The affinities, potencies and efficacies of some benzodiazepine‐receptor agonists, antagonists and inverse‐agonists at rat hippocampal GABAA‐receptors

Abstract

1 The abilities of some benzodiazepine-receptor agonists, antagonists and inverse agonists to modulate the inhibitory potency of the γ-aminobutyric acid (GABA)_A-receptor agonist, isoguvacine, on the CA1 population spike recorded from slices of rat hippocampus, were determined. 2 Concentration-response curves were constructed of the extent to which the benzodiazepine-receptor ligands shifted the isoguvacine concentration-response curve to the left or right. These were compared to their displacement curves of [³H]-Ro15-1788 binding to rat hippocampal membranes under near physiological assay conditions. 3 The above comparisons suggest that the effect on the potency of isoguvacine produced by the benzodiazepine-receptor agonists, diazepam and flunitrazepam, and the partial agonists, Ro16-6028 and Ro17-1812, closely parallels their degree of benzodiazepine-receptor occupancy. Thus, the partial agonists, Ro16-6028 and Ro17-1812, were unable to produce as large a maximum response as the full agonists, diazepam and flunitrazepam. 4 The maximum effects produced by diazepam, flunitrazepam, Ro16-6028, Ro17-1812, the antagonist, propyl-β-carboline-3-carboxylate, and the inverse agonist, methyl-6, 7-dimethyl-4-ethyl-β-carboline-3-carboxylate (DMCM), on the potency of isoguvacine in the hippocampal slice corresponded to the change in their affinities produced by the addition of GABA in the radioligand binding studies (GABA-shift). This suggests that the changes in affinity of benzodiazepine-receptor ligands produced by GABA_A-receptor activation reflects their ability to modify GABA_A-receptor function. 5 The benzodiazepine-receptor antagonists, Ro15-1788 and CGS 8216, had apparent agonist and inverse agonist effects, respectively, on the potency of isoguvacine. These effects occurred at concentrations above those required for saturation of the benzodiazepine-receptor, as labelled by [³H]-Ro15-1788, and were not in agreement with the absence of any effect of GABA_A-receptor stimulation in the GABA-shift experiments. This indicates that these events are not mediated by an action at the classical benzodiazepine-receptor site. 6 It is concluded that hippocampal GABA_A-receptor function can be allosterically modulated in a manner consistent with the agonist/inverse-agonist model of benzodiazepine-receptor activation, and that compounds exist with varying efficacies throughout this range.