Exercise Training Restores K + Channel Contributions to Hydrogen Peroxide‐Mediated Dilation Independent of PKG Dimerization in Collateral‐Dependent Coronary Arterioles

In coronary artery disease (CAD), the ability of the coronary circulation to deliver blood to meet oxygen demands of the heart is often impaired. Exercise training has been established to mitigate the negative effects of CAD by preserving reactivity of the coronary microcirculation. We have previously reported that exercise increases the contribution of hydrogen peroxide (H 2 O 2 ) to enhanced endothelium‐dependent vasodilation in collateral‐dependent coronary arterioles. Others have shown that cGMP‐dependent protein kinase (PKG) can be activated via oxidation by H 2 O 2 , inducing dimer formation. The PKG dimer has been shown to act on substrates, such as K + channels, to contribute to vascular smooth muscle relaxation and vasodilation. In the current study, we tested the hypothesis that exercise training‐enhanced H 2 O 2 ‐induced vasodilation is mediated through enhanced PKG dimerization and subsequent activation of Kv and BKca channels in coronary arterioles isolated from ischemic myocardium. An ameroid occluder was surgically placed on the proximal left circumflex coronary artery of female Yucatan miniature swine to induce gradual occlusion while the left anterior descending artery was left unoccluded to serve as a control. Eight weeks postoperatively, pigs were assigned to sedentary (n=14) or exercise training (n=13; progressive treadmill training for 13 weeks) regimens. Coronary arterioles (75–150 μm) and small arteries (250–400 um) were isolated from myocardium of the left circumflex and left anterior descending regions. Immunoblot analysis indicated that H 2 O 2 induced PKG dimer formation in both porcine coronary arterioles and small arteries. Chronic coronary artery occlusion appeared to diminish H 2 O 2 ‐mediated PKG dimer formation in collateral‐dependent arterioles and the reduced dimerization persisted with exercise training. H 2 O 2 ‐mediated vasodilation tended to be impaired in arterioles isolated from the collateral‐dependent regions of sedentary pigs and was partially restored with exercise training. It also appears that both Kv and BKCa channels contributed to H 2 O 2 ‐mediated dilation after exercise training. Our data demonstrate that H 2 O 2 stimulates PKG dimer formation in both porcine coronary arterioles and small arteries. Contrary to our hypothesis, H 2 O 2 ‐induced PKG dimerization is not enhanced by exercise training in either nonoccluded or collateral‐dependent arterioles. However, both Kv and BKCa channels appear to contribute to exercise training‐enhanced H 2 O 2 ‐mediated dilation in collateral‐dependent coronary arterioles. Support or Funding Information National Institutes of Health R01‐HL139903