Actions of steroids and bemegride on the GABAA receptor of mouse spinal neurones in culture

Abstract

The effects of a synthetic and an endogenous steroid were studied on the GABAA receptors of isolated mouse spinal neurones, maintained in culture. Low doses of alphaxalone reversibly increased GABA-evoked whole-cell currents. Alphaxalone at higher doses (10-50 microM), when pressure ejected onto spinal neurones, also directly evoked a membrane chloride current. Such currents were reversibly suppressed by bicuculline (a GABAA antagonist) and enhanced by phenobarbitone. 5 beta-Pregnan-3 alpha-ol-20-one, a progesterone metabolite, dose-dependently potentiated the amplitude of GABA-evoked whole-cell currents. The mechanism of potentiation was examined at the single-channel level using outside-out patches from spinal neurones. The main action of the steroid on the GABAA receptor appears to be similar to that found for barbiturates, in that they prolonged GABA-activated bursts of channel openings. Bemegride had an antagonistic action on the GABAA receptor, suppressing both GABA- and pentobarbitone-evoked whole-cell currents to similar extents.