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SNAP25中连接的SNARE基序的结构和功能意义。

The structural and functional implications of linked SNARE motifs in SNAP25.

作者信息

Wang Li, Bittner Mary A, Axelrod Daniel, Holz Ronald W

机构信息

Department of Pharmacology, University of Michigan, Ann Arbor, MI 48109-5632, USA.

出版信息

Mol Biol Cell. 2008 Sep;19(9):3944-55. doi: 10.1091/mbc.e08-04-0344. Epub 2008 Jul 2.

DOI:10.1091/mbc.e08-04-0344
PMID:18596234
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2526714/
Abstract

We investigated the functional and structural implications of SNAP25 having two SNARE motifs (SN1 and SN2). A membrane-bound, intramolecular FRET probe was constructed to report on the folding of N-terminal SN1 and C-terminal SN2 in living cells. Membrane-bound constructs containing either or both SNARE motifs were also singly labeled with donor or acceptor fluorophores. Interaction of probes with other SNAREs was monitored by the formation of SDS-resistant complexes and by changes in FRET measured in vitro using spectroscopy and in the plasma membrane of living cells using TIRF microscopy. The probes formed the predicted SDS-resistant SNARE complexes. FRET measurements revealed that syntaxin induced a close association of the N-termini of SN1 and SN2. This association required that the SNARE motifs reside in the same molecule. Unexpectedly, the syntaxin-induced FRET was prevented by VAMP. Both full-length SNAP25 constructs and the combination of its separated, membrane-bound constituent chains supported secretion in permeabilized chromaffin cells that had been allowed to rundown. However, only full-length SNAP25 constructs enabled robust secretion from intact cells or permeabilized cells before rundown. The experiments suggest that the bidentate structure permits specific conformations in complexes with syntaxin and VAMP and facilitates the function of SN1 and SN2 in exocytosis.

摘要

我们研究了具有两个SNARE基序(SN1和SN2)的SNAP25的功能和结构影响。构建了一种膜结合的分子内FRET探针,以报告活细胞中N端SN1和C端SN2的折叠情况。含有一个或两个SNARE基序的膜结合构建体也分别用供体或受体荧光团标记。通过形成抗SDS复合物以及使用光谱法在体外和使用TIRF显微镜在活细胞质膜中测量FRET变化来监测探针与其他SNARE的相互作用。探针形成了预测的抗SDS SNARE复合物。FRET测量表明, syntaxin诱导了SN1和SN2 N端的紧密结合。这种结合要求SNARE基序存在于同一分子中。出乎意料的是,VAMP阻止了syntaxin诱导的FRET。全长SNAP25构建体及其分离的、膜结合的组成链的组合均支持在已耗尽的通透嗜铬细胞中的分泌。然而,只有全长SNAP25构建体能够在耗尽前从完整细胞或通透细胞中实现强大的分泌。这些实验表明,双齿结构允许与syntaxin和VAMP形成复合物时形成特定构象,并促进SN1和SN2在胞吐作用中的功能。

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本文引用的文献

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