Elevation of calcium concentration increased the amplitude of acetylstrophanthidin-induced transient depolarizations, while reduction of calcium or addition of manganese reversed them.
The role of calcium ions (Ca 2+ ) in the generation of transient depolarizations (TDs) by acetylstrophanthidin was examined. Transmembrane activity was recorded from isolated canine false tendons exposed to acetylstrophanthidin; concentrations from 7.5 x 10 -8 to 2 x 10 -7 g/ml caused TDs coupled to driven action potentials and depressed slow diastolic depolarization. TDs could reach threshold and induce extrasystoles. Elevation of the Ca 2+ concentration increased the amplitude of TDs induced by acetylstrophanthidin. High Ca 2+ concentration (12.5 mM) caused TDs and depression of slow diastolic depolarization in the absence of acetylstrophanthidin. Elevation of potassium (K + ) concentration depressed and reduction of K + concentration potentiated TDs caused by either acetylstrophanthidin or high Ca 2+ concentration. The production of TDs and the depression of slow diastolic depolarization by acetylstrophanthidin were reversed by reduction of the Ca 2+ concentration or addition of manganese (2 mM) to the superfusing Tyrode's solution. The results suggest that TDs and arrhythmias produced by acetylstrophanthidin may be caused by a transient Ca 2+ influx.
Ferrier et al. (Thu,) conducted a other in Acetylstrophanthidin-induced transient depolarizations. Calcium concentration modulation was evaluated on Generation and amplitude of transient depolarizations (TDs). Elevation of calcium concentration increased the amplitude of acetylstrophanthidin-induced transient depolarizations, while reduction of calcium or addition of manganese reversed them.