Interaction of some drugs on the pharmacokinetics or pharmacodynamics of MPC-1304, a dihydropyridine Ca2+ antagonist.

The aim of this study was to assess the pharmacokinetics and subsequent pharmacodynamic interaction of MPC-1304, a dihydropyridine Ca2+ antagonist, with other drugs in animal experiments. We measured the systolic blood pressure and heart rate of conscious spontaneously hypertensive rats implanted with battery-operated biotelemetry devices after combined administration of various drugs. Cimetidine (10 mg/kg) did not affect the reduction in systolic blood pressure and the increase in heart rate induced by MPC-1304, whereas it significantly increased the plasma concentration of a metabolite of MPC-1304 (M-1) compared to that detected when MPC-1304 was administered alone. When MPC-1304 was consecutively administered in combination with rifampicin (400 mg/kg) for 9 days, the plasma concentrations of MPC-1304 and of M-1 significantly decreased compared to those found when MPC-1304 alone was given. In spite of these reductions in plasma concentrations, rifampicin did not attenuate the hypotensive action induced by MPC-1304. When prazosin, reserpine, or methyldopa was administered in combination with MPC-1304, the hypotensive action was enhanced as compared to that by MPC-1304 alone or to that by the co-administered drug used alone (prazosin, reserpine, or methyldopa). Quinidine (10 mg/kg) affected neither the hypotensive action induced by MPC-1304 nor the plasma concentrations of MPC-1304 and M-1. These results indicate that cimetidine and rifampicin interact with MPC-1304 pharmacokinetically, without apparently changing the hypotensive action of MPC-1304, whereas quinidine does not affect the metabolism of MPC-1304, and that other hypotensive drugs, such as prazosin, reserpine, and methyldopa, potentiate the hypotensive action of MPC-1304.