Justin D La Favor1, Gabriel S Dubis2, Huimin Yan2, Joseph D White2, Margaret A M Nelson2, Ethan J Anderson2, Robert C Hickner2. 1. From the Human Performance Laboratory, Departments of Kinesiology (J.D.L.F., G.S.D., H.Y., J.D.W., R.C.H.), Pharmacology and Toxicology (M.A.M.N., E.J.A.), Physiology (R.C.H.), East Carolina Diabetes and Obesity Institute (J.D.L.F., M.A.M.N., E.J.A., R.C.H.), Center for Health Disparities (R.C.H.), East Carolina University, Greenville, NC; Department of Urology, The James Buchannan Brady Urological Institute, The Johns Hopkins School of Medicine, Baltimore, MD (J.D.L.F.); Department of Pharmaceutical Sciences and Experimental Therapeutics, College of Pharmacy, University of Iowa, Iowa City (E.J.A.); and Department of Biokinetics, Exercise and Leisure Science, University of KwaZulu-Natal, Durban, South Africa (R.C.H.). jlafavo3@jhmi.edu. 2. From the Human Performance Laboratory, Departments of Kinesiology (J.D.L.F., G.S.D., H.Y., J.D.W., R.C.H.), Pharmacology and Toxicology (M.A.M.N., E.J.A.), Physiology (R.C.H.), East Carolina Diabetes and Obesity Institute (J.D.L.F., M.A.M.N., E.J.A., R.C.H.), Center for Health Disparities (R.C.H.), East Carolina University, Greenville, NC; Department of Urology, The James Buchannan Brady Urological Institute, The Johns Hopkins School of Medicine, Baltimore, MD (J.D.L.F.); Department of Pharmaceutical Sciences and Experimental Therapeutics, College of Pharmacy, University of Iowa, Iowa City (E.J.A.); and Department of Biokinetics, Exercise and Leisure Science, University of KwaZulu-Natal, Durban, South Africa (R.C.H.).
Abstract
OBJECTIVE: The objectives of this study were to determine the impact of in vivo reactive oxygen species (ROS) on microvascular endothelial function in obese human subjects and the efficacy of an aerobic exercise intervention on alleviating obesity-associated dysfunctionality. APPROACH AND RESULTS: Young, sedentary men and women were divided into lean (body mass index 18-25; n=14), intermediate (body mass index 28-32.5; n=13), and obese (body mass index 33-40; n=15) groups. A novel microdialysis technique was utilized to detect elevated interstitial hydrogen peroxide (H2O2) and superoxide levels in the vastus lateralis of obese compared with both lean and intermediate subjects. Nutritive blood flow was monitored in the vastus lateralis via the microdialysis-ethanol technique. A decrement in acetylcholine-stimulated blood flow revealed impaired microvascular endothelial function in the obese subjects. Perfusion of apocynin, an NADPH oxidase inhibitor, lowered (normalized) H2O2 and superoxide levels, and reversed microvascular endothelial dysfunction in obese subjects. After 8 weeks of exercise, H2O2 levels were decreased in the obese subjects and microvascular endothelial function in these subjects was restored to levels similar to lean subjects. Skeletal muscle protein expression of the NADPH oxidase subunits p22phox, p47phox, and p67phox was increased in obese relative to lean subjects, where p22phox and p67phox expression was attenuated by exercise training in obese subjects. CONCLUSIONS: This study implicates NADPH oxidase as a source of excessive ROS production in skeletal muscle of obese individuals and links excessive NADPH oxidase-derived ROS to microvascular endothelial dysfunction in obesity. Furthermore, aerobic exercise training proved to be an effective strategy for alleviating these maladies.
OBJECTIVE: The objectives of this study were to determine the impact of in vivo reactive oxygen species (ROS) on microvascular endothelial function in obesehuman subjects and the efficacy of an aerobic exercise intervention on alleviating obesity-associated dysfunctionality. APPROACH AND RESULTS: Young, sedentary men and women were divided into lean (body mass index 18-25; n=14), intermediate (body mass index 28-32.5; n=13), and obese (body mass index 33-40; n=15) groups. A novel microdialysis technique was utilized to detect elevated interstitial hydrogen peroxide (H2O2) and superoxide levels in the vastus lateralis of obese compared with both lean and intermediate subjects. Nutritive blood flow was monitored in the vastus lateralis via the microdialysis-ethanol technique. A decrement in acetylcholine-stimulated blood flow revealed impaired microvascular endothelial function in the obese subjects. Perfusion of apocynin, an NADPH oxidase inhibitor, lowered (normalized) H2O2 and superoxide levels, and reversed microvascular endothelial dysfunction in obese subjects. After 8 weeks of exercise, H2O2 levels were decreased in the obese subjects and microvascular endothelial function in these subjects was restored to levels similar to lean subjects. Skeletal muscle protein expression of the NADPH oxidase subunits p22phox, p47phox, and p67phox was increased in obese relative to lean subjects, where p22phox and p67phox expression was attenuated by exercise training in obese subjects. CONCLUSIONS: This study implicates NADPH oxidase as a source of excessive ROS production in skeletal muscle of obese individuals and links excessive NADPH oxidase-derived ROS to microvascular endothelial dysfunction in obesity. Furthermore, aerobic exercise training proved to be an effective strategy for alleviating these maladies.
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