Single Molecule Observation of Liposome-Bilayer Fusion Thermally Induced by Soluble N-Ethyl Maleimide Sensitive-Factor Attachment Protein Receptors (SNAREs)

doi:10.1529/biophysj.104.048637

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Single Molecule Observation of Liposome-Bilayer Fusion Thermally Induced by Soluble N-Ethyl Maleimide Sensitive-Factor Attachment Protein Receptors (SNAREs)

Mark E. Bowen^*, Keith Weninger, Axel T. Brunger^* and Steven Chu

^* The Howard Hughes Medical Institute and Departments of Molecular and Cellular Physiology, Neurology and Neurological Sciences, and Stanford Synchrotron Radiation Laboratory, Stanford University, California; and Department of Physics, Stanford University, Stanford, California

Correspondence: Address reprint requests to Axel T. Brunger, E-mail: brunger{at}stanford.edu

Correspondence: Address reprint requests to Steven Chu, E-mail: schu{at}lbl.gov.

A single molecule fluorescence assay is presented for studyingthe mechanism of soluble N-ethyl maleimide sensitive-factorattachment protein receptors (SNAREs)-mediated liposome fusionto supported lipid bilayers. The three neuronal SNAREs syntaxin-1A,synaptobrevin-II (VAMP), and SNAP-25A were expressed separately,and various dye-labeled combinations of the SNAREs were testedfor their ability to dock liposomes and induce fusion. Syntaxinand synaptobrevin in opposing membranes were both necessaryand sufficient to dock liposomes to supported bilayers and toinduce thermally activated fusion. As little as one SNARE interactionwas sufficient for liposome docking. Fusion of docked liposomeswith the supported bilayer was monitored by the dequenchingof soluble fluorophores entrapped within the liposomes. Fusionwas stimulated by illumination with laser light, and the fusionprobability was enhanced by raising the ambient temperaturefrom 22 to 37°C, suggesting a thermally activated process.Surprisingly, SNAP-25 had little effect on docking efficiencyor the probability of thermally induced fusion. Interproteinfluorescence resonance energy transfer experiments suggest thepresence of other conformational states of the syntaxin•synaptobrevininteraction in addition to those observed in the crystal structureof the SNARE complex. Furthermore, although SNARE complexesinvolved in liposome docking preferentially assemble into aparallel configuration, both parallel and antiparallel configurationswere observed.

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