Neuropharmacology
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Loreclezole, an anticonvulsant and antiepileptic compound, potentiates gamma-aminobutyric acid (GABA) type A receptor function, by interacting with a specific allosteric modulatory site on receptor beta-subunits. A similar selectivity for GABAA receptor beta-subunits is apparent for the direct activation of receptor-operated Cl- channels, by the general anesthetics propofol and pentobarbital. The ability of loreclezole to activate GABAA receptors directly has now been compared, biochemically and electrophysiologically, with that of propofol. ⋯ Currents induced by loreclezole, like those evoked by propofol, were potentiated by diazepam in a flumazenil-sensitive manner and blocked by either bicuculline or picrotoxin. These data suggest that loreclezole shares, with propofol, an agonistic action at GABAA receptors containing the beta 2-subunit and that the different efficacies of the two compounds in this regard, may underlie the difference in their pharmacological profiles. The failure of loreclezole to activate GABAA receptors containing the beta 1-subunit may be responsible for its lack of hypnotic effect.
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GABAA and glycine receptors are close relatives in the "gene superfamily" of ligand-gated ion channels, but have distinctly different pharmacology. For example, barbiturates have two effects on GABAA receptors (GABAA-R): at low micromolar concentrations (2-5 microM), the anesthetic barbiturate methohexital potentiates submaximal chloride current responses to GABA; at higher concentrations (20-50 microM), the barbiturate causes direct gating of the channel in the absence of agonist. Neither of these barbiturate effects is seen on the glycine receptor (Gly-R). ⋯ Several chimeric receptor subunit cDNAs were constructed and the resulting receptors tested for their ability to respond to GABA and glycine and for sensitivity to the barbiturate methohextial (MTX). The results show that neither the large C-terminal fragment nor the smaller N-terminal fragment is associated with the enhancement or direct activation of the GABAA-R by MTX. These results demonstrate the viability of chimeric GABAA/Gly-R and suggest that the method will be suitable for further investigation of the molecular basis of the barbiturate pharmacology of the GABA-R.
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The anaesthetic profile of a novel water-soluble aminosteroid, Org 20599 [(2 beta, 3 alpha, 5 alpha)-21-chloro-3-hydroxy-2-(4-morpholinyl)pregnan-20-one methanesulphonate], and the ability of the compound to allosterically regulate the activity of the GABAA receptor, have been studied in comparison to the properties of established intravenous general-anaesthetic agents. Intravenously administered Org 20599 produced a rapid onset, short duration loss of the righting reflex in mice. The anaesthetic potency of Org 20599 was comparable to that of the steroids 5 alpha-pregnan-3 alpha-ol-20-one or alphaxalone, and exceeded that of propofol, thiopentone or pentobarbitone. ⋯ Such direct agonism varied greatly in maximal effect between compounds. The modulatory and direct agonist actions of Org 20599 were additionally confirmed utilizing rat hippocampal neurones in culture. The results indicate Org 20599 to be a potent and short-acting intravenous anaesthetic agent in mice and suggest positive allosteric regulation of GABAA receptor function to be a plausible molecular mechanism of action for the drug.