Cystathionine γ-lyase contributes to selenomethionine detoxification and cytosolic glutathione peroxidase biosynthesis in mouse liver

We earlier found that seleno-l-methionine (L-SeMet) as a food source of selenium (Se) is directly converted to methylselenol (CH3SeH), α-ketobutyrate, and ammonia by the mouse hepatic cystathionine γ-lyase. The purpose of this study was to clarify the biological role of cystathionine γ-lyase in Se detoxification and cytosolic glutathione peroxidase (cGPx) biosynthesis because another metabolic pathway to CH3SeH via seleno-l-cystathionine and seleno-l-cysteine (l-SeCyH) from l-SeMet has been shown by several enzymatic reactions. When mice were treated with either toxic doses of l-SeMet or a Se-deficient diet, the cystathionine γ-lyase activity for l-SeMet was invariable, suggesting that this enzyme was effective in both detoxification and biotransformation of Se. Concerning Se biotransformation into cGPx, production of H2Se as the possible precursor was not observed by the in vitro reaction of the liver cytosol with CH3SeH. When l-SeMet was administered at the nutritional dose to mice fed a Se-deficient diet, levels of both cGPx mRNA and cGPx protein were significantly restored. This recovery was not comparatively suppressed by coadministration of periodate-oxidized adenosine, an inhibitor of S-adenosylhomo-cystenase, where the conversion of l-SeMet to l-SeCyH is inhibited. However, the recovery was strongly suppressed when propargylglycine, an inhibitor of cystathioine γ-lyase that catalyzes the α,γ-elimination reaction of both l-SeMet and seleno-l-cystathionine, was treated. These results suggest that cystathionine γ-lyase is a notable enzyme, in SeMet metabolism and that CH3SeH produced by the enzymatic reaction is utilized for cGPx biosynthesis.