DISSOCIATION OF THE EFFECT OF AMINOGLUTETHIMIDE ON CORTICOSTERONE BIOSYNTHESIS FROM ATAXIC AND HYPOTHERMIC EFFECTS IN DBA AND C57 MICE

Adrenalectomy is frequently used to deplete adrenocortical hormones in physiological and receptor-binding studies in animals. However, this procedure is irreversible, removes both the cortex and medulla, and produces many negative side effects such as hypotension and hypoglycemia. Aminoglutethimide is a steroid synthesis inhibitor which depletes adrenocortical hormones without these negative effects. However, aminoglutethimide itself has been shown to produce behavioral and physiological deficits. In the present experiments, dose-response relationships were determined for the effects of aminoglutethimide on corticosterone levels, motor coordination, and body temperature in C57 and DBA mice. Aminoglutethimide (5.4-54mg/kg) inhibited the increase ill plasma corticosterone concentrations normally observed in response to restraint stress. Only at higher doses (170-1,000 mg/kg) were rotarod performance and body temperature affected. The corticosterone response to restraint stress recovered fully between 12 and 24 h after aminoglutethimide. In the present study, doses of aminoglutethimide were found that temporarily inhibit stressed corticosterone release without producing motor deficits and temperature decreases. These results indicate that aminoglutethimide is a potential substitute for adrenalectomy in studies on the effects of removal of adrenocortical hormones.