Evidence for monoaminergic involvement in triadimefon-induced hyperactivity

Triadimefon is a triazole fungicide that produces hyperactivity in both mice and rats similar to that seen following administration of compounds with catecholaminergic activity (e.g., d-amphetamine). To determine whether the triadimefon-induced hyperactivity is due to an action on CNS catecholaminergic systems, we evaluated the effects of combined treatment of triadimefon with either the tyrosine hydroxlase inhibitor d,l--methyl-p-tyrosine methyl ester HCl (MPT) or the amine depletor reserpine. Adult male Long-Evans hooded rats, approximately 70 days of age were used. Dosage-effect functions were determined for MPT (0–200 mg/kg IP), reserpine (0–2.5 mg/kg IP), d-amphetamine (0–3 mg/kg IP), and methylphenidate (0–40 mg/kg IP). Motor activity was measured as photocell interruptions in figure-eight mazes. The interaction between triadimefon and MPT was determined with the following groups: 1) vehicle control; 2) 200 mg/kg triadimefon PO; 3) 100 mg/kg MPT; and 4) both MPT and triadimefon. A similar design was used to determine the interaction between triadimefon and reserpine (0.62 mg/kg), MPT and d-amphetamine (1.5 mg/kg), and reserpine and methylphenidate (5.0 mg/kg). In the first experiment MPT did not block the increased motor activity produced by triadimefon (i.e., both triadimefon alone and MPT in combination with triadimefon produced significant increases in motor activity). MPT did, however, block d-amphetamine-induced hyperactivity. Since MPT did not antagonize the effect of triadimefon, these data suggest that increased motor activity produced by triadimefon is not mediated through release of newly synthesized catecholamines. In contrast, pretreatment with reserpine blocked the hyperactivity induced by both triadimefon and methylphenidate, which suggests that triadimefon-induced hyperactivity may be due to an interaction with CNS catecholamines stored in reserpine-sensitive pools.The research described in this article has been reviewed by the Health Effects Research Laboratory, US Environmental Protection Agency, and approved for publication. Approval does not signify that the contents necessarily reflect the views and policies of the Agency nor does mention of trade names or commercial products constitute endorsement or recommendation for use. Presented in part at the Annual Meeting of the Society for Neuroscience, New Orleans, LA, November, 1987