| The objective of our study was to investigate the effect of selenium on selenoprotein W. Western blot analysis indicated that selenoprotein W is present in muscle, brain, testis and spleen of rat tissues. Tissue distribution of selenoprotein W was not altered in rats fed various selenium levels. Among muscle, brain, testis and spleen, selenoprotein W in muscle was most responsive to selenium status, but brain appeared to be the least responsive organ. Northern blot data indicated that selenoprotein W mRNA in rat muscle increased significantly as levels of selenium supplementation increased. Western blot data indicate that selenoprotein W in rat muscle is non-detectable until selenium supplementation increased to 0.06 ppm, and the level of selenoprotein W in muscle reached a plateau at 1 ppm selenium supplementation where no further increase occurred. Except brain, selenoprotein W was higher in all tissues in sheep fed a selenium supplemented diet than in those fed the deficient diet. However, selenoprotein W levels were not different in brains between selenium-deficient and selenium-supplemented sheep. In contrast to rats, selenoprotein W was as high in the heart as in the muscle of selenium-supplemented sheep.; In the study with L8 muscle cells, selenoprotein W did not change significantly during cell differentiation, indicating that selenoprotein W was not affected by muscle cell differentiation. Selenite was the most effective form of selenium for selenoprotein W synthesis in these muscle cells. Selenoprotein W level reached a plateau when L8 myotubes were incubated with 10{dollar}sp{lcub}-7{rcub}{dollar} M selenium, whereas selenoprotein W mRNA reached a plateau with 10{dollar}sp{lcub}-8{rcub}{dollar} M selenium. |
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