Influences of external Ca2+ on the GABA-induced chloride current and the efficacy of diazepam in internally perfused frog sensory neurons.

The effects of extracellular Ca2+ on the gamma-aminobutyric acid (GABA)-induced Cl- current and the efficacy of diazepam in the facilitation of GABA response were studied in frog isolated sensory neurons, using a 'concentration clamp' technique which combines a suction pipette (internal perfusion and voltage clamp) and a rapid drug application system. When nominal Ca2+-free external solution was changed to the solution containing 2 mM Ca2+, the response elicited by 1 x 10(-5) M GABA was reduced by about 40% of the control obtained in nominal Ca2+-free solution. The dose-response curve for GABA was shifted to the right without affecting the maximum response. It can be suggested that the application of external Ca2+ modulates the affinity of the GABA receptor to its agonist, GABA. Diazepam at the concentration of 3 x 10(-6) M shifted the dose-response curve for GABA to the left without changing the maximum response with or without external Ca2+. However, the augmentatory action of diazepam on the GABA response was reduced in the presence of external Ca2+. Possible mechanisms for inhibitory action of external Ca2+ on the GABA-gated response and the reduced efficacy of diazepam are discussed.