The effect of papaverine on the positive inotropic response to isopreqaline and to calcium was studied on the rabbit isolated papillary muscle; theophylline and the calcium antagonistic D600 were used for comparison. The dose-response curve for isoprenaline was shifted to the left by papaverine (3 times 10- minus 6 to 3 times 10- minus 5 M), in a dose-dependent manner, while that for calcium was not affected by the same concentration. In this respect papaverine was about 30 times more potent than theophylline. In the presence of papaverine isoprenaline induced arrhythmic contractions of the papillary muscle: the incidence of arrhythmic contractions was positively correlated to the concentration of papaverine. Papaverine 10- minus 5 to 10- minus 4 M caused only a positive inotropic response whereas 3 times 10- minus 4 to 10- minus 3 M induced a biphasic response, i.e., after a positive inotropic effect followed a negative one. In the presence of 3 times 10- minus 4 M papaverine isoprenaline failed to cause a positive inotropic response but exclusively induced arrhythmic contractions. Calcium, on the other hand, readily antagonized the negative inotropic effect of papaverine (3 times 10- minus 4 M) and caused a contracture of the papillary muscle. The results indicate that papaverine (3 times 10- minus 6 to 10- minus 5 M) like theophylline (10- minus 4 to 10- minus 3 M) produces its effect by phosphodiesterase inhibition and thereby specifically potentiates the response through beta-adrenoceptor stimulation. In higher concentrations (3 times 10- minus 4 to 10- minus 3 M) it acts as a calcium antagonistic, like D600, and furthermore may interact with calcium moving through myocardial cell membranes to cause a contracture via a mechanism which it shares with theophylline.