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Neurotransmitter and hormone exocytosis depends on SNARE protein transmembrane domains and membrane lipids but their interplay is poorly understood. We investigated the interaction of the structure of VAMP2, a vesicular transmembrane SNARE protein, and membrane lipid composition by infrared spectroscopy using either the wild-type transmembrane domain (TMD), VAMP2TM22, or a peptide mutated at the central residues G100/C103 (VAMP2TM22VV) previously identified by us as being critical for exocytosis. Our data show that the structure of VAMP2TM22, in terms of α-helices and β-sheets is strongly influenced by peptide/lipid ratios, by lipid species including cholesterol and by membrane surface charges. Differences observed in acyl chain alignments further underscore the role of the two central small amino acid residues G100/C103 within the transmembrane domain during lipid rearrangements in membrane fusion.

Original publication

DOI

10.1016/j.bbamem.2018.12.011

Type

Journal article

Journal

Biochim Biophys Acta Biomembr

Publication Date

01/03/2019

Volume

1861

Pages

670 - 676

Keywords

ATR-infrared spectroscopy, Cholesterol, Exocytosis, Phospholipids, SNARE proteins, Synaptobrevin