Activation of Ca2+-sensitive Cl– current by reverse mode Na+/Ca2+ exchange in rabbit ventricular myocytes

 We investigated how Ca2+-sensitive transient outward current, Ito(Ca), is activated in rabbit ventricular myocytes in the presence of intracellular Na+ (Na+i) using the whole-cell patch-clamp technique at 36°C. In cells dialysed with Na+-free solutions,the application of nicardipine (5 µM) to block L-type Ca2+ current (ICa) completely inhibited Ito(Ca). In cells dialysed with a [Na+]i≥5 mM, however, Ito(Ca) could be observed after blockade of ICa, indicating the activity of an ICa-independent component. The amplitude of ICa-independent Ito(Ca) increased with voltage in a [Na+]i-dependent manner. The block of Ca2+ release from the sarcoplasmic reticulum by caffeine, ryanodine or thapsigargin blocked ICa-independent Ito(Ca). In Ca2+-free bath solution Ito(Ca) was completely abolished. The application of 2 mM Ni2+ or the newly synthesized compound KBR7943, a selective blocker of the reverse mode of Na+/Ca2+ exchange, or perfusion with pipette solution containing XIP (10 µM), a selective blocker of the exchanger, blocked ICa-independent Ito(Ca). From these results we conclude that, in the presence of Na+i, Ito(Ca) can be activated via Ca2+-induced Ca2+ release triggered by Na+/Ca2+ exchange operating in the reverse mode after blockade of ICa.