Role of glutathione and methylation in the biliary excretion of selenium. the paradoxical effect of sulfobromophthalein

Abstract

Biotransformation of selenite involves both reactions with GSH and methylations. Therefore, the role of GSH, methylation, and the hepatobiliary GSH transporter was investigated in the biliary excretion of selenium in rats injected with sodium [ 75Se]selenite (1–10 μmol/kg, i.v.). Biliary output of selenium exhibited an apparent capacity limitation with an approximately 3 nmol/kg · min maximal rate and a dose-related decline in the fractional excretion. HPLC analysis of bile indicated absence of selenite and presence of selenodiglutathione (GS-Se-SG) and/or its hydrolysis products as the major biliary selenite metabolites. Depletion of hepatic glutathione by D,L-buthionine-[S,R]-sulfoximine or diethyl maleate decreased selenium excretion into bile by 60 and 80%, respectively. In contrast, inhibitors of methylation, i.e. periodate-oxidised adenosine or ethionine doubled the rate of biliary selenium excretion. While indocyanine green—an inhibitor of hepatobiliary GSH transport—failed to influence biliary selenium output, sulfobromophthalein (BSP)—another inhibitor of this sort—dramatically enhanced it. This effect was found to be a function of the dose of both selenite and BSP. The degree of BSP-induced enhancement of the selenium excretion rate gradually increased with elevation of the selenite dose, approaching 20-fold at 10 μmol/kg selenite. In contrast, the stimulatory effect of BSP on biliary selenium output was maximal at 50–100 μmol/kg and gradually lessened with elevation of the BSP dose above 100 μmol/kg. In summary, this study revealed that the biliary excretion of selenium depended on availability of hepatic GSH, probably for formation of GS-Se-SG, the putative cholephilic selenite metabolite. Methylation counteracted selenium excretion into bile and thus may contribute to the apparent capacity limitation of biliary selenium excretion. Finally, selenium output into bile was insensitive to inhibitors of the hepatobiliary GSH transporter, and was enhanced, paradoxically, by BSP several-fold. The mechanism of this unexpected effect is explored in the adjoining article.