PMID: 2111326May 25, 1990Paper

The multisubunit structure of synaptophysin. Relationship between disulfide bonding and homo-oligomerization.

The Journal of Biological Chemistry
P A Johnston, T C Südhof

Abstract

Synaptophysin, a major membrane protein of synaptic vesicles, contains four transmembrane regions and two intravesicular loops. Synaptophysin monomers associate into homopolymers that have the potential to form channels in the synaptic vesicle membrane. Here we show that in native synaptophysin, homopolymers are linked by noncovalent forces. The molecule contains unstable intramolecular disulfide bonds that undergo disulfide exchange during solubilization, thereby covalently cross-linking neighboring synaptophysin molecules. The locations of the intramolecular disulfide bonds in synaptophysin were determined, revealing that each of the two intravesicular loops of synaptophysin is circularized by a single disulfide bond. Cross-linking of synaptophysin by disulfide bonds can be triggered in synaptic vesicles and in intact cells by a cycle of reduction and oxidation, suggesting that native synaptophysin is a homomultimer in situ. In addition, chemical cross-linking of native synaptophysin demonstrates that a low molecular weight protein is specifically associated with synaptophysin complexes and is lost upon reduction of the intramolecular disulfide bonds. These data suggest that native synaptophysin forms a noncovalent homomultim...Continue Reading

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