Vesicular and carrier-mediated depolarization-induced release of [3H]GABA: inhibition by amiloride and verapamil
- PMID: 8255356
- DOI: 10.1007/BF00966688
Vesicular and carrier-mediated depolarization-induced release of [3H]GABA: inhibition by amiloride and verapamil
Abstract
The Ca(2+)-dependent, presumably exocytotic fraction of the [3H]GABA released by depolarization is dissected from the depolarization-induced Na(+)-dependent, carrier-mediated fraction of [3H]GABA release in mouse brain synaptosomes. GABA homoexchange is prevented by the [3H]GABA carrier blocker, DABA. The absence of external Na+ completely abolishes the release of the carrier-mediated, presumably cytoplasmic release of [3H]GABA induced by homoexchange and heteroexchange with GABA and DABA, respectively. The carrier-mediated, Na(+)-dependent fraction of the depolarization-induced release of [3H]GABA is resistant to tetrodotoxin (TTX) but is sensitive to amiloride and verapamil. The Ca(2+)-dependent fraction of the [3H]GABA released by high K+ depolarization is also completely abolished by amiloride (from 300 microM) and sensitive to verapamil (30 microM), but in contrast is insensitive to the absence of external Na+ and to DABA. On the basis of these results we conclude that amiloride and verapamil inhibit high K(+)-induced release of [3H]GABA by antagonizing the entrance of Ca2+ (and possibly Na+ when external Ca2+ is absent) through a population of voltage sensitive presynaptic Ca2+ channels activated by depolarization.
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