Sec17 (α-SNAP) and an SM-tethering complex regulate the outcome of SNARE zippering in vitro and in vivo

Sec17 (α-SNAP) and an SM-tethering complex regulate the outcome of SNARE zippering in vitro and in vivo

Zippering of SNARE complexes spanning docked membranes is essential for most intracellular fusion events. Here, we explore how SNARE regulators operate on discrete zippering states. The formation of a metastable trans-complex, catalyzed by HOPS and its SM subunit Vps33, is followed by subsequent zip...

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Veröffentlicht in:eLife 2017-09, Vol.6
Hauptverfasser: Schwartz, Matthew L, Nickerson, Daniel P, Lobingier, Braden T, Plemel, Rachael L, Duan, Mengtong, Angers, Cortney G, Zick, Michael, Merz, Alexey J
Format: Artikel
Sprache:eng
Schlagworte:
AP-3
Biochemistry
Biochemistry and Chemical Biology
Catalysis
Cell Biology
Cell hybridization
Cytological research
Drug dosages
Experiments
HOPS
Intracellular Membranes - physiology
Intracellular receptors
Lipids
lysosome
Mammals
Membrane Fusion
Proteins
Rab
Saccharomyces cerevisiae - physiology
Saccharomyces cerevisiae Proteins - metabolism
Sec1/Munc18
SNAP receptors
SNARE Proteins - metabolism
Soluble N-Ethylmaleimide-Sensitive Factor Attachment Proteins - metabolism
Vesicular Transport Proteins - metabolism
Vps33
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Zusammenfassung:Zippering of SNARE complexes spanning docked membranes is essential for most intracellular fusion events. Here, we explore how SNARE regulators operate on discrete zippering states. The formation of a metastable trans-complex, catalyzed by HOPS and its SM subunit Vps33, is followed by subsequent zippering transitions that increase the probability of fusion. Operating independently of Sec18 (NSF) catalysis, Sec17 (α-SNAP) either inhibits or stimulates SNARE-mediated fusion. If HOPS or Vps33 are absent, Sec17 inhibits fusion at an early stage. Thus, Vps33/HOPS promotes productive SNARE assembly in the presence of otherwise inhibitory Sec17. Once SNAREs are partially zipped, Sec17 promotes fusion in either the presence or absence of HOPS, but with faster kinetics when HOPS is absent, suggesting that ejection of the SM is a rate-limiting step.
ISSN:2050-084X
2050-084X
DOI:10.7554/eLife.27396