Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1067308 | Alcohol | 2007 | 9 Pages |
Abstract
Several recent studies have suggested that αβδ subtypes of γ-aminobutyric acid type A (GABAA) receptors (δ-GABAR) are a target for low dose ethanol (<30 mM). However, there are also conflicting reports suggesting that only high doses of the drug (100 mM) modulate these receptors. In addition, the studies which have demonstrated a clear effect of low dose ethanol on δ-GABAR find different effective concentrations for this effect. Here, we test the hypothesis that the apparent disparity in effective concentration is due to time-course effects when low (1-3 mM) dose ethanol is preapplied. To this end, we tested ethanol effects on native GABAR in CA1 hippocampus in a model of increased α4βδ GABAR expression following 48 h administration of the GABA-modulatory steroid THP (3α-OH-5β-pregnan-20-one) to adult, female rats. GABA(EC20)-gated current was recorded with whole-cell patch clamp procedures from acutely isolated pyramidal cells. We assessed ethanol's effect on GABA-gated current using either (1) 2-5 min application of ethanol in increasing concentrations (0.1-30 mM) or (2) coadministration of ethanol with GABA. Two minute application of 1-3 mM ethanol produced optimal potentiation of GABA-gated current following steroid treatment, with higher concentrations less effective. In contrast, 30 mM ethanol produced optimal effects when ethanol was not preapplied. However, following preapplication of 1 mM ethanol, 30 mM ethanol decreased the peak GABA-gated current. These findings suggest that ethanol may act at multiple interacting sites to affect GABAR efficacy and desensitization. These data also suggest that ethanol effects on GABA-gated current are affected by the time course of exposure and previous exposure to low concentrations of the drug.
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Authors
Sheryl S. Smith, Qi Hua Gong,