Relationship between internal calcium and outward current in mammalian ventricular muscle; a mechanism for the control of the action potential duration?

In sheep and calf ventricular bundles, increasing the internal calcium by increasing the frequency of voltage‐clamping to plateau range potentials increased the time‐independent outward current. This effect was more marked with higher [Ca]o, and was reduced if the Ca current blockers Verapamil or D 600 were used. 2. If the internal Ca was increased by the addition of cyanide and reduction of external sodium the outward current was also increased. The frequency‐dependent increase in outward current also occurred in this Na‐poor (12 mM) solution. 3. Tension measurement on the ventricular bundles showed that a Na‐free solution with cyanide did not cause a contracture. On changing from Tyrode to a Na‐free solution containing cyanide, and on changing back to Tyrode there was a potentiation of the twitch. 4. In Na‐poor solution with cyanide, although no contracture was found, ECa was less positive, suggesting that under these circumstances Ca accumulates at the inner side of the membrane, but not around the myofibrils. 5. The prolongation of the action potential in Cl‐free solution is frequency‐dependent. A greater prolongation is seen at lower frequencies suggesting that Cl current is relatively more important for repolarization at lower frequencies of stimulation. 6. It is suggested that calcium at the inner side of the membrane sets the level of the background outward current. A feed‐back mechanism on this basis is proposed for the control of the action potential duration. Various factors that could influence this basic mechanism are discussed.