Author:
Rogers Paul A.,Chilian William M.,Bratz Ian N.,Bryan Robert M.,Dick Gregory M.
Abstract
Previously, we demonstrated that coronary vasodilation in response to hydrogen peroxide (H2O2) is attenuated by 4-aminopyridine (4-AP), an inhibitor of voltage-gated K+ (KV) channels. Using whole cell patch-clamp techniques, we tested the hypothesis that H2O2 increases K+ current in coronary artery smooth muscle cells. H2O2 increased K+ current in a concentration-dependent manner (increases of 14 ± 3 and 43 ± 4% at 0 mV with 1 and 10 mM H2O2, respectively). H2O2 increased a conductance that was half-activated at −18 ± 1 mV and half-inactivated at −36 ± 2 mV. H2O2 increased current amplitude; however, the voltages of half activation and inactivation were not altered. Dithiothreitol, a thiol reductant, reversed the effect of H2O2 on K+ current and significantly shifted the voltage of half-activation to −10 ± 1 mV. N-ethylmaleimide, a thiol-alkylating agent, blocked the effect of H2O2 to increase K+ current. Neither tetraethylammonium (1 mM) nor iberiotoxin (100 nM), antagonists of Ca2+-activated K+ channels, blocked the effect of H2O2 to increase K+ current. In contrast, 3 mM 4-AP completely blocked the effect of H2O2 to increase K+ current. These findings lead us to conclude that H2O2 increases the activity of 4-AP-sensitive KV channels. Furthermore, our data support the idea that 4-AP-sensitive KV channels are redox sensitive and contribute to H2O2-induced coronary vasodilation.
Publisher
American Physiological Society
Subject
Physiology (medical),Cardiology and Cardiovascular Medicine,Physiology
Cited by
82 articles.
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