Action potential duration and activation of ATP-sensitive potassium current in isolated guinea-pig ventricular myocytes.

It is difficult to associate the ATP-sensitive potassium (K-ATP) channel of cardiac muscle with hypoxia/ischemia induced action potential shortening because this occurs before intracellular ATP falls to levels associated in vitro with channel opening. This leaves the cardiac K-ATP channel without any obvious physiological function. We have quantitatively examined the relationship between action potential duration and K-ATP channel activity in enzymatically isolated ventricular myocytes of the guinea-pig. In whole-cell voltage-clamp recording experiments when the K-ATP channel opener SR 44866 (2-10 microM) stimulated an outward membrane current greater than 50 pA at 0 mV membrane potential (the equivalent of 30 open K-ATP channels or 1% of the cell K-ATP channel population) action potential duration was reduced by more than 50%. In the majority of cell-attached membrane patch recordings metabolic inhibition stimulated K-ATP channel open probability of 1-2% which continued for long periods (7-25 min) before cell contracture and coincident major K-ATP channel activation (open probability 65%). Our quantitative analysis thus shows that physiologically relevant activity of K-ATP channels in cardiac muscle is confined to a very small percentage of the possible cell K-ATP current and thus intracellular ATP would not have to fall very far before the opening of K-ATP channels would influence cardiac excitability.