Isolation of synaptic vesicles from Narcine brasiliensis electric organ: some influences on release of vesicular acetylcholine and ATP.

A simple density gradient centrifugation technique for separating electric organ cholinergic synaptic vesicles from other organelles and membrane fragments is described. Frozen, ground electric organ is extracted with a solution of similar density to the vesicles; during the subsequent centrifugation, vesicles remain suspended in the extraction medium and heavier contaminating structures sediment out. In confirmation of results obtained with mammalian central nervous system vesicles, a biphasic pattern of efflux of bound ACh is demonstrated. Low levels of phospholipase A2 (EC 3.1.1.4.) induce efflux of ACh from the vesicle fraction; it is shown that the concomitant fall in vesicle bound ATP is due to ATP efflux rather than ATP hydrolysis within the vesicle.