Literature DB >> 28456331

Complexin Binding to Membranes and Acceptor t-SNAREs Explains Its Clamping Effect on Fusion.

Rafal Zdanowicz1, Alex Kreutzberger2, Binyong Liang2, Volker Kiessling2, Lukas K Tamm3, David S Cafiso4.   

Abstract

Complexin-1 is a SNARE effector protein that decreases spontaneous neurotransmitter release and enhances evoked release. Complexin binds to the fully assembled four-helical neuronal SNARE core complex as revealed in competing molecular models derived from x-ray crystallography. Presently, it is unclear how complexin binding to the postfusion complex accounts for its effects upon spontaneous and evoked release in vivo. Using a combination of spectroscopic and imaging methods, we characterize in molecular detail how complexin binds to the 1:1 plasma membrane t-SNARE complex of syntaxin-1a and SNAP-25 while simultaneously binding the lipid bilayer at both its N- and C-terminal ends. These interactions are cooperative, and binding to the prefusion acceptor t-SNARE complex is stronger than to the postfusion core complex. This complexin interaction reduces the affinity of synaptobrevin-2 for the 1:1 complex, thereby retarding SNARE assembly and vesicle docking in vitro. The results provide the basis for molecular models that account for the observed clamping effect of complexin beginning with the acceptor t-SNARE complex and the subsequent activation of the clamped complex by Ca2+ and synaptotagmin.
Copyright © 2017 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2017        PMID: 28456331      PMCID: PMC5607037          DOI: 10.1016/j.bpj.2017.04.002

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  79 in total

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6.  C-terminal complexin sequence is selectively required for clamping and priming but not for Ca2+ triggering of synaptic exocytosis.

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9.  Solution and membrane-bound conformations of the tandem C2A and C2B domains of synaptotagmin 1: Evidence for bilayer bridging.

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  12 in total

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Review 5.  Solution NMR of SNAREs, complexin and α-synuclein in association with membrane-mimetics.

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7.  Reconstitution of calcium-mediated exocytosis of dense-core vesicles.

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8.  The Accessory Helix of Complexin Stabilizes a Partially Unzippered State of the SNARE Complex and Mediates the Complexin Clamping Function In Vivo.

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9.  A mechanism for exocytotic arrest by the Complexin C-terminus.

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