A series of substituted 2,2'-bi-1H-imidazoles and related analogues was synthesized and evaluated for inotropic activity. Structure-activity relationship studies based on a nonclassical bioisosteric approach indicated the necessity of a cyano group on one of the imidazole rings to obtain the desired pharmacological profile. 4(5)-Cyano-2,2'-bi-1H-imidazole (15a) was the most potent inotropic agent in the series. It produced a 25% increase in left ventricular dP/dt at 0.16 mg/kg iv (ED25% = 0.16 mg/kg) and increased left ventricular contractile force 60% at 1 mg/kg iv in anesthetized dogs. Compound 15a is a good inhibitor of type IV cyclic nucleotide phosphodiesterase isolated from dog heart having a potency similar to that of amrinone. Neither 5'-cyano-2,4'-bi-1H-imidazole (44) nor 4-cyano-2,4'-bi-1H-imidazole (48) demonstrated inotropic activity. In addition, the two possible 1,1'-dimethylcyano-2,2'-bi-1H-imidazoles (24 and 25) were inactive, indicating that an acidic NH as well as a cyano group are essential for inotropic activity.
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