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Trans-SNARE pairing can precede a hemifusion intermediate in intracellular membrane fusion

Christoph Reese, Felix Heise and Andreas Mayer ()
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Christoph Reese: Université de Lausanne
Felix Heise: Biochemie-Zentrum der Universität Heidelberg (BZH)
Andreas Mayer: Université de Lausanne

Nature, 2005, vol. 436, issue 7049, 410-414

Abstract: Abstract The question concerning whether all membranes fuse according to the same mechanism has yet to be answered satisfactorily. During fusion of model membranes or viruses, membranes dock, the outer membrane leaflets mix (termed hemifusion), and finally the fusion pore opens and the contents mix1,2. Viral fusion proteins consist of a membrane-disturbing ‘fusion peptide’ and a helical bundle that pin the membranes together2,3,4. Although SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) complexes form helical bundles with similar topology, it is unknown whether SNARE-dependent fusion events on intracellular membranes proceed through a hemifusion state. Here we identify the first hemifusion state for SNARE-dependent fusion of native membranes, and place it into a sequence of molecular events: formation of helical bundles by SNAREs precedes hemifusion; further progression to pore opening requires additional peptides. Thus, SNARE-dependent fusion may proceed along the same pathway as viral fusion: both use a docking mechanism via helical bundles5,6 and additional peptides to destabilize the membrane and efficiently induce lipid mixing7,8,9. Our results suggest that a common lipidic intermediate3 may underlie all fusion reactions of lipid bilayers.

Date: 2005
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DOI: 10.1038/nature03722

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