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Nitric oxide ((*)NO) plays an important role in a number of physiologic processes. Evidence exists that (*)NO, which stimulates soluble guanylate cyclase and enhances cyclic guanosine monophosphate (cGMP) levels, may inhibit platelet activation. In contrast, during platelet activation induced by different agonists, synthesis of (*)NO in platelets occurs. In these studies, production of the stable end-products of (*)NO-nitrite and nitrate (NO(x)) in human platelets, stimulated by different doses of lipopolysaccharide from Proteus mirabilis (LPS; endotoxin), has been evaluated. LPS is a weak platelet agonist that may activate various steps of platelet activation with the generation of reactive oxygen species. The mechanism of platelet activation induced by the endotoxin is not known. The aim of the present study was to measure the level of nitrite and NO(x) in blood platelets treated with LPS and to examine the level of nitrotyrosine in platelet proteins caused by LPS. Our results show that LPS at a low concentration (6.8 ng/ml) caused a decrease (approximately 80%) in the NO(x) level, whereas at higher concentrations (13.6 and 25 ng/ml) it induced an increase in the NO(x) level (approximately 210% and 260%, respectively). Our results indicate that LPS, like other agonists (thrombin, platelet-activating factor), can stimulate (*)NO production in platelets. After incubating platelets with LPS, we also observed a distinct increase in platelet protein nitration (3-nitrotyrosine).

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The binding of Cu(II) to native human, porcine, bovine and ovine ceruloplasmin (Cp) and to bovine serum albumin (bSA) has been studied at pH 7.4, 30 mM barbital buffer. The results were analyzed for the strength and the number of binding sites using Scatchard plots. Evidence for additional copper binding sites in Cp and bSA was obtained suggesting a role for copper ion in the homeostatic regulation of Cu(II) and other metal ions in the serum. In the binding studies the Cp was freed of exogenous Cu(II) by passing it over a Chelex-100 column. Two flow rates were used, 4 ml/hr and 40 ml/hr, which removed Cu(II) of different affinities. Cp passed at the slower flow rate (Cp4) only contained the prosthetic copper atoms. Cp passed at the faster flow rate (Cp40) contained one additional copper atom with a Ka approximately 10(7) M-1. Another 2-6 Cu(II) ion could be added to the Cp40 with an average affinity of about Ka approximately 10(5) M-1. The Cu(II) ions found in Cp provide two distinguishable classes: (1) the prosthetic copper atoms and (2) the exogenous copper atoms that can be removed by Chelex-100. For bSA one copper atom was bound strongly with a Ka value approaching 10(12) - 10(13) M-1 and was not removed by Chelex-100 at any flow rate. A second copper atom was found with a Ka = 5.2 x 10(6) M-1 and was removed by Chelex-100 at 4 ml/hr. Three additional copper atoms were bound with a Ka = 1.6 x 10(5) M-1; they were readily removed by Chelex-100 at 40 ml/hr but were nondialysable.

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In 70 healthy subjects aged from 7 to 60 years centrifuged mixed, resting saliva obtained before breakfast was analysed for the presence of magnesium, iron and copper. The studied group was divided into three subgroups: I--7 to 14 years, II--18 to 28 years, and III--from 48 to 60 years. Significant age-related differences were found in the magnesium content between group I and II and between I and III. No statistically significant differences were observed in the content of iron and copper, and in the values of the iron-copper index between the analysed subgroups depending on sex and on age.

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The preparation and properties of ceruloplasmin from goose blood plasma are described. Ammonium sulfate was used to precipitate the crude protein followed by adsorption and elution from DEAE-Sephadex A-50. Further treatment with an ethanol-chloroform mixture and Sephadex G-200 yielded an intensely blue protein possessing a high degree of chemical purity and biological activity. Goose ceruloplasmin, existing in two forms, appears to be a single polypeptide, apparent Mr121,300, with an A610/A280 ratio of 0.07. Copper represented 0.32%, which corresponded to six atoms of copper per protein molecule. Although the amount of EPR-detectable copper was the same as in mammalian ceruloplasmins there were some differences in EPR parameters, mainly in A parallel. Goose ceruloplasmin's amino acid composition, although similar in many residues to human ceruloplasmin, was lower in tyrosine, cystine/cysteine, and acidic amino acids. Valine was found as the N-terminal amino acid. Hexose, hexosamine, sialic acid, and fucose accounted for 6.65% of the weight. Goose protein contained only half the sialic acid of human ceruloplasmin. Two values for Km using either p-phenylenediamine (0.64 and 0.053 mM) or o-dianisidine (0.76 and 0.15 mM) were evaluated from Lineweaver-Burk plots. EPR studies on reactions with water radiolysis products at cryogenic temperatures allowed us to discover that goose ceruloplasmin, like human and bovine ceruloplasmins, possesses superoxide dismutase activity.

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The kinetics of decay in absorbance at 610 nm in the reaction of cysteine with ceruloplasmin was biphasic under anaerobic conditions. Admission of oxygen to the bleached ceruloplasmin restored the blue color to about 75% of the original value. However, under aerobic or anaerobic conditions an initial bleaching corresponded to a 25% decrease in blue color. This change was irreversible and remained after removal of excess cysteine from the reaction mixture by dialysis. There was no correlation between transient and steady-state kinetic parameters. Circular dichroism measurements showed a characteristic reduction in the negative band at 450 nm, which is specific for type 1b copper. Isolation and further studies on cysteine-modified ceruloplasmin with a lower A610/A280 ratio showed less than 10% reduction in enzyme activity toward p-phenylenediamine and o-dianisidine. Evidence is also presented that ceruloplasmin catalyzes the oxidation of cysteine with a one-electron reduction of oxygen and the formation of superoxide ion, which is then converted to H2O2 by ceruloplasmin. The effect of superoxide dismutase and catalase also confirms the presence of superoxide and H2O2. In sum, these data show that a permanent reduction of type 1b copper occurred when cysteine was used as a substrate. We conclude that there is a single electron transfer from cysteine directly to oxygen using one specific copper of ceruloplasmin, type 1b.

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Denaturation of human and porcine coeruloplasmins in alkaline medium (pH 11.0) followed by neutralization and precipitation with ethanol-chloroform mixture resulted in separation of the two molecular forms: soluble and insoluble in NaCl solution. The form soluble in saline shared the properties of the native protein but remained unchanged on repeated alkaline denaturation. The occurrence of two molecular forms of plasma coeruloplasmin of different lability to alkaline medium has been suggested.

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Several features of the catalytic oxidation of cysteine by ceruloplasmin and nonenzymic Cu(II) at pH 7 have been compared. The oxidation of cysteine by ceruloplasmin has several properties in common with the Cu(II) catalyzed oxidation of cysteine: pH maxima, thiol specificity, lack of inhibition by anions, and high sensitivity to inhibition by copper complexing reagents. These two catalysts differed in their molecular activity, in their ability to oxidize penicillamine and thioglycolate, and in that H2O2 was produced as a primary product only during Cu(II) oxidation. The oxidation of cysteine by ceruloplasmin was compared also with the ceruloplasmin catalyzed oxidation of o-dianisidine, a classical pH 5.5 substrate. The mechanism of the oxidation of cysteine by ceruloplasmin at pH 7 differed from that of o-dianisidine oxidation because the latter substrate was inhibited by anions but not by copper complexing agents. Spectral and other data suggest that during the ceruloplasmin reaction with cysteine there is a one electron transfer from cysteine to ceruloplasmin resulting in the specific reduction of type 1b Cu(II).

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A rapid and simole procedure for isolation of ceruloplasmin from porcine and bovine blood sera was elaborated; it involves DEAE-Sephadex A-50 chromatography, precipitation with an ethanol-chloroform mixture plus extraction with saline, and preparative polyacrylamide-gel electrophoresis. The preparations obtained showed a high degree of electrophoretic homogeneity and a higher A610/A280 ratio and specific activity than the preparations obtained by the modified method of Broman & Kjellin (Biochem. Biophys. Acta, 82, 101-109, 1964).

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