible with those required in neurotransmission. Here we present a single vesicle fusion assay that records individual SNARE-mediated fusion events with millisecond time resolution. Docking and fusion of reconstituted synaptobrevin vesicles to target SNARE complex-containing planar membranes are distinguished by total internal reflection fluorescence microscopy as separate events. Docking and fusion are SNAP-25-dependent, require no Ca(2+), and are efficient at room temperature. Analysis of the stochastic data with sequential and parallel multi-particle activation models reveals six to nine fast-activating steps. Of all the tested models, the kinetic model consisting of eight parallel reaction rates statistically fits the data best. This might be interpreted by fusion sites consisting of eight SNARE complexes that each activate in a single rate-limiting step in 8 ms.

摘要

SNARE蛋白在细胞内囊泡运输和神经元胞吐过程中介导膜融合。体外膜融合的重建证明SNARE蛋白构成了最小的融合机制。然而，在这些系统中观察到的缓慢融合速率与神经传递所需的速率不相符。在此，我们展示了一种单囊泡融合测定法，该方法能够以毫秒级的时间分辨率记录单个SNARE介导的融合事件。通过全内反射荧光显微镜可将重组突触小泡蛋白囊泡与含有靶SNARE复合体的平面膜的对接和融合区分为不同的事件。对接和融合依赖于SNAP-25，不需要Ca(2+)，并且在室温下效率很高。使用顺序和平行多粒子激活模型对随机数据进行分析，揭示了六到九个快速激活步骤。在所有测试模型中，由八个平行反应速率组成的动力学模型对数据的统计拟合最佳。这可能是由八个SNARE复合体组成的融合位点所解释的，每个复合体在8毫秒内的单个限速步骤中激活。

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