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KD Holland, GC Mathews, AM Bolos-Sy, JB Tucker, PA Reddy, DF Covey, JA Ferrendelli and SM Rothman
Department of Molecular Biology and Pharmacology, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
Alkyl-substituted gamma-butyrolactones (GBLs) and gamma- thiobutyrolactones exhibit convulsant or anticonvulsant activity, depending on the alkyl substituents. alpha-Substituted lactones with small alkyl substituents are anticonvulsant and potentiate gamma- aminobutyric acid (GABA)-mediated chloride currents, whereas beta- substituted compounds are usually convulsant and block GABAA currents. We have now found that this distinction is not so clear-cut, in that some compounds can both block and augment GABAA currents, but with different time courses. For example, alpha,alpha-diisopropyl-GBL (alpha- DIGBL) potentiates exogenous GABA currents in cultured rat hippocampal neurons but diminishes GABA-mediated inhibitory postsynaptic currents. A more detailed analysis demonstrates a triphasic effect of alpha-DIGBL on GABA currents, with a rapid inhibitory phase, a slower potentiating phase, and then an "off response" when the GABA/alpha-DIGBL perfusion is stopped. Thus, alpha-DIGBL can inhibit and potentiate GABA currents with kinetically different time courses. Inhibition is more rapid, but at steady state potentiation dominates. Using a simplified model of the GABAA receptor/ionophore, we have simulated our experimental observations with alpha-DIGBL. Another lactone, beta-ethyl-beta-methyl- gamma-thiobutyrolactone, also has dual actions, with inhibition predominating at low concentrations and potentiation predominating at high concentrations. We propose two distinct GBL modulatory sites on the GABAA receptor, i.e., an inhibitory "picrotoxin" site and an enhancing "lactone site." New information on the structure of the GABAA receptor/ionophore may allow the molecular dissection of these two sites.
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