Effects of Copper Deficiency on the Activity of the Selenoenzyme Glutathione Peroxidase and on Excretion and Tissue Retention of 75SeO32−

Abstract

Liver and lung activities of the antioxidant enzymes glutathione peroxidase (GSH-Px) and superoxide dismutase (SOD) were determined in control and copper-deficient rats. Decreased activity of SOD was found in liver and decreased activity of the selenoenzyme GSH-Px was found in liver and lung in the copper-deficient animals. The decreased liver activity of GSH-Px could be partially corrected by daily supplementation of the basal diet with sodium selenite. Urinary, fecal and biliary excretion of ⁷⁵SeO₃^2- were determined in controls and copper-deficient rats in order to assess selenium losses. Urinary excretion of ⁷⁵Se was not different in the two groups. Fecal loss of ⁷⁵Se was increased in the copper-deficient animals when compared to controls and biliary excretion was decreased. Tissue retention of ⁷⁵Se was also determined in both groups. Retention of ⁷⁵Se in the copper-deficient rats was increased in brain and lung and decreased in liver. This pattern of tissue retention of ⁷⁵Se is similar to that which occurs in selenium-deficient rats. Copper deficiency in rats results in decreased liver activity of both the copper-containing enzyme SOD and the selenoenzyme GSH-Px. The mechanism of decreased GSH-Px activity is unknown.