Effects of the Long-Term Depletion of Reduced Glutathione in Mice Administered L-Buthionine-S,R-sulfoximine

Effects of the Long-Term Depletion of Reduced Glutathione inMice Administered L-Buthionine-S,R-sulfoximine. SUN, J. D.,RAGSDALE, S. S., BENSON, J. M., AND HENDERSON, R. F. (1985).Fundam. Appl. Toxicol.. 5,913-919. Previous methods to depletein vivo concentrations of reduced glutathione (GSH) have notbeen able to lower tissue GSH levels for extended periods, havebeen toxic, and can alter the metabolism of xenobiotics. A possiblealternative to lower in vivo concentrations of GSH may be theuse of buthionine-S,R-sulfoximine (BSO) in the drinking waterof laboratory animals to inhibit the biosynthesis of GSH. Ithas been previously reported that 20 mM BSO in the drinkingwater given to mice was able to lower GSH levels in a varietyof tissues after 15 days. In order to more fully characterizethe in vivo depletion of GSH in tissues by ingestion of BSOand determine if this method would be suitable in studies requiringdepressed levels of GSH for extended periods, we added differentamounts of this agent to the drinking water given to mice forvarious times up to 28 days. We found that ingested BSO at thehighest concentrtion used in drinking water (30 mM) was ableto maximally lower GSH concentrations in mouse lungs, lung lavagefluid, liver, kidneys, and blood to 59.0 ? 3.6%, 35.0 ? 5.1%,44.3 ? 1.5%, 69.5 ? 3.9%, and 70.0 ? 6.0% of control mice, respectively,for up to 28 days. These lowered concentrations of tissue GSHreturned to control levels after mice were returned to untreateddrinking water for 7 days. The potential toxicity of such treatmentswas also evaluated. Levels of alkaline phosphatase, lactatedehydrogenase, glucose-6-phosphate dehydrogenase, glutathioneperoxidase, and glutathione reductase in lungs and lung lavagefluid, and total and differential cell counts from lung lavagefluid were not different between control and BSO-treated mice.This showed that BSO treatment did not produce indications oflung injury as measured by these biochemical parameters. Serumaspartyl transferase and -glutamyl transpeptidase activitieswere unaffected by the BSO treatments, indicating normal liverfunctions. Lung and liver cytochrome P-450 concentrations werealso not different between controls and BSO-treated animals.Thus, BSO in the drinking water of mice was able to effectivelylower in vivo levels of GSH without eliciting aCUte toxic responses.