Inward Rectifier Currents IK1 and IKACh in Working Myocardium of Japanese Quail (Coturnix japonica)

Abstract

Abstract Birds acquired endothermy and a four-chambered heart independently from mammals in the course of evolution. Though avian embryos are widely used in experiments, little is known about the adult avian heart. Recent studies have shown that, despite a large evolutionary distance, the set of repolarizing potassium currents in avian myocardium resembles that in mammalian heart as well as that in humans. This allows for proposing birds as a potential model in experimental cardiology. The present study for the first time describes inward rectifier currents in working myocardium of quail. Using patch clamp method, we recorded main background inward rectifier current I K1 was recorded in isolated atrial and ventricular cardiomyocytes of quail. Both inward and outward components of I K1 in ventricular cells were larger than those in atrial cells, while there were no differences in voltage dependence of inward rectification. Acetylcholine and carbachol induced activation of acetylcholine-dependent inward rectifier current I KACh in atrial but not in ventricular myocytes. I KACh in atrial myocytes was sensitive to tertiapin. Constitutively active I KACh has not been detected. In multicellular preparations of the quail right atrium, carbachol induced hyperpolarization and shortening of action potentials, while no such effects were observed in preparations of the right ventricle. Activation of I KACh upon application of carbachol was dose-dependent with EC 50 = 4.922 × 10 –7 М. The described distribution of inward rectifier currents in avian myocardium is similar to that in mammalian species, which are widely used as model objects in experimental cardiology.