Regulation by endothelin-1 of Na+-Ca2+ exchange current (I(NaCa)) from guinea-pig isolated ventricular myocytes.

The cardiac Na+-Ca2+ exchanger participates in Ca homeostasis, and Na+-Ca2+ exchanger-mediated ionic current (I(NaCa)) also contributes to the regulation of cardiac action potential duration. Moreover, I(NaCa) can contribute to arrhythmogenesis under conditions of cellular Ca overload. Although it has been shown that the peptide hormone endothelin-1 (ET-1) can phosphorylate the cardiac Na+-Ca2+ exchanger via protein kinase C (PKC), little is known about the effect of ET-1 on I(NaCa). In order to examine the effects of ET-1 on I(NaCa), whole-cell patch clamp measurements were made at 378C from guinea-pig isolated ventricular myocytes. With major interfering currents inhibited, I(NaCa) was measured as the current sensitive to nickel (Ni; 10mM) during a descending voltage ramp. ET-1 (10 nM) significantly increased I(NaCa) ( approximately 2-fold at -100 mV). Application of a PKC activator (PMA; 1mM: phorbol 12-myristate 13-acetate), mimicked the effect of ET-1. In contrast, the PKC inhibitor chelerythrine (CLT, 1mM) abolished the stimulatory effect of ET-1. An inactive phorbol ester, 4-alpha-phorbol-12,13-didecanoate (4a-PDD, 1mM) had no effect on I(NaCa). Collectively, these data indicate that ET-1 activated I(NaCa) through a PKC-dependent pathway. In additional experiments, isoprenaline (ISO; which has also been reported to activate I(NaCa) ) was applied. The increase in I(NaCa) density with ISO (1mM) was similar to that induced by ET-1 (10nM). When I(NaCa) was pre-stimulated by ET-1, application of ISO elicited no further increase in current and vice versa. ISO also had no additional effect on I(NaCa) when the cells were pretreated with PMA. Application of CLT did not alter the response of I(NaCa) to ISO. We conclude that ET-1 stimulated ventricular I(NaCa) via a PKC-dependent mechanism under our recording conditions. Concentrations of ET-1 and ISO that stimulated I(NaCa) to similar extents when applied separately were not additive when co-applied. The lack of synergy between the stimulatory effects of ET-1 and ISO may be important in protecting the heart from the potentially deleterious consequences of excessive stimulation of I(NaCa). Copyright 2001 Harcourt Publishers Ltd.