Molecular characterization of synaptophysin, a major calcium-binding protein of the synaptic vesicle membrane.
Synaptophysin, a mol. wt 38 000 glycopolypeptide of the synaptic vesicle membrane, was solubilized using Triton X-100 and purified by immunoaffinity or ion-exchange chromatography. From gel permeation and sucrose-density centrifugation in H2O/D2O, a Stokes radius of 7.3 nm, a partial specific volume of 0.830 and a total mol. wt of 119 000 were calculated for the native protein. Cross-linking of synaptic vesicles with glutaraldehyde, dimethylsuberimidate, or Cu2+ -o-phenantroline, resulted in the formation of a mol. wt 76 kd dimer of synaptophysin. Crosslinking of the purified protein in addition produced tri- and tetrameric adducts of the polypeptide. Native synaptophysin thus is a homooligomeric protein. Synaptophysin is N-glycosylated, since cultivation of the rat phaeochromocytoma cell line PC12 in the presence of tunicamycin reduced its mol. wt by about 6 kd. Upon transfer to nitrocellulose and incubation with 45Ca2+, synaptophysin behaved as one of the major calcium-binding proteins of the synaptic vesicle membrane. Pronase treatment of intact synaptic vesicles abolished this 45Ca2+ binding indicating that the Ca2+ binding site of synaptophysin must reside on a cytoplasmic domain of the transmembrane polypeptide. Based on these data, we propose that synaptophysin may play an important role in Ca2+-dependent neurotransmitter release.[1]References
- Molecular characterization of synaptophysin, a major calcium-binding protein of the synaptic vesicle membrane. Rehm, H., Wiedenmann, B., Betz, H. EMBO J. (1986) [Pubmed]
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