Ca-DEPENDENT CHANGES OF ACETYLCHOLINE RELEASE AND IP3 MASS IN TORPEDO CHOLINERGIC SYNAPTOSOMES

The aim of the present study was to investigate possible changes of inositol 1,4,5-trisphosphate (IP₃) mass in Torpedo cholinergic synaptosomes in conditions promoting stimulated acetylcholine (ACh) release. For this purpose, we used a radioreceptor IP₃ mass assay and a chemiluminescent method for ACh detection. Torpedo cholinergic synaptosomes have consistent IP₃ mass levels under resting conditions. The IP₃ mass was neither modified by changes in external Ca²⁺ nor by a Ca²⁺-free medium containing EGTA. IP₃ mass and ACh release, measured in the same conditions and in parallel, were increased by depolarization with high K⁺ and by the ionophores A-23187 and gramicidin-D in a manner dependent on external Ca²⁺ emphasizing that Ca²⁺ entry, independently of the influx mechanism involved, leads to an IP₃ increase. The phospholipase C_β inhibitors U-73122 and U-73343 reduced K⁺-stimulated IP₃ levels while K⁺-evoked ACh release was almost completely blocked suggesting an additional effect of these drugs on depolarization-neurotransmitter secretion coupling. The effect reported showing an increase of IP₃ by agents that stimulate ACh release may suggest a possible link between IP₃ metabolism and the neurotransmitter release mechanism. However, such a link is probably not a direct one as implied by the results obtained with the inhibitors of phospholipase C. Copyright © 1996 Elsevier Science Ltd