EC:1.16.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.16.3.1 (ceruloplasmin)
5,074 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The degree of complement activation produced by hydrogen peroxide was estimated by the inhibition of serum homolytic activity (% IHA). Sera from patients with systemic lupus erythematosus and psoriasis vulgaris were resistant to hydrogen-peroxide-mediated complement activation. %IHA negatively correlated with ceruloplasmin level or catalase activity in systemic lupus erythematosus sera, but did not correlate with transferrin level. The addition of free metal ions, FeCl2 or CuCl2, promoted hydrogen-peroxide-mediated complement activation. These results suggest that hydroxyl radical is involved in complement activation and that the factors responsible for the insensitivity of pathological sera to H2O2 are catalase and ceruloplasmin in the sera. Human skin fibroblasts generate superoxide and tumor necrosis factor enhanced it, but interleukin-1 beta inhibited it. Normal serum cultured with fibroblasts for 24 h showed complement activation via catalase-inhibitable process, suggesting that hydrogen peroxide has an important role in fibroblast-mediated complement activation. It is speculated that fibroblasts and complement activation by oxygen radicals have an important role in inflammation and subsequent tissue damage at the site of skin lesion.
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PMID:Possible role of H2O2-mediated complement activation and cytokines-mediated fibroblasts superoxide generation on skin inflammation. 255 Feb 83

The reaction of H2O2 with resting metmyoglobin (MetMb), methaemoglobin (MetHb) and cytochrome-c (Cyt-c) was studied in the Soret and visible regions. The differences between the original and the final peak heights of the native haemproteins at 408 nm was found to be directly proportional to the loss of iron from the molecule. The release of iron from haemproteins was studied in a system generating H2O2 continuously at a low rate by an enzymic system, or by addition of large amounts of H2O2. Cytochrome-c, methaemoglobin and metmyoglobin during interaction with H2O2 at a concentration of 200 microM release 40%, 20% and 3%, respectively, of molecular iron after 10 min. The inhibition of haem degradation and iron release by enzymatically-generated H2O2 was determined using several hydroxyl radical scavengers, reducing agents and antioxienzymes, such as superoxide dismutase, catalase and caeruloplasmin.
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PMID:Iron release from metmyoglobin, methaemoglobin and cytochrome c by a system generating hydrogen peroxide. 285 13

The oxidation of 2-keto-4-thiomethyl butyric acid (KTBA) and methionine to ethylene has been used to evaluate generation of ferryl species or hydroxyl radicals by H2O2-activated haemproteins or free ferric ions. Hydrogen peroxide was generated by a glucose oxidase-glucose system at a rate of 1 microM/min. Free ferric in the presence of H2O2 oxidizes KTBA, and this was highly inhibited by hydroxyl radical scavengers, caeruloplasmin, superoxide dismutase (SOD) and EDTA. However, when metmyoglobin, methaemoglobin (MtHb) or horseradish peroxidase (HRP) were tested in the same model system, hydroxyl radical scavengers suppressed partially KTBA oxidation and caeruloplasmin, SOD and EDTA failed to inhibit the reaction. Cytochrome-c was found to be a weak promoter of KTBA oxidation in the presence of H2O2. Methionine was oxidized to ethylene by an active system which generates hydroxyl radicals, but not by H2O2-activated metmyoglobin. Ferric ions chelated to membranes or ADP in the presence of H2O2 generated enzymatically, initiated membranal lipid peroxidation only in the presence of ascorbic acid, and this was inhibited by EDTA. In contrast, metmyoglobin and methaemoglobin activated by H2O2 generated by the same system, initiated membranal lipid peroxidation and this was not inhibited by EDTA. It is concluded that ferryl and not HO. is the main oxidant in systems containing myoglobin and haemoglobin activated by low concentrations of H2O2.
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PMID:The generation of ferryl or hydroxyl radicals during interaction of haemproteins with hydrogen peroxide. 285 14

Like superoxide dismutase (SOD), human ceruloplasmin (Cp) scavenges superoxide anion radicals injected into the solution with the aid a high-voltage generator, hydrogen peroxide being the product of reaction. The O2-/H2O2 ratio is close to 2:1. The dismutase activity of Cp is about 1500 times lower than that of Cu, Zn-SOD isolated from human erythrocytes. The dismutation of O2- accomplished by SOD, "free" copper ions, native Cp or partly copper-depleted Cp, is inhibited with equal efficiency by cyanide. All the copper ions of the multicopper catalytic center of Cp are not essentially required for the dismutation of O2-, since the enzyme depleted of all type 2 Cu2+ and partly of type 1 Cu2+ lost none of its dismutase activity. Type 1 copper ions of Cp seem to play the leading role in the one-electron transfer occurring upon dismutation of O2-.
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PMID:[Dismutation of superoxide radicals by ceruloplasmin--details of the mechanism]. 285 27

The mechanism by which D-Penicillamine is effective in the treatment of rheumatoid arthritis has been investigated. The results indicate that D-Penicillamine in synergism with copper or ceruloplasmin in vitro inhibits the proliferation of T-lymphocytes and the activity of helper T-cells in supporting the generation of antibody-forming cells. This effect is mediated by the production of H2O2. The significance of these findings for in vivo processes is discussed.
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PMID:Suggested mode of action of D-penicillamine as an immunosuppressive agent in rheumatoid arthritis. 297 7

Partially-reduced forms of dioxygen or "oxy-radicals" (superoxide, O2-/HO2; hydrogen peroxide, H2O2; hydroxyl radical X OH) and oxidants of comparable reactivity are implicated in an increasing number of physiological, toxicological, and pathological states. Transition metal catalysis is recognized as being integral to the generation and the reactions of these activated oxygen species. Factors such as pH and chelation govern the reactivity of the transition metals with dioxygen and "oxy-radicals" and therefore influence the apparent mechanisms by which oxidative damage to phospholipids, DNA, and other biomolecules is initiated. In biological systems the concentrations of redox-active transition metals capable of catalyzing these reactions appears to be relatively low. However, under certain conditions metal storage and transport proteins (ferritin, transferrin, ceruloplasmin, etc.) may furnish additional redox active metals.
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PMID:Role of metals in oxygen radical reactions. 301 69

The two Type 1 (blue) copper-binding sites of caeruloplasmin were spectroscopically differentiated by the kinetic analysis of the e.p.r. spectra during the redox cycle. One blue copper, with a hyperfine splitting constant (A parallel) of 6.8 mT, which was rapidly reduced, was not reoxidized by oxygen, whereas it was reoxidized by H2O2. The other blue copper (A parallel = 5.8 mT), which was reduced slowly, was rapidly reoxidized by either oxygen or H2O2. A conformational change of the Type 2 copper was concomitant with the fast reduction of Type 1 copper, whereas its reduction occurred during the slow phase. This sequence of events was reversed in the reoxidation step, that is, the Type 2 copper reappeared rapidly as the species with altered conformation and reverted to the symmetry typical of the native state in the slow phase. The specific reaction of a blue-copper site with the H2O2 can tentatively be related to the established ability of caeruloplasmin to prevent 'oxidative' attack of proteins and lipids.
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PMID:An e.p.r. study of the non-equivalence of the copper sites of caeruloplasmin. 302 45

We have examined whether the toxic effects of homocysteine on cultured endothelial cells could result from the formation and action of hydrogen peroxide. In initial experiments with a cell-free system, micromolar amounts of copper were found to catalyze an oxygen-dependent oxidation of homocysteine. The molar ratio of homocysteine oxidized to oxygen consumed was approximately 4.0, which suggests that oxygen was reduced to water. The addition of catalase, however, decreased oxygen consumption by nearly one-half, which suggests that H2O2 was formed during the reaction. Confirming this hypothesis, H2O2 formation was detected using the horseradish peroxidase-dependent oxidation of fluorescent scopoletin. Ceruloplasmin was also found to catalyze oxidation of homocysteine and generation of H2O2 in molar amounts equivalent to copper sulfate. Finally, homocysteine oxidation was catalyzed by normal human serum in a concentration-dependent manner. Using cultured human and bovine endothelial cells, we found that homocysteine plus copper could lyse the cells in a dose-dependent manner, an effect that was completely prevented by catalase. Homocystine plus copper was not toxic to the cells. Specific injury to endothelial cells was seen only after 4 h of incubation with homocysteine plus copper. Confirming the biochemical studies, ceruloplasmin was also found to be equivalent to Cu++ in its ability to cause injury to endothelial cells in the presence of homocysteine. Since elevated levels of homocysteine have been implicated in premature development of atherosclerosis, these findings may be relevant to the mechanism of some types of chronic vascular injury.
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PMID:Endothelial cell injury due to copper-catalyzed hydrogen peroxide generation from homocysteine. 351 79

The capacity of D-penicillamine (DP) to produce or scavenge hydrogen peroxide was investigated. DP added to copper produced H2O2. Greater production was observed with copper sulfate than with copper bound to ceruloplasmin. In contrast, DP in the absence of copper scavenged H2O2, as measured in a direct assay. Furthermore, DP or D-cysteine alone reversed H2O2-mediated inhibition of concanavalin A-stimulated mononuclear cell proliferation. These opposing immunomodulating properties of DP may be relevant to its toxic or therapeutic actions in rheumatoid arthritis.
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PMID:In vitro production and scavenging of hydrogen peroxide by D-penicillamine. Relationship to copper availability. 402 87

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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PMID:The reaction of cysteine with ceruloplasmin copper. 608 86

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