Properties of calcium channels coupled to endogenous glutamate release from the vascularly perfused rat stomach in vitro

Abstract

We have demonstrated that both high-K + and electrical stimulation of the vagus nerves release endogenous glutamate from the vascularly-perfused rat stomach in a calcium-dependent manner. In the present study, we examined properties of calcium channel subtypes mediating endogenous glutamate release from the stomach. Application of 50 mM KCl elicited a release of glutamate, and this release was abolished in calcium-free medium. The release of glutamate was significantly inhibited by both ω-agatoxin IVA, a P/Q-type calcium channel antagonist, and isradipine, an L type calcium channel antagonist. ω-Conotoxin GVIA, an N type calcium channel antagonist and flunarizine, a nonselective T-type calcium channel antagonist were without effect. In contrast to this case of glutamate, ω-conotoxin GVIA induced a marked inhibition in the release of gastric noradrenaline. The combined treatment with α-agatoxin IVA plus isradipine produced a marked synergistic inhibition of the glutamate release. This inhibition was, however, much less than that by cadmium. The present results suggest that P/Q and L type calcium channels coexist to regulate the release of gastric glutamate. Furthermore, it is possible that unidentified calcium channels other than P/Q and L type channels are also involved in the release of glutamate in the stomach.