Abstract

Benzodiazepines exert their effects by binding to multiple subtypes of the GABAA receptor, the predominant subtypes in the brain being those that contain alpha1-, alpha2-, alpha3-, and alpha5-subunits. To understand the potentially different roles of these subtypes in the therapeutic and side effects of benzodiazepines, we evaluated GABAA receptor subtype-preferring compounds in nonhuman primate models predictive of anxiolytic, sedative, motor, subjective, and reinforcing effects of benzodiazepine-type drugs. These compounds included zolpidem, which shows preferential binding to GABAA receptors containing alpha1-subunits (alpha1GABAA receptors); L-838,417, which shows functional selectivity for alpha2GABAA, alpha3GABAA, and alpha5GABAA receptors; and nonselective conventional benzodiazepines. The results provide evidence in nonhuman primates that alpha1GABAA receptors do not play a key role in the anxiolytic and muscle-relaxant properties of benzodiazepine-type drugs; instead, these effects involve alpha2GABAA, alpha3GABAA, and/or alpha5GABAA subtypes. Our results also suggest that the alpha1GABAA receptor subtype might be critically involved in the subjective, sedative, and motor effects of benzodiazepine-type drugs. In contrast, stimulation of alpha1GABAA receptors is sufficient, but not necessary, for mediation of the abuse potential of these drugs.