Development of tolerance to motor-impairing effects of repeated administration of moderate diazepam doses (5.0-7.5 mg/kg; three times daily PO 3 weeks) was compared between mice deficient in the cerebellar granule cell-restricted GABAA receptor alpha6 subunit and their wild-type controls. The alpha6 -/- mice were more impaired by the initial challenge doses of diazepam (5 or 10 mg/kg) than their controls, but acquired partial tolerance by the second tests with the same doses 4-7 days later. Chronic treatment produced complete tolerance in both mouse lines. Ligand autoradiography revealed a significant reduction in baseline benzodiazepine and chloride channel site-bindings in various regions of the alpha6 -/- brains, but the chronic diazepam treatment did not consistently alter baseline or benzodiazepine site agonist and inverse agonist-modulated binding in the alpha6 -/- and wildtype mice. The results indicate that tolerance to motor-impairing actions of diazepam is independent of the diazepam-insensitive alpha6 subunit-containing receptors, which rules out the possibility that tolerance emerges as an increase in structurally benzodiazepine-insensitive receptor population.
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