EFFECTS OF THA ON PASSIVE-AVOIDANCE RETENTION PERFORMANCE OF INTACT, NUCLEUS BASALIS, FRONTAL-CORTEX AND NUCLEUS BASALIS + FRONTAL CORTEX-LESIONED RATS

Unilateral quisqualic acid lesions of the nucleus basalis magnocellularis (NBM) produced marked choline acetyltransferase depletion (-67% ipsilateral to lesion) and impaired passive avoidance (PA) retention at 24 hours. Pretraining injections of tacrine (THA: 1, 3 and 5 mg/kg), an anticholinesterase, failed to facilitate PA retention in intact rats. However, the retention performance of NBM-lesioned rats was improved by pretraining administration of THA at 3 mg/kg but not at either 1 or 5 mg/kg. Frontal cortex lesioning did not impair PA retention, and THA at 3 mg/kg had no effect on the PA retention of frontal cortex-lesioned rats. THA at 3 mg/kg failed to improve retention performance of NBM + frontal cortex-lesioned rats. After 10 days of chronic treatment with THA, NBM lesion-induced PA retention deficits were partially restored at both 3- and 5-mg/kg doses. The results suggest that 1) the insult to cholinergic neurons in the NBM may be involved in the PA memory consolidation deficit induced by nonselective quisqualic acid lesioning; 2) the beneficial effects of THA on NBM lesion-induced PA retention deficit occur in a narrow dose range; 3) the alleviating effects of THA on NBM lesion-induced PA memory deficits are blocked by frontal cortex lesions; and 4) the dose-response window for THA-induced PA retention performance improvement is broadened by repeated treatment.