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Metabolism of Selenite and Selenomethionine in the Rhesus Monkey^1,2,

Department of Agricultural Chemistry ^* College of Veterinary Medicine, Oregon State University, Corvallis, OR 97331

Female rhesus monkeys were fed a commercial monkey diet and given selenium (Se) as either selenite or selenomethionine (SeMet) in the drinking water for 11 mo. Muscle and liver biopsies were taken initially and at the end of the experiment for determination of Se levels and glutathione peroxidase (GPX) activity. Blood was collected at monthly to bimonthly intervals, and the plasma and erythrocytes were subjected to gel filtration to determine the distribution of Se among proteins of various molecular weights. At the end of the experiment, there was significantly more Se in liver, muscle and hair from the monkeys given SeMet than in tissues from those given selenite, but there were no differences in liver or muscle GPX activity between the two treatment groups. The erythrocyte and plasma Se levels were significantly higher in the monkeys given SeMet than in those receiving selenite, but there were no differences in the GPX levels between these groups. About 68% of erythrocyte Se was associated with GPX in monkeys given selenite whereas only 34% was associated with GPX in those administered SeMet. The correlation coefficient for blood Se level and erythrocyte GPX activity was 0.92 in monkeys given selenite but only 0.37 in those given SeMet. Gel filtration of plasma revealed only one Se peak for plasma from the monkeys given selenite but at least two major Se peaks for plasma from monkeys receiving SeMet. The possible implications of these results for humans are discussed, including the reasons for poor correlations of GPX activity and blood Se levels.

KEY WORDS: • monkeys (Macaca mulatta) • selenium • gel filtration • glutathione peroxidase • plasma • erythrocytes

¹ This study was supported by Public Health Service research grant DK 33272 from the National Institute of Arthritis, Diabetes, Digestive and Kidney Diseases.

² Published with the approval of the Oregon State University Agricultural Experiment Station as technical paper 8574.

Manuscript received 2 November 1988. Revision accepted 7 December 1989.