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Ultrahigh-resolution imaging reveals formation of neuronal SNARE/Munc18 complexes in situ.


ABSTRACT: Membrane fusion is mediated by complexes formed by SNAP-receptor (SNARE) and Secretory 1 (Sec1)/mammalian uncoordinated-18 (Munc18)-like (SM) proteins, but it is unclear when and how these complexes assemble. Here we describe an improved two-color fluorescence nanoscopy technique that can achieve effective resolutions of up to 7.5-nm full width at half maximum (3.2-nm localization precision), limited only by stochastic photon emission from single molecules. We use this technique to dissect the spatial relationships between the neuronal SM protein Munc18-1 and SNARE proteins syntaxin-1 and SNAP-25 (25 kDa synaptosome-associated protein). Strikingly, we observed nanoscale clusters consisting of syntaxin-1 and SNAP-25 that contained associated Munc18-1. Rescue experiments with syntaxin-1 mutants revealed that Munc18-1 recruitment to the plasma membrane depends on the Munc18-1 binding to the N-terminal peptide of syntaxin-1. Our results suggest that in a primary neuron, SNARE/SM protein complexes containing syntaxin-1, SNAP-25, and Munc18-1 are preassembled in microdomains on the presynaptic plasma membrane. Our superresolution imaging method provides a framework for investigating interactions between the synaptic vesicle fusion machinery and other subcellular systems in situ.

SUBMITTER: Pertsinidis A 

PROVIDER: S-EPMC3725074 | biostudies-literature | 2013 Jul

REPOSITORIES: biostudies-literature

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Ultrahigh-resolution imaging reveals formation of neuronal SNARE/Munc18 complexes in situ.

Pertsinidis Alexandros A   Mukherjee Konark K   Sharma Manu M   Pang Zhiping P ZP   Park Sang Ryul SR   Zhang Yunxiang Y   Brunger Axel T AT   Südhof Thomas C TC   Chu Steven S  

Proceedings of the National Academy of Sciences of the United States of America 20130702 30


Membrane fusion is mediated by complexes formed by SNAP-receptor (SNARE) and Secretory 1 (Sec1)/mammalian uncoordinated-18 (Munc18)-like (SM) proteins, but it is unclear when and how these complexes assemble. Here we describe an improved two-color fluorescence nanoscopy technique that can achieve effective resolutions of up to 7.5-nm full width at half maximum (3.2-nm localization precision), limited only by stochastic photon emission from single molecules. We use this technique to dissect the s  ...[more]

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