Tetanus toxin and botulinum a toxin inhibit acetylcholine release from but not calcium uptake into brain tissue

Abstract

Slices or particles from rat forebrain cortex were preloaded with [³H]choline, and the release of [³H]acetylcholine was evoked with potassium ions in a superfusion system. Release depended on the presence of calcium. Incubation of the preloaded tissue preparation for 2 h with tetanus or botulinum A toxin did not change the [³H]acetylcholine content or the ratio [³H]acetylcholine/[³H]choline. Tetanus toxin diminished, dependent on dose and time, the release of [³H]acetylcholine evoked by 25 mM K⁺. It was about ten times more potent than botulinum A toxin. The effect of botulinum toxin was due to its neurotoxin content. Raising the potassium concentration partially overcame the inhibition by the toxins. Hemicholinium-3, applied to preloaded slices, left the subsequent [³H]acetylcholine release unchanged. Pretreatment of particles with neuraminidase diminished the content of long-chain gangliosides to the detection limit. Such particles remained fully sensitive to tetanus toxin, and at least partially sensitive to botulinum A toxin. The potassium or sea anemone toxin II stimulated uptake of ⁴⁵Ca²⁺ into cortex synaptosomes or particles was not inhibited by either toxin. Both toxins appear to impede the Ca²⁺-dependent mobilization of an easily releasable acetylcholine pool, without inhibiting the transmembranal calcium fluxes.