Influence of membrane cholesterol on modulation of the GABAA receptor by neuroactive steroids and other potentiators

Abstract

The influence of membrane cholesterol on some pharmacological properties of the GABA_A receptor was investigated in acutely dissociated rat hippocampal neurones with whole cell patch clamp recording. The cholesterol levels were varied between 56% and 235% control using methyl‐β‐cyclodextrin as the cholesterol carrier. Enrichment of neurones with cholesterol increased the effects of the non‐steroidal GABA potentiators propofol, flunitrazepam and pentobarbitone. A similar result was obtained after pre‐incubation of neurones with epicholesterol, the 3α‐hydroxy isomer of cholesterol. In contrast, the effects of the steroidal GABA potentiators pregnanolone and alfaxalone were reduced by cholesterol enrichment, but not by epicholesterol. Depletion of membrane cholesterol increased the potentiation of GABA by pregnanolone and alfaxalone but did not affect the non‐steroidal potentiators. The steroidal antagonist of GABA, pregnenolone sulphate, reduced the maximum response to GABA. This effect, also, was diminished in cholesterol‐enriched neurones and enhanced in cholesterol‐depleted neurones. The effects of the cholesterol manipulations that were selective for the steroidal modulators of GABA are suggested to arise from direct interactions between membrane cholesterol and the GABA_A receptor. The separate effects on the non‐steroidal potentiators of GABA of cholesterol‐enrichment or addition of epicholesterol to the neurones are suggested to be due to changes in membrane fluidity. In view of the likely physiological modulation of GABA_A receptors by endogenous neuroactive steroids and evidence of the in vivo lability of membrane cholesterol, the present observations may have physiological as well as pharmacological relevance. British Journal of Pharmacology (2001) 134, 1303–1311; doi:10.1038/sj.bjp.0704360