RELATIONSHIP BETWEEN Ca2+-DEPENDENT AND INDEPENDENT RELEASE OF [3H]GABA EVOKED BY HIGH K+, VERATRIDINE OR ELECTRICAL STIMULATION FROM RAT CORTICAL SLICES

Abstract— It has been reported that the release of GABA by high K⁺ is Ca²⁺-dependent while release induced by veratridine or electrical stimulation has been frequently found to be independent of Ca²⁺. To see the source of Ca²⁺-dependent and independent release of GABA, cortical slices which had accumulated [³H]GABA were exposed to 50 mm -K⁺ or 50 μm -veratridine for 48min. In the presence of Ca²⁺ the 2 agents released approx the same amount of [³H]GABA but tetrodotoxin (TTX) abolished release induced only by veratridine, while omission of Ca²⁺ reduced release induced only by 50mm -K⁺. Pre-exposure of the slices for 48min to 50mm -K⁺ in the presence of Ca²⁺ reduced the second release by 50mm -K⁺ by 77% and that by veratridine by 74%, suggesting that in the presence of Ca²⁺ the 2 depolarizing agents release [³H]GABA from the same pool. Pre-exposure to 50mm -K⁺ in the absence of Ca²⁺ reduced the second release by 50mm -K⁺ or by veratridine only by 37 and 27% respectively, indicating that most of the reduction in release was the result of a depletion of releasable [³H]GABA stores. The second exposure to 50mm -K⁺ in the absence of Ca²⁺ reduced the evoked release further, while exposure to veratridine in the absence of Ca²⁺, after depletion of the stores, enhanced release 2.7 times. Electrical stimulation (64 Hz, 2 ms, 40 mA, alternating polarity) during 24min in the presence of Ca” caused an initial 5-fold increase in efflux, which declined subsequently. In the absence of Ca²⁺, instead of a rapid increase, a slow but smaller increase in the efflux of [³H]GABA was found. TTX almost completely abolished the electrically evoked increase in release. Pre-treatment with 50mm -K⁺ reduced the electrically evoked release by 94% but electrical stimulation in the absence of Ca²⁺ after depletion of releasable stores doubled this release. Results suggest that in the presence of Ca²⁺, high K⁺, veratridine and electrical stimulation release [³H]GABA from the same Ca²⁺-dependent store, but in the absence of Ca²⁺ veratridine and electrical stimulation enhance the release from a Ca²⁺-independent store, probably as a result of an increased influx of Na⁺.