突触小泡将复合蛋白定位以阻断自发融合。
Synaptic vesicles position complexin to block spontaneous fusion.
机构信息
Department of Biochemistry, Weill Cornell Medical College, 1300 York Avenue, New York, NY 10065, USA.
出版信息
Neuron. 2013 Jan 23;77(2):323-34. doi: 10.1016/j.neuron.2012.11.005.
Abstract
Synapses continually replenish their synaptic vesicle (SV) pools while suppressing spontaneous fusion events, thus maintaining a high dynamic range in response to physiological stimuli. The presynaptic protein complexin can both promote and inhibit fusion through interactions between its α-helical domain and the SNARE complex. In addition, complexin's C-terminal half is required for the inhibition of spontaneous fusion in worm, fly, and mouse, although the molecular mechanism remains unexplained. We show here that complexin's C-terminal domain binds lipids through a novel protein motif, permitting complexin to inhibit spontaneous exocytosis in vivo by targeting complexin to SVs. We propose that the SV pool serves as a platform to sequester and position complexin where it can intercept the rapidly assembling SNAREs and control the rate of spontaneous fusion.
摘要
突触在不断补充其突触小泡 (SV) 池的同时抑制自发融合事件,从而在响应生理刺激时保持高动态范围。突触蛋白复合物通过其 α-螺旋结构域与 SNARE 复合物之间的相互作用,既能促进又能抑制融合。此外,复合物的 C 端对于蠕虫、苍蝇和老鼠中自发融合的抑制是必需的,尽管其分子机制尚不清楚。我们在这里表明,复合物的 C 端结构域通过一个新的蛋白基序与脂质结合,允许复合物通过将复合物靶向 SV 来抑制体内的自发胞吐作用。我们提出,SV 池作为一个平台,将复合物隔离并定位在那里,使其能够拦截快速组装的 SNARE,并控制自发融合的速率。
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Distinct initial SNARE configurations underlying the diversity of exocytosis.不同的初始 SNARE 构型是胞吐多样性的基础。
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A conformational switch in complexin is required for synaptotagmin to trigger synaptic fusion.复合蛋白构象的改变是突触融合蛋白触发突触融合所必需的。
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