Window Ca2+ current and its modulation by Ca2+ release in hypertrophied cardiac myocytes from dogs with chronic atrioventricular block

Torsades de pointes (TdP) ventricular tachycardia typically occurs in the setting of early afterdepolarizations; it contributes to arrhythmias and sudden death in congenital and acquired heart disease. Window L-type Ca 2+ current ( I CaL ) has a central role in the arrhythmogenesis and may be particularly important under β-adrenergic stimulation. We studied the properties of I CaL in myocytes from the dog with chronic atrioventricular block (cAVB) that has cardiac hypertrophy and an increased susceptibility to TdP. Peak I CaL densities at baseline (K + - and Na + -free solutions, 10 mmol l −1 [EGTA] pip ) in cAVB were comparable to control, but inactivation was shifted to the right, resulting in a larger window current area in cAVB. Under β-adrenergic stimulation, the window current area was increased and shifted to the left, but less so in cAVB (maximum at −27 mV, versus −32 mV in control). I CaL during a step to −35 mV showed a transient reduction immediately after the peak. Test steps to 0 mV, simultaneous recording of [Ca 2+ ] i and manipulation of sarcoplasmic reticulum (SR) Ca 2+ release showed that this resulted from inhibition and fast recovery of I CaL with SR Ca 2+ release. The extent of this dynamic modulation was larger in cAVB than in control (23 ± 2% of the initially available current, versus 13 ± 3%; P < 0.05). Early afterdepolarizations (EADs) in cAVB myocytes under β-adrenergic stimulation typically occurred in the window current voltage range and after decline of [Ca 2+ ] i . In conclusion, in cAVB, the larger window current, its rightward shift and enhanced dynamic modulation by SR Ca 2+ release may contribute to an increased incidence of EADs in cAVB under β-adrenergic stimulation.