Antioxidant defense mechanisms in the female rat: interactions with alcohol, copper, and type of dietary carbohydrate

Abstract

The purpose of this study was to examine the effects of ethanol, type of dietary carbohydrate (fructose vs. starch), and levels of dietary copper (deficient vs. adequate) on antioxidant defense mechanism in the female rat. The consumption of 20% ethanol in the drinking water depressed growth rate due to a reduction of feed efficiency. Ethanol also lowered hepatic copper concentration, but had no effect on hepatic iron. Among the three antioxidant enzymes studied [i.e., superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase], only catalase activity was increased by ethanol. This effect was independent of copper or the type of dietary carbohydrate. As expected, copper deficiency dramatically reduced SOD. Copper deficiency also reduced GSH-Px activity; however, the combination of fructose feeding with copper deficiency caused a further reduction in GSH-Px. The data show that copper deficiency, per se, and the combination of copper deficiency with fructose feeding lower the antioxidant defense system in female rats.