The inotropic activity of digitalis genins is dependent upon C(17) side-group carbonyl oxygen position.

The inotropic potencies of four digitalis genins were studied utilizing cat left atrial strips. The genin concentration required to induce a 50% increase of isometric tension (T50) was found to closely correlate with the degree of displacement (D) of the C(17) side-group carbonyl oxygen from the position of that atom in digitoxigenin. The line of regression was: log T50 = 0.54D - 6.85, r2 = 0.98, P less than 0.008. These observations were related to recently reported cat ventricular Na+, K+ -ATPase inhibitory potencies of the same genins [expressed as 50% inhibitory (I50) concentrations]. I50 correlated strongly with T50: log I50 = 0.78 log T50 - 1.68, r2 = 0.99, P less than 0.003. Thus, the activity of digitalis genins towards their receptor in intact cardiac tissue is closely related to genin carbonyl oxygen position as well as to Na+, K+ -ATPase inhibitory activity. These results further support our earlier conclusions, based upon isolated Na+, K+ -ATPase studies, that the digitalis genin C(17) side-group carbonyl oxygen position versus activity relationship is biologically relevant and may prove to be a useful unifying structural model in the further elucidation of the mechanism of digitalis-receptor interactions.