RAPID EFFECTS OF VERATRIDINE, TETRODOTOXIN, GRAMICIDIN D, VALINOMYCIN AND NaCN ON THE NA+, K+ AND ATP CONTENTS OF SYNAPTOSOMES

Abstract— The effects of brief exposures of a number of depolarizing agents on ²⁴Na⁺ influx and on the Na⁺, K⁺ and ATP contents of synaptosomes were studied using a Millipore filtration technique to terminate the reaction. When synaptosomes were incubated in normal medium, there was a rapid influx of ²⁴Na⁺ and a gain in Na’contents; neither the ²⁴Na⁺ influx nor the Na⁺ gain were blocked by tetrodotoxin suggesting that this Na⁺ entry did not involve Na⁺-channels. Veratridine markedly increased the rate of ²⁴Na⁺ influx into synaptosomes and also increased the Na⁺ content and decreased the K⁺ content of synaptosomes within the first 10s of exposure. The normal ion contents were reversed by 1 min. The effects of veratridine on Na⁺ influx and on synaptosomal ion contents were prevented by tetrodotoxin and required Na⁺ in the medium. The ionophores gramicidin D and valinomycin also rapidly reversed the Na⁺ and K⁺ contents of synaptosomes, but these effects could not be blocked by tetrodotoxin. The reducing effect of gramicidin D on synaptosomal K⁺ content required Na’in the medium, whereas valinomycin caused a fall in the K⁺ content of synaptosomes in a Na⁺-free medium. Veratridine and gramicidin D, at concentrations known to reverse the synaptosomal ion contents, did not affect synaptosomal ATP levels. In contrast, valinomycin and NaCN caused an abrupt fall in synaptosomal ATP levels. The above findings suggest that veratridine quickly alters synaptosomal Na⁺ and K⁺ contents by opening Na ⁺-channels in the presynaptic membrane, and provide direct evidence for the existence of Na⁺-channels in synaptosomes. In contrast, gramicidin D and valinomycin appear to act independently of Na ⁺-channels, possibly by their ionophoric effects and, in the case of valinomycin, by diminishing synaptosomal ATP contents and hence diminishing Na⁺-pump activity. The rapid reversals of Na⁺ and K⁺ contents by these drugs could affect the resting membrane potentials, Na⁺-Ca²⁺ exchange across the synaptosomal membrane, and the release, synthesis and uptake of neurotransmitters by synaptosomes.