Selenium-mediated biochemical changes in Japanese quails

The tissue uptake and distribution of injected ⁷⁵Se]-sodium selenite as a variance with time and as influenced by dietary selenium status was followed in the tissues of Japanese quails,Coturnix coturnix japonica. Quails maintained on a low selenium semipurified (basal) diet and basal diets supplemented with 0.2 and 2.0 ppm selenium as sodium selenite were injected intraperitonially with⁷⁵Se as sodium selenite (2.8 microcuries). The injected⁷⁵Se was monitored in blood, liver, kidney, heart, and testis at 24, 72, and 144 h after injection. Maximal uptake of the injected⁷⁵Se was observed in tissues of quails maintained on basal diet. The uptake of⁷⁵Se in tissues in general was determined by the dietary Se status. Among the organs studied, kidney had the maximal level of⁷⁵Se, 0.2 ppm (μg/g wet tissue) followed by liver, testis, and heart, but testis had the maximal level when the level per milligram of protein was considered, about 3.0 ng/mg protein, followed by liver, kidney, and heart. About 10–20% of the tissue⁷⁵Se was located in the mitochondria and 50–60% in the post-mitochondrial supernatant fractions in all dietary Se levels. Significant incorporation of⁷⁵Se in the mitochondrial membrane was observed. The percent distribution ratio between the membrane and matrix fractions of the mitochondria remained constant at all dietary Se levels which, in liver was 65∶35, in kidney 55∶45, and in testis 75∶25. However, in heart mitochondria, the distribution of⁷⁵Se between membrane and matrix varied with dietary Se status, the ratio being 82∶18 in the basal group, and 72∶28 and 41∶59 in the 0.2 and 2.0 ppm Se-supplemented groups, respectively. This is indicative of a preferential uptake of⁷⁵Se in the mitochondrial membrane in conditions of deficiency. About 40–60% of the mitochondrial membrane-associated⁷⁵Se was released upon Triton treatment in all the organs. Of the membrane-bound⁷⁵Se, about 10–15% was acid-labile in liver and kidney and 25% in the heart tissue. Possibilities of tissue specific roles, especially in the heart mitochondrial membrane-related processes, are indicated for selenium.