Dynamic clamping human and rabbit atrial calcium current: narrowing ICaL window abolishes early afterdepolarizations.

Atrial early-afterdepolarizations (EADs) may contribute to atrial fibrillation (AF), perhaps involving reactivation of L-type Ca2+ current (ICaL ) in its window region voltage range. The present study aimed (i) to validate the dynamic clamp technique for modifying the ICaL contribution to atrial action potential (AP) waveform; (ii) to investigate the effects of widening the window ICaL on EAD-propensity; and (iii) to test whether EADs from increased ICaL and AP duration are supressed by narrowing the window ICaL . ICaL and APs were recorded from rabbit and human atrial myocytes by whole-cell-patch clamp. During AP recording, ICaL was inhibited (3 µm nifedipine) and replaced by a dynamic clamp model current, ICaL,D-C (tuned to native ICaL characteristics), computed in real-time (every 50 µs) based on myocyte membrane potential. ICaL,D-C -injection restored the nifedipine-suppressed AP plateau. Widening the window ICaL,D-C , symmetrically by stepwise simultaneous equal shifts of half-voltages (V0.5 ) of ICaL,D-C activation (negatively) and inactivation (positively), generated EADs (single, multiple or preceding repolarization failure) in a window width-dependent manner, as well as AP alternans. A stronger EAD-generating effect resulted from independently shifting activation V0.5 (asymmetrical widening) than inactivation V0.5 ; for example, a 15 mV activation shift produced EADs in nine of 17 (53%) human atrial myocytes vs. 0 of 18 from inactivation shift (P < 0.05). In 11 rabbit atrial myocytes in which EADs were generated either by increasing the conductance of normal window width ICaL,D-C or subsequent 4-aminopyridine (2 mm), window ICaL,D-C narrowing (10 mV) abolished EADs of all types (P < 0.05). The present study validated the dynamic clamp for ICaL , which is novel in atrial cardiomyocytes, and showed that EADs of various types are generated by widening (particularly asymmetrically) the window ICaL , as well as abolished by narrowing it. Window ICaL narrowing is a potential therapeutic mechanism worth pursuing in the search for improved anti-AF drugs.