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AJP - Heart and Circulatory Physiology, Vol 255, Issue 1 138-H143, Copyright © 1988 by American Physiological Society
ARTICLES |
G. M. Schrier and M. L. Hess
Department of Medicine, Medical College of Virginia, Virginia Commonwealth University, Richmond 23298.
Reduced oxygen intermediates have been shown to directly depress cardiac muscle function at the subcellular, tissue, and whole animal levels. The exact species of reduced oxygen intermediate [superoxide anion radical (O2-.), H2O2, hydroxyl free radical (HO.)] and the concentrations necessary to depress cardiac muscle function have not been quantified. To better understand the role of O2-. and H2O2, we have studied rabbit right ventricular papillary muscle function in the presence of these reduced oxygen intermediates generated by a xanthine-xanthine oxidase system at 37 degrees C. In the presence of xanthine (0.1 mM) and xanthine oxidase (0.02 U/ml), 57.5 +/- 0.85 nmol.l-1.s-1 O2-. and 69.25 +/- 5.3 nmol.l-1.s-1 H2O2 were produced. In the presence of superoxide dismutase (SOD), O2-. was eliminated and H2O2 concentration increased. Catalase effectively eliminated the accumulation of H2O2 without significantly changing the rate of O2-. generation. When applied to isometrically contracting right ventricular papillary muscles, this system, with or without SOD and catalase, had no effect on peak developed tension or +/- dT/dt derived either from length-tension or force-frequency studies. However, when the xanthine oxidase concentration was increased to 0.112 U/ml, the rate of O2-. generation increased to 196.67 +/- 3.26 nmol.l-1.s-1 and H2O2 production increased to 142.19 +/- 9.3 nmol.l-1.s-1 with significant depression of papillary muscle tension development. SOD virtually eliminated O2-. production, whereas H2O2 production increased to 199.48 +/- 9.8 nmol.l-1.s-1 with no effect on papillary muscle tension development.(ABSTRACT TRUNCATED AT 250 WORDS)
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