Abstract
Several ion currents in the mammalian ventricular myocardium are substantially regulated by the sympathetic nervous system via β-adrenergic receptor activation, including the slow delayed rectifier K+ current and the L-type calcium current. This study investigated the downstream mechanisms of β-adrenergic receptor stimulation by isoproterenol (ISO) on the inward rectifier (IK1) and the rapid delayed rectifier (IKr) K+ currents using action potential voltage clamp (APVC) and conventional voltage clamp techniques in isolated canine left ventricular cardiomyocytes. IK1 and IKr were dissected by 50 µM BaCl2 and 1 µM E-4031, respectively. Acute application of 10 nM ISO significantly increased IK1 under the plateau phase of the action potential (0-+20 mV) using APVC, and similar results were obtained with conventional voltage clamp. However, β-adrenergic receptor stimulation did not affect the peak current density flowing during terminal repolarization or the overall IK1 integral. The ISO-induced enhancement of IK1 was blocked by the calcium/calmodulin kinase II (CaMKII) inhibitor KN-93 (1 µM) but not by the protein kinase A inhibitor H-89 (3 µM). Neither KN-93 nor H-89 affected the IK1 density under baseline conditions (in the absence of ISO). In contrast, parameters of the IKr current were not affected by β-adrenergic receptor stimulation with ISO. These findings suggest that sympathetic activation enhances IK1 in canine left ventricular cells through the CaMKII pathway, while IKr remains unaffected under the experimental conditions used.
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