Depolarization-induced release of ATP from cholinergic synaptosomes is not blocked by botulinum toxin type A.

We report here the effects of Botulinum Toxin type A on the release of ATP and Acetylcholine from Torpedo electric organ synaptosomes. Our results show that Botulinum Toxin type A inhibits specifically the K(+)-induced release of Acetylcholine from synaptosomes without affecting the release of ATP. Membrane potential and calcium uptake into cholinergic nerve terminals are not modified after Botulinum Toxin poisoning. It is suggested that either most of the ATP released during the depolarization of the cholinergic synaptosomes does not originate from cholinergic synaptic vesicles or that there are two populations of synaptic vesicles, Acetylcholine-enriched synaptic vesicles and ATP-enriched synaptic vesicles. However, the possibility that the ACh and ATP released could come from different intrasynaptosomal compartments cannot be excluded.