Elevated NOX1 determines oxidant load obesity and is reduced with increases in muscle mass (688.6)

Increases in muscle mass, as observed with exercise, are positive influences of cardiovascular health. Recent studies from our lab have shown the increase muscle mass via deletion of myostatin improves vasodilation but the underlying mechanisms are unknown. Improving insulin resistance has been shown to improve oxidant stress, specifically via expression of NOX1. Hypothesis: Increasing muscle mass by deletion of muscle growth negative regulator myostatin, improves vascular function in mesenteric arteries from obese db/db mice via reducing NOX-mediated oxidant stress in the endothelium. Myostatin deletion increased muscle mass in both lean (gastrocnemius 57.93%, gluteus maximus 60.95%) and obese mice (gastrocnemius 79.64%, gluteus maximus 112.32%). Fasting glucose, HbA1c and glucose tolerance are improved in obese myostatin null mice. Obese mice demonstrate superoxide-mediated impairment of ACh-induced vasodilation compared to lean mice. Deletion of myostatin in obese mice improved ACh-induced vasodilation...