Munc18a Does Not Alter Fusion Rates Mediated by Neuronal SNAREs,Synaptotagmin, and Complexin |
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| Authors: | Yunxiang Zhang Jiajie Diao Karen N Colbert Ying Lai Richard A Pfuetzner Mark S Padolina Sandro Vivona Susanne Ressl Daniel J Cipriano Ucheor B Choi Niket Shah William I Weis Axel T Brunger |
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| Institution: | From the Departments of ‡Molecular and Cellular Physiology, ;§Neurology and Neurological Sciences, ;¶Structural Biology, and ;‖Photon Science and ;the **Howard Hughes Medical Institute, Stanford University, Stanford, California 94305 |
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| Abstract: | Sec1/Munc18 (SM) proteins are essential for membrane trafficking, but their molecular mechanism remains unclear. Using a single vesicle-vesicle content-mixing assay with reconstituted neuronal SNAREs, synaptotagmin-1, and complexin-1, we show that the neuronal SM protein Munc18a/nSec1 has no effect on the intrinsic kinetics of both spontaneous fusion and Ca2+-triggered fusion between vesicles that mimic synaptic vesicles and the plasma membrane. However, wild type Munc18a reduced vesicle association ∼50% when the vesicles bearing the t-SNAREs syntaxin-1A and SNAP-25 were preincubated with Munc18 for 30 min. Single molecule experiments with labeled SNAP-25 indicate that the reduction of vesicle association is a consequence of sequestration of syntaxin-1A by Munc18a and subsequent release of SNAP-25 (i.e. Munc18a captures syntaxin-1A via its high affinity interaction). Moreover, a phosphorylation mimic mutant of Munc18a with reduced affinity to syntaxin-1A results in less reduction of vesicle association. In summary, Munc18a does not directly affect fusion, although it has an effect on the t-SNARE complex, depending on the presence of other factors and experimental conditions. Our results suggest that Munc18a primarily acts at the prefusion stage. |
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| Keywords: | Exocytosis Membrane Fusion Neurotransmitter Release SNARE Proteins Synaptotagmin Munc18 Single Vesicle Assay Complexin Fusion Machinery Synaptic Vesicle |
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