Synaptotagmin-1 Docks Secretory Vesicles to Syntaxin-1/SNAP-25 Acceptor Complexes

Docking, the initial association of secretory vesicles with the plasma membrane, precedes formation of the SNARE complex, which drives membrane fusion. For many years, the molecular identity of the docked state, and especially the vesicular docking protein, has been unknown, as has the link to SNARE...

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Bibliographic Details
Published in:Cell 2009-09, Vol.138 (5), p.935-946
Main Authors: de Wit, Heidi, Walter, Alexander M., Milosevic, Ira, Gulyás-Kovács, Attila, Riedel, Dietmar, Sørensen, Jakob B., Verhage, Matthijs
Format: Article
Language:English
Subjects:
Animals
Cell Membrane - metabolism
CELLBIO
Chromaffin Cells - metabolism
Gene Knockout Techniques
Mice
MOLNEURO
Munc18 Proteins - metabolism
Secretory Vesicles - metabolism
Synaptotagmin I - metabolism
Syntaxin 1 - genetics
Syntaxin 1 - metabolism
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Summary:Docking, the initial association of secretory vesicles with the plasma membrane, precedes formation of the SNARE complex, which drives membrane fusion. For many years, the molecular identity of the docked state, and especially the vesicular docking protein, has been unknown, as has the link to SNARE complex assembly. Here, using adrenal chromaffin cells, we identify the vesicular docking partner as synaptotagmin-1, the calcium sensor for exocytosis, and SNAP-25 as an essential plasma membrane docking factor, which, together with the previously known docking factors Munc18-1 and syntaxin, form the minimal docking machinery. Moreover, we show that the requirement for Munc18-1 in docking, but not fusion, can be overcome by stabilizing syntaxin/SNAP-25 acceptor complexes. These findings, together with cross-rescue, double-knockout, and electrophysiological data, lead us to propose that vesicles dock when synaptotagmin-1 binds to syntaxin/SNAP-25 acceptor complexes, whereas Munc18-1 is required for the downstream association of synaptobrevin to form fusogenic SNARE complexes.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2009.07.027