Differential Regulation of GABAA Receptor Gene Expression by Ethanol in the Rat Hippocampus Versus Cerebral Cortex

Abstract: Previous research has shown that chronic ethanol consumption dramatically alters GABA_A receptor α₁ and α₄ subunit gene expression in the cerebral cortex and GABA_A receptor α₁ and α₆ subunit gene expression in the cerebellum. However, it is not yet known if chronic ethanol consumption produces similar alterations in GABA_A receptor gene expression in other brain regions. One brain region of interest is the hippocampus because it has recently been shown that a subset of GABA_A receptors in the hippocampus is responsive to pharmacologically relevant concentrations of ethanol. Therefore, we directly compared the effects of chronic ethanol consumption on GABA_A receptor subunit gene expression in the hippocampus and cerebral cortex. Furthermore, we investigated whether the duration of ethanol consumption (14 or 40 days) would influence regulation of GABA_A receptor gene expression in these two brain regions. Chronic ethanol consumption produced a significant increase in the level of GABA_A receptor α₄ subunit peptide in the hippocampus following 40 days but not 14 days. The relative expression of hippocampal GABA_A receptor α₁, α₂, α₃, α_2/3, or γ₂ was not altered by either period of chronic ethanol exposure. In marked contrast, chronic ethanol consumption for 40 days significantly increased the relative expression of cerebral cortical GABA_A receptor α₄ subunits and significantly decreased the relative expression of cerebral cortical GABA_A receptor α₁ subunits. This finding is consistent with previous results following 14 days of chronic ethanol consumption. Hence, chronic ethanol consumption alters GABA_A receptor gene expression in the hippocampus but in a different manner from that in either the cerebral cortex or the cerebellum. Furthermore, these alterations are dependent on the duration of ethanol exposure.