Abstract
The metabolism of [75Se]selenite was studied in rhesus monkeys. In blood samples taken various times after injection, Sephadex G-150 gel filtration revealed that the majority of the 75Se was associated with hemoglobin and low-molecular-weight compounds in erythrocytes up to 24 hours after selenium injection. Subsequently a gradual increase of 75Se occurred in glutathione peroxidase (GSH-Px) with a concurrent decrease of label with hemoglobin. In contrast to the erythrocytes, over 80% of the labeled selenium in plasma was associated with one peak 3 hours and later after injection. This major protein eluted at a position similar to GSH-Px on gel filtration, but subsequent chromatography on diethylaminoethyl (DEAE)-Sephacel separated the radiolabeled protein from GSH-Px. Gel filtration of heart, muscle, brain and pancreas cytosol revealed two major selenium-containing proteins, whereas one was predominant in liver and kidney. The major selenium peak was associated with GSH-Px in liver but not in the kidney. GSH-Px activity with either organic or inorganic peroxides as substrates and glutathione transferase activity were higher in liver than kidney.
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