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)

Ceruloplasmin was isolated to purity from chicken plasma by a single-step chromatography on amino-ethyl-derivatized Sepharose. Molecular mass, as estimated by nonreducing sodium dodecyl sulfate-electrophoresis, was approximately 140 kDa, slightly higher than that found for ceruloplasmins from other sources. Specific activity as p-phenylenediamine oxidase was five times higher than that reported for mammalian ceruloplasmins. The copper content was estimated to be 5.01 +/- 0.35 atoms per protein molecule, 50% of which was EPR-detectable. The EPR spectrum was completely devoid of any signal typical of the type 2 copper as seen in the other blue multicopper oxidases and in ceruloplasmin from mammalian species. Anaerobic reduction of chicken ceruloplasmin resulted in the disappearance of the 330 nm optical band typical of type 3 copper, which was followed by the appearance of an EPR signal typical of type 2 copper. Subsequently, the type 1 copper and finally the newly formed type 2 copper were reduced. The original optical and EPR spectra were recovered within few minutes upon exposure of reduced ceruloplasmin to air. It is concluded that in oxidized chicken ceruloplasmin type 2 copper interacts with the diamagnetic pair responsible for the 330 nm absorption in such a way as to become EPR-undetectable and that the interaction is relieved by reduction of the pair. Whether this interaction is intrinsically weaker in other blue oxidases and ceruloplasmins studied or is lost with standard preparation procedures remains to be established.
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PMID:Chicken ceruloplasmin. Evidence in support of a trinuclear cluster involving type 2 and 3 copper centers. 283 79

The ability of serum proteins (albumin, immunoglobulin G) and protein antioxidants (ceruloplasmin, superoxide dismutase and transferrin) to react with O2-. and OCl-, was studied. The interaction between serum proteins and OCl- was shown to be non-specific. Ceruloplasmin is the most effective OCl- trapping protein, and it reacts with O2-. with a considerable efficiency. Therefore, ceruloplasmin is supposed to be the main scavenger of toxic oxygen species generated by stimulated neutrophils.
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PMID:A comparative study of serum proteins ability to scavenge active oxygen species: O2-. and OCl-. 285 33

1. Serum samples were collected from ten foals at predetermined times during the first 12 months following birth and zinc and copper concentrations and ceruloplasmin activity were evaluated. 2. Serum zinc concentrations were found to be quite variable with respect to age (range = 67-95 micrograms/dl). 3. Serum copper concentrations increased in a linear fashion from day 0 to day 28 before levelling off at 190-247 micrograms/dl. 4. Ceruloplasmin activity was found to correlate with the concentration of serum copper (r = 0.92) and reached a plateau at an activity of 30-38 IU by day 28.
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PMID:The postnatal development of serum zinc, copper and ceruloplasmin in the horse. 288 41

The biochemistry of the essential trace element copper has been outlined. Following absorption, Cu(II) is transported by serum albumin and transcuprein to the liver where it is incorporated into the plasma Cu-protein, ceruloplasmin, or, possibly, stored as Cu-metallothionein or as superoxide dismutase. Ceruloplasmin is the long-term copper transporter and carries Cu(II) to the tissues for the biosynthesis of key Cu(II) enzymes, especially cytochrome c oxidase, lysyl oxidase and others. The production of copper enzymes raises many new questions about the metabolism of copper. Since ceruloplasmin is the centerpiece of copper metabolism and function, we conclude with more details on its chemistry and multifunctions. This Cu-protein of 132,000 daltons has now been totally sequenced and the copper-containing active sites located. Finally, we have proposed seven possible functions for ceruloplasmin, and there is now good evidence for the existence of ceruloplasmin receptors to expedite some of these functions.
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PMID:Perspectives on copper biochemistry. 300 68

Ceruloplasmin and extracellular-superoxide dismutase are similar in physical properties. Both are found in extracellular fluids and both are scavengers of the superoxide radical. The relationship between the two proteins was further explored in the present investigation. Ceruloplasmin preparations were found to be commonly contaminated with extracellular-superoxide dismutase. In one preparation, 80% of the superoxide dismutase activity was due to extracellular-superoxide dismutase. Ceruloplasmin, freed from contaminating superoxide dismutase, was found to catalytically dismute the superoxide anion radical with a rate constant of about 1.0 X 10(4) M-1 s-1 per copper atom. Under physiological conditions with a low rate of superoxide production, ceruloplasmin preferentially reacts stoichiometrically with the superoxide radical with a rate constant of about 2 X 10(5) M-1 s-1 per copper atom. Under such conditions, the reaction does not result in hydrogen peroxide formation. From the kinetic data obtained it was calculated that in normal human plasma, extracellular-superoxide dismutase will scavenge about twice as much superoxide as ceruloplasmin. Using immobilized antibodies toward extracellular superoxide dismutase and ceruloplasmin, no antigenic cross-reactivity between the two proteins could be detected.
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PMID:Ceruloplasmin, extracellular-superoxide dismutase, and scavenging of superoxide anion radicals. 303 98

The levels of copper and ceruloplasmin in the cerebrospinal fluid (CSF) of patients with Wilson disease were investigated. Ceruloplasmin concentrations in the CSF of all patients were almost the same but were lower than those of the controls. CSF copper concentrations in patients without neurologic signs were within the normal range, 22 +/- 6 ng/ml. In contrast, CSF copper concentrations in patients with neurologic signs (69-98 ng/ml) were significantly higher than the normal levels before and at the beginning of the treatment with D-penicillamine; it gradually decreased in response to treatment. These results suggest that the appearance of neurologic manifestations in Wilson disease is not related to the CSF ceruloplasmin concentration. The CSF copper concentration in this disease appears to reflect copper accumulation in the brain and may be useful as a marker for monitoring therapy.
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PMID:Does CSF copper level in Wilson disease reflect copper accumulation in the brain? 323 7

Ceruloplasmin is one of the most important antioxidant proteins in serum. Ceruloplasmin functions as a ferroxidase that oxidizes iron to the Fe3+ state, thereby preventing Fe2+-catalyzed lipid peroxidation and cellular damage. Despite increased antigenic amounts of ceruloplasmin, cigarette smoker serum has previously been shown to exhibit significantly less antioxidant activity than non-smoker serum. We demonstrate that the decreased antioxidant activity of cigarette smoker serum may be explained by a decrease in ceruloplasmin ferroxidase activity. Smokers had a 14% decrease in serum ceruloplasmin ferroxidase activity (units per milliliter) compared with nonsmokers. There was a 24% decrease in ferroxidase activity per milligram of ceruloplasmin in smokers compared with nonsmokers (0.32 +/- 0.009 U/mg vs 0.42 +/- 0.020 U/mg, p less than 0.005). Smoker serum also contained significantly less ceruloplasmin-specific antioxidant activity than nonsmoker serum. These observations may explain the decrement in smoker serum antioxidant activity that could predispose cigarette smokers to increased oxidant injury.
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PMID:Decreased ceruloplasmin ferroxidase activity in cigarette smokers. 337 10

Ceruloplasmin and transferrin blood serum levels were measured during bacterial infection of the CNS. A decrease in ceruloplasmin level and a gradual increase in transferrin level were observed on the 5th day of the disease. The minimum ceruloplasmin level was observed simultaneously with the maximum MDA and GOT levels. There was a close correlation between the time course of ceruloplasmin, transferrin, MDA and GOT changes and the clinical condition of the patient.
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PMID:[Role of ceruloplasmin, transferrin and lipid peroxidation in bacterial infections of the CNS]. 339 May 84

Ceruloplasmin is a blue copper-containing serum glycoprotein with oxidase activity. It as been proposed that the physiological function of ceruloplasmin involves the oxidation of ferrous iron and its incorporation into apotransferrin. There are several reports demonstrating that ceruloplasmin is made up of multiple chains. Ryden has questioned the multichain structure of ceruloplasmin from human, pig, horse and rabbit sera, arguing that the dissociation observed by previous workers could be attributed to cleavage of labile bands in the protein by enzymatic contaminants present in commercial preparations of the protein. By introducing epsilon-aminocaproic acid, a general protease inhibitor, at the beginning of the enzyme preparation, Ryden proposed a single-chain structure for ceruloplasmin. On the contrary the results presented by Freeman and Daniel showed that human ceruloplasmin is a multichain protein. In this paper we report a new purification method for horse ceruloplasmin which furnishes a homogeneous protein preparation in high yield and with good reproducibility. This procedure allowed to determine with greater accuracy the molecular mass of the protein, of 120,000 daltons by gel chromatography and 115,000 daltons by SDS gel electrophoresis. The protein is composed of one unit only and contains 6 copper atoms. Horse ceruloplasmin is a glycoprotein containing about 20% carbohydrate by weight.
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PMID:Horse plasma ceruloplasmin molecular weight and subunit analysis. 343 54

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

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