Britta Hinz scite author profile

Synaptophysin interacts with synaptobrevin in membranes of adult small synaptic vesicles. The synaptophysin/synaptobrevin complex promotes synaptobrevin to built up functional SNARE complexes thereby modulating synaptic efficiency. Synaptophysin in addition is a cholesterol-binding protein.Depleting the membranous cholesterol content by filipin or b-methylcyclodextrin (b-MCD) decreased the solubility of synaptophysin in Triton X-100 with less effects on synaptobrevin. In small synaptic vesicles from rat brain the synaptophysin/ synaptobrevin complex was diminished upon b-MCD treatment as revealed by chemical cross-linking. Mice with a genetic mutation in the Niemann-Pick C1 gene developing a defect in cholesterol sorting showed significantly reduced amounts of the synaptophysin/synaptobrevin complex compared to their homo-or heterozygous littermates. Finally when using primary cultures of mouse hippocampus the synaptophysin/synaptobrevin complex was down-regulated after depleting the endogenous cholesterol content by the HMG-CoA-reductase inhibitor lovastatin. Alternatively, treatment with cholesterol up-regulated the synaptophysin/synaptobrevin interaction in these cultures. These data indicate that the synaptophysin/synaptobrevin interaction critically depends on a high cholesterol content in the membrane of synaptic vesicles. Variations in the availability of cholesterol may promote or impair synaptic efficiency by interfering with this complex.

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The synaptophysin/synaptobrevin complex dissociates independently of neuroexocytosis

Reisinger

Yelamanchili

Hinz

et al. 2004

Journal of Neurochemistry

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Synaptophysin is one of the most abundant membrane proteins of small synaptic vesicles. In mature nerve terminals it forms a complex with the vesicular membrane protein synaptobrevin, which appears to modulate synaptobrevin's interaction with the plasma membrane-associated proteins syntaxin and SNAP25 to form the SNARE complex as a prerequisite for membrane fusion. Here we show that synaptobrevin is preferentially cleaved by tetanus toxin while bound to synaptophysin or when existing as a homodimer. The synaptophysin/synaptobrevin complex is, however, not affected when neuronal secretion is blocked by botulinum A toxin which cleaves SNAP25. Excessive stimulation with a-latrotoxin or Ca 2+ -ionophores dissociates the synaptophysin/synaptobrevin complex and increases the interaction of the other SNARE proteins. The stimulation-induced dissociation of the synaptophysin/synaptobrevin complex is not inhibited by pre-incubating neurones with botulinum A toxin, but depends on extracellular calcium. However, the synaptophysin/synaptobrevin complex cannot be directly dissociated by calcium alone or in combination with magnesium. The dissociation of synaptobrevin from synaptophysin appears to precede its interaction with the other SNARE proteins and does not depend on the final fusion event. This finding further supports the modulatory role the synaptophysin/synaptobrevin complex may play in mature neurones.

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Efficiency and Toxicity of Liposome-mediated Gene Transfer to Corneal Endothelial Cells

Pleyer

Groth

Hinz

et al. 2001

Experimental Eye Research

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Activity-dependent changes of the presynaptic synaptophysin-synaptobrevin complex in adult rat brain

Hinz

Becher

Mitter

et al. 2001

European Journal of Cell Biology

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Britta Hinz

The synaptophysin/synaptobrevin interaction critically depends on the cholesterol content

The synaptophysin/synaptobrevin complex dissociates independently of neuroexocytosis

Efficiency and Toxicity of Liposome-mediated Gene Transfer to Corneal Endothelial Cells

Activity-dependent changes of the presynaptic synaptophysin-synaptobrevin complex in adult rat brain

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