A. S. Nieukoop scite author profile

Oxygen free radicals generated by xanthine oxidase have been implicated in cardiac damage. The activity of xanthine oxidase/reductase in adult rat heart is considerable. Its assay gives controversial results for other species, for example, rabbits and humans. Therefore, we perfused isolated hearts of various species, including explanted human hearts, to measure the conversion of exogenous hypoxanthine to xanthine and urate. We assayed these purines with high-performance liquid chromatography. The apparent xanthine oxidoreductase activities, calculated as release of xanthine plus 2x urate, were (milliunits per gram wet weight, mean +/- SEM) mice 33 +/- 3 (n = 5), rats 28.5 +/- 1.4 (n = 9), guinea pigs 14.4 +/- 1.0 (n = 5), rabbits 0.59 +/- 0.09 (n = 5), pigs less than 0.1 (n = 6), humans 0.31 +/- 0.04 (n = 7), and cows 3.7 +/- 0.8 (n = 4). In rabbit heart the conversion of hypoxanthine to xanthine was slow, and that of xanthine to urate was even slower. On the other hand, guinea pig and human heart released little xanthine, indicating that xanthine breakdown exceeds its formation. We conclude that isolated perfused mouse, rat, guinea pig, and also bovine hearts show considerable xanthine oxidoreductase activity, contrasting rabbit, porcine, and diseased human hearts.

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Different ATP-catabolism in reperfused adult and newborn rat hearts

Achterberg

Nieukoop

Schoutsen

et al. 1988

American Journal of Physiology-Heart and Circulatory Physiology

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Age-dependent differences in the effects of ischemia and reperfusion on ATP breakdown were studied in perfused adult and newborn (10 days old) rat hearts. No-flow ischemia (15 min at 37, 30, or 23 degrees C) was applied and reperfusion (20 min at 37 degrees C) was studied after ischemia at 23 or 37 degrees C. Hypothermia during ischemia protected both age groups to a similar degree against ATP decline, which was linear with temperature. Reperfusion after normothermic ischemia resulted in higher ATP levels in newborn hearts with less release of ATP catabolites (purines). We found no age-related differences in lactate release but large differences in purine release. During normoxia, adult hearts released mainly urate (80% of total) and inosine (7%), but newborns released hypoxanthine (64%) and inosine (15%). Early during reperfusion adult hearts released inosine (58%) and adenosine (18%), but newborns released inosine (53%) and hypoxanthine (38%). These data suggested a lower activity of the potentially deleterious enzyme xanthine oxidoreductase in newborn hearts, which was confirmed by enzymatic assay. ATP-catabolite release during reperfusion was less in newborn than adult hearts, and this coincided with lower xanthine oxidase activity.

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ATP breakdown and cardiac function during repetitive cardiac anoxic periods

Scheerder¹,

Maas²,

Nieukoop³

et al. 1991

Journal of Molecular and Cellular Cardiology

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Lower Xanthine Oxidoreductase Activity in Isolated Perfused Hearts if Xanthine Replaces Hypoxanthine as Substrate

Janssen

Jong

Nieukoop

1991

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Effect of glucose on the tolerance to hypoxia of newborn and adult hearts

Achterberg¹,

Nieukoop²,

Dejong³

1987

Journal of Molecular and Cellular Cardiology

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A. S. Nieukoop

Xanthine oxidoreductase activity in perfused hearts of various species, including humans.

Different ATP-catabolism in reperfused adult and newborn rat hearts

ATP breakdown and cardiac function during repetitive cardiac anoxic periods

Lower Xanthine Oxidoreductase Activity in Isolated Perfused Hearts if Xanthine Replaces Hypoxanthine as Substrate

Effect of glucose on the tolerance to hypoxia of newborn and adult hearts

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