Are GABAA receptors containing α5 subunits contributing to the sedative properties of benzodiazepine site agonists?

Abstract

Classical benzodiazepines (BZs) exert anxiolytic, sedative, hypnotic, muscle relaxant, anticonvulsive, and amnesic effects through potentiation of neurotransmission at GABAA receptors containing α1, α2, α3 or α5 subunits. Genetic studies suggest that modulation at the α1 subunit contributes to much of the adverse effects of BZs, most notably sedation, ataxia, and amnesia. Hence, BZ site ligands functionally inactive at GABA A receptors containing the α1 subunit are considered to be promising leads for novel, anxioselective anxiolytics devoid of sedative properties. In pursuing this approach, we used two-electrode voltage clamp experiments in Xenopus oocytes expressing recombinant GABAA receptor subtypes to investigate functional selectivity of three newly synthesized BZ site ligands and also compared their in vivo behavioral profiles. The compounds were functionally selective for α2-, α3-, and α5-containing subtypes of GABAA receptors (SH-053-S-CH3 and SH-053-S-CH3-2′F) or essentially selective for α5 subtypes (SH-053-R-CH3). Possible influences on behavioral measures were tested in the elevated plus maze, spontaneous locomotor activity, and rotarod test, which are considered primarily predictive of the anxiolytic, sedative, and ataxic influence of BZs, respectively. The results confirmed the substantially diminished ataxic potential of BZ site agonists devoid of α1 subunit-mediated effects, with preserved anti-anxiety effects at 30 mg/kg of SH-053-S-CH3 and SH-053-S-CH3-2′F. However, all three ligands, dosed at 30 mg/kg, decreased spontaneous locomotor activity, suggesting that sedation may be partly dependent on activity mediated by α5-containing GABAA receptors. Hence, it could be of importance to avoid substantial agonist activity at α5 receptors by candidate anxioselective anxiolytics, if clinical sedation is to be avoided. © 2008 Nature Publishing Group All rights reserved.