Chronic xanthine oxidase inhibition prevents myofibrillar protein oxidation and preserves cardiac function in a transgenic mouse model of cardiomyopathy

doi:10.1152/ajpheart.00168.2005

Chronic xanthine oxidase inhibition prevents myofibrillar protein oxidation and preserves cardiac function in a transgenic mouse model of cardiomyopathy

Jennifer G. Duncan,¹ Rajashree Ravi,² Linda B. Stull,² and Anne M. Murphy²

Departments of ¹Anesthesiology and Critical Care Medicine and ²Pediatrics, Johns Hopkins University School of Medicine, Baltimore, Maryland

Submitted 18 February 2005 ; accepted in final form 25 April 2005

Heart failure is a clinical syndrome associated with elevatedlevels of oxygen-derived free radicals. Xanthine oxidase activityis believed to be one source of reactive oxygen species in thefailing heart. Interventions designed to reduce oxidative stressare believed to have significant therapeutic potential in heartfailure. This study tested the hypothesis that xanthine oxidaseactivity would be elevated in a mouse model of dilated cardiomyopathyand evaluated the effect of chronic oral allopurinol, an inhibitorof xanthine oxidase, on contractility and progressive ventriculardilation in these mice. Nontransgenic and transgenic mice containinga troponin I truncation were treated with oral allopurinol from2–4 mo of age. Myocardial xanthine oxidase activity wasthreefold higher in untreated transgenic mice compared withnontransgenic mice. Analyses of myofilament proteins for modificationof carbonyl groups demonstrated myofibrillar protein damagein untreated transgenic mice. Treatment with allopurinol for2 mo suppressed xanthine oxidase activity and myofibrillar proteinoxidation. Allopurinol treatment also alleviated ventriculardilation and preserved shortening fraction in the transgenicanimals. In addition, cardiac muscle twitch tension was preservedto 70% of nontransgenic levels in allopurinol-treated transgenicmice, a significant improvement over untreated transgenic mice.These findings indicate that chronic inhibition of xanthineoxidase can alter the progression of heart failure in dilatedcardiomyopathy.

oxidative stress; myofilament proteins

Address for reprint requests and other correspondence: A. M. Murphy, Johns Hopkins Univ., 720 Rutland Ave., Ross 1144, Baltimore, MD 21205 (e-mail: murphy{at}jhmi.edu)

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