SNARE蛋白SNAP-25的C末端在融合孔开放中的作用及融合孔力学模型。

The role of the C terminus of the SNARE protein SNAP-25 in fusion pore opening and a model for fusion pore mechanics.

作者信息

Fang Qinghua, Berberian Khajak, Gong Liang-Wei, Hafez Ismail, Sørensen Jakob B, Lindau Manfred

机构信息

School of Applied and Engineering Physics, 212 Clark Hall, Cornell University, Ithaca, NY 14853, USA.

出版信息

Proc Natl Acad Sci U S A. 2008 Oct 7;105(40):15388-92. doi: 10.1073/pnas.0805377105. Epub 2008 Sep 30.

DOI:10.1073/pnas.0805377105

PMID:18829435

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2563113/

Abstract

Formation of a fusion pore between a vesicle and its target membrane is thought to involve the so-called SNARE protein complex. However, there is no mechanistic model explaining how the fusion pore is opened by conformational changes in the SNARE complex. It has been suggested that C-terminal zipping triggers fusion pore opening. A SNAP-25 mutant named SNAP-25Delta9 (lacking the last nine C-terminal residues) should lead to a less-tight C-terminal zipping. Single exocytotic events in chromaffin cells expressing this mutant were characterized by carbon fiber amperometry and cell-attached patch capacitance measurements. Cells expressing SNAP-25Delta9 displayed smaller amperometric "foot-current" currents, reduced fusion pore conductances, and lower fusion pore expansion rates. We propose that SNARE/lipid complexes form proteolipid fusion pores. Fusion pores involving the SNAP-25Delta9 mutant will be less tightly zipped and may lead to a longer fusion pore structure, consistent with the observed decrease of fusion pore conductance.

摘要

人们认为，囊泡与其靶膜之间融合孔的形成涉及所谓的SNARE蛋白复合体。然而，目前尚无一个机制模型来解释SNARE复合体的构象变化是如何打开融合孔的。有人提出，C端拉链化触发融合孔的开放。一种名为SNAP-25Delta9的SNAP-25突变体（缺少最后九个C端残基）应该会导致C端拉链化不那么紧密。通过碳纤维安培法和细胞贴附式膜片电容测量对表达这种突变体的嗜铬细胞中的单个胞吐事件进行了表征。表达SNAP-25Delta9的细胞表现出较小的安培“足电流”、降低的融合孔电导和较低的融合孔扩张速率。我们提出，SNARE/脂质复合体形成了脂蛋白融合孔。涉及SNAP-25Delta9突变体的融合孔将拉链化不那么紧密，可能会导致更长的融合孔结构，这与观察到的融合孔电导降低一致。

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