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Current Eye Research Volume 5, 1986 - Issue 12
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Original Article

Inhibition of Na, K-ATPase by sodium selenite and reversal by glutathione

Pearl L. Bergad University of Minnesota, Department of Ophthalmology, Box 376 Mayo Memorial Building, Minneapolis, MN, 55455, USA
&
William B. Rathbun University of Minnesota, Department of Ophthalmology, Box 376 Mayo Memorial Building, Minneapolis, MN, 55455, USA
Pages 919-923 | Received 12 Jun 1986, Accepted 29 Oct 1986, Published online: 02 Jul 2009

References

  • Ostadalova I., Babicky A., Obenberger J. Cataract induced by administration of a single dose of sodium selenite to suckling rats. Experientia 1978; 34: 222–223
  • Bunce G. E., Hess J. L. Biochemical changes associated with selenite‐induced cataract in the rat. Exp. Eye Res. 1981; 33: 505–514
  • Shearer T. R., McCormack D. W., DeSart D. J., Britton J. L., Lopez M. T. Histological evaluation of selenium induced cataracts. Exp. Eye Res. 1980; 31: 327–333
  • Ganther H. E. Selenotrisulfides. Formation by the reaction of thiols with selenious acid. Biochemistry 1968; 7: 2898–2905
  • Tsen C. C., Tappel A. L. Catalytic oxidation of glutathione and other sulfhydryl compounds by selenite. J. Biol. Chem. 1958; 233: 1230–1232
  • Hsieh H. S., Ganther H. E. Acid‐volatile selenium formation catalyzed by glutathione reductase. Biochemistry 1975; 14: 1632–1636
  • Shearer T. R., Anderson R. S., Britton J. L. Uptake and distribution of radioactive selenium in cataractous rat lens. Curr. Eye Res. 1982/83; 2: 561–564
  • Fukui H. N., Merola L. M., Fukushi S., Kinoshita J. Nakano mouse cataract. Red Blood Cell and Lens Metabolism, S. Srivastava. Elsevier/North Holland, Inc., AmsterdamNetherlands 1980; 389–404
  • Rathbun W. B., Gilbert H. D. β‐Aminoisobutyrate in the coupled enzymic assay of bovine lens γ‐glutamylcysteine synthetase. Anal. Biochem. 1973; 54: 153–160
  • Cantley L. C., Jr., Josephson L. A slow interconversion between active and inactive states of the (Na, K)‐ATPase. Biochemistry 1976; 15: 5280–5287
  • Bonting S. L. Na‐K activated ATPase and cation transport. Membrane and Ion Transport, E. E. Bittar. Wiley Interscience, London 1970; Vol. 1: 257–363
  • Bonting S. L., De Pont J. J. H. H. M. Cation transport in the lens and the Na‐K‐activated ATPase system. Docum. Ophthal. Proc. Series 1979; 18: 41–49
  • Prohaska J. R., Oh S. H., Hoekstra W. G., Ganther H. E. Glutathione peroxidase: inhibition by cyanide and release of selenium. Biochem. Biophys. Res. Comm. 1977; 74: 64–71
  • Shearer T. R., Ridlington J. W., Goeger D. E., Whanger P. D. Uptake of 75Se in cataractous rat lens proteins. Biological Trace Element Res. 1984; 6: 195–205
  • Unakar N. J., Tsui J. Y. Sodium‐potassium‐dependent ATPase. I. Cytochemical localization in normal and cataractous rat lenses. Invest. Ophthal. Vis. Sci. 1980; 19: 630–641
  • Anderson R. S., Shearer T. R., Claycomb C. K. Selenite‐induced epithelial damage and cortical cataract. Curr. Eye Res. 1986; 5: 53–61
  • Babicky A., Rychter Z., Kopoldova J., Ostadalova I. Age dependence of selenite uptake in rat eye lenses. Exp. Eye Res. 1985; 40: 101–103
  • Bunce G. E., Hess J. L., Batra R. Lens calcium and selenite‐induced cataract. Curr. Eye Res. 1984; 3: 315–320
  • Hightower K. R. The influence of calcium on protein synthesis in the rabbit lens. Invest. Ophthalmol. Vis. Sci. 1983; 24: 1422–1426
  • Hightower K. R., Giblin F. J., Reddy V. N. Changes in the distribution of lens calcium during development of X‐ray cataract. Invest. Ophthalmol. Vis. Sci. 1983; 24: 1188–1193
  • Matsuda H., Giblin F. J., Reddy V. N. The effect of X‐irradiation on Na, K‐ATPase and cation distribution in the rabbit lens. Invest. Ophthalmol. Vis. Sci. 1981; 22: 180–185
  • Tsen C. C., Collier H. B. Selenite as a relatively weak inhibitor of some sulfhydryl enzymes. Nature 1959; 183: 1327–1328
  • Chung A. S., Maines M. D. Effect of selenium on glutathione metabolism. Induction of γ‐glutamylcysteine synthetase and glutathione reductase in the rat liver. Biochem. Pharm 1981; 30: 3217–3223
  • Hill K. E., Burk R. F. Effect of selenium deficiency and vitamin E deficiency on glutathione metabolism in isolated rat hepatocytes. J. Biol. Chem. 1982; 257: 1066810672
  • Ganther H. E. Reduction of the selenotrisulfide derivative of glutathione to a persulfide analog by glutathione reductase. Biochemistry 1971; 10: 4089–4098
  • Gander J. E., Sethna S. S., Rathbun W. B. Bovine lens γ‐glutamylcysteine synthetase: inhibition by glutathione and adenine nucleotides. Eur. J. Biochem. 1983; 133: 635–640

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