Effects of intracellular calcium elevation on action potential and L-type calcium current of normal and chronically infarcted rat ventricles

The present work investigated the effects of raising [Ca+2]i levels on action potential (AP) and L-type calcium current (ICa.L) of normal and chronically infarcted rat ventricles. Experiments were performed by conventional electrophysiology and whole-cell patch-clamp techniques. In the former, APs were recorded in ventricular strips subjected to different pacing rates or elevation of [Ca+2]o levels. In the latter, ICa.L was studied in isolated myocytes in the absence of an intracellular Ca+2 chelator. The acceleration of heart rate (6 to 240 beats/min) reduced AP duration measured at 20%, 50%, and 90% repolarization (APD20, APD50, and APD90) in the infarcted group, and increased APD20 and APD50 in the control group. Rising [Ca+]o (1.25 to 5.0 mmol/L) induced a decrease of APD20 and APD50 in both groups. Voltage clamp revealed a smaller ICa.L density at approximately −17 mV in myocytes from infarcted ventricles (−1.86 ± 0.37 vs −3.98 ± 0.65 pA/pF, P