Hormonally regulated alpha(4)beta(2)delta GABA(A) receptors are a target for alcohol - PubMed (original) (raw)
Hormonally regulated alpha(4)beta(2)delta GABA(A) receptors are a target for alcohol
Inger Sundstrom-Poromaa et al. Nat Neurosci. 2002 Aug.
Abstract
Here we report that low concentrations of alcohol (1-3 mM) increased Cl(-) currents gated by a recombinant GABA(A) receptor, alpha(4)beta(2)delta, by 40-50% in Xenopus laevis oocytes. We also found greater hippocampal expression of receptors containing alpha(4) and delta subunits, using a rat model of premenstrual syndrome (PMS) in which 1-3 mM alcohol preferentially enhanced GABA-gated currents, and low doses of alcohol attenuated anxiety and behavioral reactivity. The alcohol sensitivity of delta-containing receptors may underlie the reinforcing effects of alcohol during PMS, when eye saccade responses to low doses of alcohol are increased.
Conflict of interest statement
Competing interests statement
The authors declare that they have no competing financial interests.
Figures
Fig. 1
Low concentrations of alcohol potentiate GABA responses at α4β2δ receptors. (a) The effects of alcohol on responses to GABA (EC20 = 0.03 μM α4β2δ, 1.7 μM α1β2γ2s, 5.6 μM α4β2γ2s) were measured by two-electrode voltage-clamp recording at −70 mV in oocytes expressing recombinant GABAA receptors. Inset, representative traces showing currents activated by GABA in the absence and presence of 1 mM alcohol. (b) Effects of 1 mM alcohol on GABA(EC20)-gated currents at various GABAA receptor subtypes (n = 8–20, *P < 0.05). Experiments were conducted according to Institutional Animal Care and Use Committee guidelines.
Fig. 2
Progesterone withdrawal increases α4βδ GABAA receptors. (a) Left, western blot showing increased expression of the δ subunit (54 kDa), but not a control protein (GAPDH, 36 kDa) after progesterone withdrawal (P Wd) compared to control (Con). Right, mean values (n = 20–25, performed in triplicate). (b) Increases in α4 protein following P Wd were prevented by in vivo administration of alcohol (0.5 g/kg × 3, intraperitoneally) during the final two hours of the withdrawal period (P Wd + Alc; n = 9–10). (c) Co-assembly of α4 and δ GABAA receptor subunits. After immunoprecipitation (IP) using protein A beads coupled to antibodies for the δ subunit (IP, δ) or a cytosolic protein (IP, Neg. con) membranes were probed with digoxygenin-labeled anti-α4 on a western blot (n = 4 hippocampi, in duplicate). A prominent 67-kDa band was detected after P Wd, but was barely detectable under control conditions. (d) The maximum current produced by THIP compared to that produced by 10 mM GABA was 1.41 after P Wd (THIP EC50 = 39 ± 2 μM), and 0.95 in control neurons (THIP EC50 = 81 ± 6 μM). This was determined using whole-cell patch clamp recording in neurons from CA1 hippocampus (n = 10–15, *P < 0.05).
Fig. 3
Low doses of alcohol potentiate GABA-gated currents in hippocampal pyramidal neurons and decrease behavioral excitability after progesterone withdrawal. (a) GABA (10 μM)-gated currents recorded in the presence or absence of alcohol (0.1–10 mM), measured by whole-cell patch clamp recording after progesterone withdrawal (P Wd) or under control conditions (con). Inset, representative traces. Suppression of α4 subunit expression (P Wd + α4 suppressed), as described in Fig. 2b, abolished the stimulatory effects of low concentrations of alcohol after P Wd (n = 20–25 cells/concentration, 8–10 rats/group). (b) Low doses of alcohol administered to P Wd (but not control) rats significantly lowered the acoustic startle response, expressed relative to the saline control (n = 5–11, *P < 0.05, **P < 0.005).
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