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Sensory deficit screen identifies nsf mutation that differentially affects SNARE recycling and quality control

Yan Gao, Yousuf A. Khan, Weike Mo, K. Ian White, Matthew H. Perkins, Richard A. Pfuetzner, Josef G. Trapani, Axel T. Brünger, Teresa Nicolson

2023Cell Reports15 citationsDOIOpen Access PDF

Abstract

NSF complex is responsible for SNARE complex disassembly both before and after membrane fusion. Loss of NSF function results in pronounced developmental and degenerative defects. In a genetic screen for sensory deficits in zebrafish, we identified a mutation in nsf, I209N, that impairs hearing and balance in a dosage-dependent manner without accompanying defects in motility, myelination, and innervation. In vitro experiments demonstrate that while the I209N NSF protein recognizes SNARE complexes, the effects on disassembly are dependent upon the type of SNARE complex and I209N concentration. Higher levels of I209N protein produce a modest decrease in binary (syntaxin-SNAP-25) SNARE complex disassembly and residual ternary (syntaxin-1A-SNAP-25-synaptobrevin-2) disassembly, whereas at lower concentrations binary disassembly activity is strongly reduced and ternary disassembly activity is absent. Our study suggests that the differential effect on disassembly of SNARE complexes leads to selective effects on NSF-mediated membrane trafficking and auditory/vestibular function.

Topics & Concepts

SNARE complexCell biologySyntaxinBiologySynaptobrevinLipid bilayer fusionZebrafishMutationVestibular systemNeuroscienceMembrane proteinGeneticsGeneSynaptic vesicleMembraneVesicleCellular transport and secretionErythrocyte Function and PathophysiologyRetinal Development and Disorders
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