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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| Affiliation: | 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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