Abstract
Lambs, maintained on a selenium-deficient diet supplemented with 94 atom % Na2 27SeO3, have been used as a source of 77Se-enriched erythrocyte glutathione peroxidase. After 5 months on this diet, the percentage of selenium in the enzyme derived from the supplement had reached 88%. From each monthly bleeding of two sheep, approximately 20 mg of 77Se-enriched glutathione peroxidase could be isolated in pure form. Although attempts to observe 77Se NMR signals from the native enzyme labeled with 6,6'-[77Se]diselenobis-(3-nitrobenzoic acid) failed, due to the low solubility of the enzyme, two 77Se resonances were observed after unfolding the enzyme with 8 M urea and reaction with iodoacetamide. These resonances, at 195 and 377 ppm, were from the selenoether alkylamide derivative and from protein cross-linked selenide sulfide species, respectively. Relaxation time measurements on the selenoether at 4.7 and 9.4 teslas enabled an estimate of the chemical shift anisotropy to be made. A value of less than or equal to 262 ppm was determined. Reduction of the denatured selenide sulfide species with dithiothreitol gave an observable 77Se resonance from the Se- moiety at pH 8 and from SeH at pH 4.2. The chemical form of the selenocysteine residue in the resting state enzyme most consistent with formation of the acetamide derivative and the selenide sulfide is Se- or SeH. From the magnitudes of the estimated chemical shift anisotropies, it is predicted that direct observation of selenium in the native enzyme will be feasible if the enzyme concentration can be increased to 0.25 mM tetrameric glutathione peroxidase.
Highlights
Glutathione peroxidase isolated from blood drawn at this time had a ’7Se content of 85%, indicating that 88% of the selenium had been derived from the liver; and human plasma [14, 15]
The assignments are given in SeNB group with glutathione may be expected to result in a. Since such linkages could be between the selenocysteine and 1of 4 cysteine residues in thesame or different subunits, the broadness of the 377 ppm 77Seresonance could arise from microheterogeneity, such as seen in the variation of the 77Se chemical shifts for different cysteine residues linked to SeNB
Reduction of Selenide Sulfide-Cross-linked Glutathione Peroxidase-Another sample of ovine glutathione peroxidase was reduced with excess dithiothreitol at pH 8 under a nitrogen atmosphere to give the Se- form of the enzyme
Summary
The assignments are given in SeNB group with glutathione may be expected to result in a Since such linkages could be between the selenocysteine and 1of 4 cysteine residues in thesame or different subunits, the broadness of the 377 ppm 77Seresonance could arise from microheterogeneity, such as seen in the variation of the 77Se chemical shifts for different cysteine residues linked to SeNB. Another possibility is that the broadness arises from crosslinking between subunits, giving rise to multimeric species, with correspondingly increased correlation timesand line ' . Selenium-77parameters of cysteamine, Cys(Se)NH2,and glutathione peroxidase derivatives
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