Demonstration of calcium-activated transient outward chloride current and delayed rectifier potassium currents in Swine atrial myocytes

Abstract

Cellular electrophysiology is not fully understood in the atrium of pig heart. The objective of the present study was to determine whether transient outward current ( I to), ultra-rapid delayed rectifier potassium current ( I Kur), and rapid and slow delayed rectifier K + currents ( I Kr and I Ks) were present in pig atrium. The whole-cell patch technique was applied to record membrane currents and action potentials in myocytes isolated from pig atrium. It was found that an I to was activated upon depolarization voltage steps to between –10 and +60 mV from –50 mV in pig atrial cells, and the I to was sensitive to the inhibition by the blockade of L-type calcium (Ca 2+) current, showed a “bell-shaped” I–V relationship, typical of I to2 (i.e. I Cl.Ca). The I to2 was inhibited by the chloride (Cl –) channel blocker anthracene-9-carboxylic acid (9-AC, 200 μmol/l) or 4,4′-diisothiocyanostilben-2,2′disulfonic acid (200 μmol/l), and by Cl – substitution in the superfusate. I Kur was found in pig atrial myocytes, and the current showed properties of weak inward rectification and use- and frequency-dependent reduction. I Kur was resistant to tetraethylammonium, but sensitive to inhibition by 4-aminopyridine (4-AP) (IC 50 = 71.7 ± 3.5 μmol/l). In addition, E-4031-sensitive I Kr and chromanol 293B-sensitive I Ks were observed in pig atrial myocytes. Blockade of I to2, I Kur, I Kr or I Ks with corresponding blockers significantly prolonged atrial action potentials. These results indicate that Ca 2+-activated I to2, 4-AP-sensitive I Kur, E-4031-sensitive I Kr, and 293B-sensitive I Ks are present in pig atrial myocytes, and these currents play important roles in action potential repolarization of pig atria.