Strophanthidin and force regulation by intracellular sodium activity in cardiac Purkinje fibers.

The role of intracellular sodium activity (aiNa) in the inotropy of a low concentration of strophanthidin (5 X 10(-8 M) was studied in sheep cardiac Purkinje fibers by recording contractile force, aiNa and transmembrane potentials under conditions that vary aiNa. High [Na]O, strophanthidin and tetrodotoxin (TTX) changed force and aiNa in a closely related manner: on logarithmic coordinates, the data were well fitted by a single line obtained through the regression equation F = b (aiNa)s where b represents the intercept and s the slope of the relation. With low strophanthidin, force increases as a linear function of (aiNa) approximately 5 and with high [Na]O as a linear function of (aiNa) approximately 6. However, the combined administration of high [Na]O and strophanthidin results in a potentiated inotropic effect as force becomes a linear function of (aiNa) approximately 14. This potentiation and its abolition by TTX suggests that factors other than aiNa powerfully modify the inotropy of a low strophanthidin concentration.