Adaptive Changes in Hepatic Glutathione Metabolism in Response to Excess Selenium in Rats

Abstract

Experiments were conducted with rats to determine if administration of excess selenium (Se) alters hepatic glutathione (GSH) metabolism. Se was fed, 6 ppm as Na₂SeO₃, for 6 weeks in a 15% casein, tocopherol-free diet and compared to 0.1 ppm Se. High Se significantly increased the concentrations of hepatic nonprotein sulfhydryls (NPSH) and oxidized glutathione (GSSG) as well as the GSSG:NPSH ratio. Of the NPSH, 94.1 ± 1.7% was shown to be GSH. Similar increases in NPSH, GSSG and GSSG:NPSH due to high Se were seen when the diet was supplemented with methionine (0.3%) and/or vitamin E (100 IU/kg diet) although methionine independently increased NPSH and GSSG. Hepatic glucose-6-P dehydrogenase, glutathione reductase and γ-glutamyl-transpeptidase activities were significantly increased by high Se but cysteine dioxygenase activity was unaffected. An i.p. injection of Na₂SeO₃ (15 µmol Se/kg body weight) significantly increased hepatic GSSG, which was followed by an increase in NPSH(GSH) compared to saline controls. These results indicate that excess Se causes a shift in hepatic GSH toward a more oxidized state. Increases in NPSH(GSH) and in the enzyme activities observed appeared to be adaptive changes initiated in an attempt to maintain a normal GSSG:GSH ratio. Elevated GSSG or the increased GSSG:GSH ratio caused by Se may initiate these adaptations.