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)

Rat ceruloplasmin (rCp) has been labeled with the fluorophores fluorescein and rhodamine by using the isothiocyanate derivatives (FITC, RBITC). High p-phenylenediamine oxidase activity of the resulting conjugates was observed (70-90% of native activity). Polyacrylamide gel electrophoresis showed fluorescein-labeled rCp (FITC-rCp) had an increased mobility, while rhodamine-labeled rCp (RBITC-rCp) showed no increase in mobility when compared to native rCp. RBITC-rCp was tested as a probe for ceruloplasmin receptors on rat erythrocytes using fluorescence microscopy to detect membrane binding. Film negatives of blood smears exposed under identical conditions were analyzed by microdensitometry to give relative optical densities for the amount of RBITC-rCp bound per unit area of the plasma membrane. With this technique, binding of rCp was observed to be saturable, reversible, and specific. Competition of the protein ligands superoxide dismutase, catalase, and unlabeled rCp against RBITC-rCp already bound on erythrocytes showed that only rCp could displace the bound RBITC-rCp with 32% specific binding being observed. Low levels of membrane binding were seen after the erythrocytes had been trypsin treated. Platelet binding was also detected and it was saturable, reversible, and trypsin sensitive. However, only 20% of the bound RBITC-rCp could be displaced by rCp. These studies demonstrate a versatile technique for detection and localization of Cp receptors.
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PMID:Detection of rat ceruloplasmin receptors using fluorescence microscopy and microdensitometry. 217 23

The ethanol-preferring (EP) rats have a higher level of lipid peroxidation in the brain and blood serum than the water-preferring rats. At the same time it was found that EP rats have a decreased antioxidant enzyme activity in the brain tissue (catalase and superoxide dismutase) and blood serum (ceruloplasmin and superoxide dismutase). This antioxidant status can lead to a greater sensitivity of the EP rat brain to ethanol toxicity. The increased catalase activity in blood of EP rats reflects the elevated metabolic tolerance of this group of animals to ethanol.
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PMID:[The characteristics of the enzyme status of the antioxidant protection and the level of lipid peroxidation in the brain tissue and blood of rats with differing preferences for ethanol]. 225 54

The comparison of protective effects of native ceruloplasmin (CP) and of preparation CP1 containing carbohydrate fragment GlcNAc(beta(1,4]GlcNAc which specifically binds on RBC (alpha(1,6)Fuc receptors showed that CP1 exhibits much more powerful protective effect on RBC in copper-induced lysis. It was found, however, that CP2 (native CP devoided of CP1) protected RBC as well as CP despite its inability of binding to RBC membrane. CP and CP1 in a similar way decrease copper concentration in RBC. It was shown that copper accumulation and GSH decrease in RBC are two independent and concurrent processes; the copper and GSH concentrations are not the factors determining RBC resistance to hemolysis. CP inhibits the reaction of superoxide radicals generation as a result of Cu interaction with -SH groups of RBC membrane; the effect is more pronounced than the effect of catalase or superoxide dismutase. CP and CP1 preparations equally inhibit this reaction. Apparently CP reception on RBC leads not only to membrane protection from superoxide and hydroxyl radicals but represents a more complex process.
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PMID:The protective effect of different forms of human ceruloplasmin in copper-induced lysis of red blood cells. 228 81

Preexposure of male Lewis rats to Cd aerosols (1.6 mg Cd/m3, 3 hr/day, 5 days/week, for 4 weeks) has been found to produce a marked degree of tolerance to hyperoxia (greater than 96% O2). Cd-pretreated animals were still alive after 8 days of continuous exposure to oxygen. In contrast, hyperoxia was fatal to all air-preexposed animals within 54-62 hr. Lungs of Cd-pretreated animals were characterized by hyperplasia and/or hypertrophy of the type II alveolar cell compartment which may have enabled them to more rapidly repair oxidant damage resulting from hyperoxia. Cd pretreatment augmented enzymatic antioxidant enzyme activities, including total lung Se-dependent glutathione peroxidase, catalase, glutathione reductase, and Mn-superoxide dismutase, and caused elevations in pulmonary nonprotein thiols and metallothionein (MT). MT, a thiol-rich, low-molecular-weight protein, was 400-fold higher in Cd-pretreated animals and bound more than 80% of the total Cd in the lung. We have hypothesized that MT serves as an expendable yet renewable cellular target for free radical damage during oxygen exposure. A systemic acute-phase response, characterized by alterations in plasma Zn and Cu concentrations and increased ceruloplasmin oxidase activity, was initiated in Cd-pretreated animals by the fourth day of hyperoxia. This response was accompanied by improvement in pulmonary status and extensive pulmonary repair.
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PMID:Cross-tolerance to hyperoxia following cadmium aerosol pretreatment. 233 May 88

The diabetogenic action of alloxan is believed to involve oxygen free radicals and iron. Incubation of glutathione (GSH) and alloxan with rat liver ferritin resulted in release of ferrous iron as assayed by spectrophotometric detection of ferrous-bathophenanthroline complex formation. Neither GSH nor alloxan alone mediated iron release from ferritin. Superoxide dismutase (SOD) and catalase did not affect initial rates of iron release whereas ceruloplasmin was an effective inhibitor of iron release. The reaction of GSH with alloxan resulted in the formation of the alloxan radical which was detected by ESR spectroscopy and by following the increase in absorbance at 310nm. In both instances, the addition of ferritin resulted in diminished alloxan radical detection. Incubation of GSH, alloxan, and ferritin with phospholipid liposomes also resulted in lipid peroxidation. Lipid peroxidation did not occur in the absence of ferritin. The rates of lipid peroxidation were not affected by the addition of SOD or catalase, but were inhibited by ceruloplasmin. These results suggest that the alloxan radical releases iron from ferritin and indicates that ferritin iron may be involved in alloxan-promoted lipid peroxidation.
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PMID:Alloxan- and glutathione-dependent ferritin iron release and lipid peroxidation. 253 98

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

In the lower respiratory tract, alveolar cells are exposed to an oxidative challenge related to the exposure to both high levels of molecular oxygen and oxidants generated by activated phagocytes. The antioxidant defence system of alveolar cells has been thoroughly investigated, but some reports also suggest the presence of antioxidants in the layer of fluid lining the alveoli. In this report we present our studies on the antioxidant activities present in the bronchoalveolar lavage of adult rabbits. We studied total radical-trapping antioxidant capacity of surfactant and the activity of antiperoxidant enzymes. Although previous reports suggested the presence of radical scavengers, we did not find any antioxidant activity in purified surfactant. On the other hand the alveolar-lining fluid seems to contain superoxide dismutase, catalase and glutathione peroxidase, but not appreciable amounts of ferroxidase activity, as previously suggested. These enzymes could protect alveolar cells by catalyzing the dismutation of superoxide and hydrogen peroxide. The presence of glutathione peroxidase in the alveolar space seems to be physiologically relevant since the alveolar lining fluid also contains millimolar amounts of glutathione. Our studies support the concept that the alveolar lining fluid contains an active defence system against products of partial reduction of oxygen, but not chain-breaker antioxidants.
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PMID:Antioxidant defences of rabbit alveolar lining fluid. 281 80

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 genetic structure of two Chukot Evens subpopulations (314 individuals) for electrophoretic protein systems and taste sensitivity to PTC was studied. 17 of the 39 loci were polymorphic (43.59%). The following systems were completely monomorphic: diaphorase NAD H (Dia); glucose-6-phosphate dehydrogenase (G-6-PD); glutamatoxalate transaminase (GOT); carbonic anhydrase (Ca-1); catalase (Ct), lactate dehydrogenase (loci LDH-A and LDH-B); leucine aminopeptidase (Lap); malate dehydrogenase (MDH); purine nucleoside phosphorylase (PNP); superoxide phosphorylase (PNP); superoxide dismutase (SOD); phosphoglucomutase-2 (PGM2); cholinesterase (locus E1); red cell esterase (4 loci); albumin (Alb); hemoglobin (Hb A and B); ceruloplasmin (Cp); and blood, gren, using the standard method. The following systems were polymorphic: red cell acid phosphatase (AcP); phosphoglucomutase-1 (PGM1); 6-phosphogluconate dehydrogenase (PGD); glutamatepyruvate transaminase (GPT); glyoxalase-1 (GLO-1); esterase (EsD); adenilatkinase (AK); alkaline phosphatase (Pp); cholinesterase (locus E2); haptoglobin (Hp); transferrin (Tf); group-specific component (Gc) and ABO, MN, Lewis, P blood groups and taste sensitivity to PTC. The following allele frequencies for polymorphic loci have been detected: AKI = 0.994; GLO = 1I = 0.082; GPT1 = 0.653; AcPA = 0.400; AcPB = 0.599; AcPC = 0.001; PGDA = 0.944; PGM1(1) = 0.906; EsD1 = 0.897; E2+ = 0.048; HpI = 0.394; GcI = 0,919; Tfc = 0.987; r(O) = 0.669; p(A) = 0.184; q(B) = 0.146; M = 0.711; Le = 0.411; P1+ = 0.521; t = 0.295. The genetic structure of Chukot Evens population is significantly nearer to that of the other ethnic groups of the North-East, in comparison with the genetic structure of Evenks of the Middle Siberia.
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PMID:[Genetic structure of the populations of native inhabitants in the northeastern USSR. V. The Chukot Evens]. 293 99

Anthracycline, aureolic acid and aminoquinone antitumour antibiotics damage deoxyribose in cell-free systems when reduced in air by the enzyme ferredoxin reductase. Damage to deoxyribose is inhibited by the iron chelator desferrioxamine, the copper-containing protein caeruloplasmin and catalase but not by superoxide dismutase. Scavengers of the hydroxyl radical such as formate, butan-1-ol, ethanol and benzoate do not offer much protection, whereas mannitol and thiourea do. These findings point to a site-specific Fenton reaction in which the drug semiquinones reduce complexed iron and dioxygen leading to the formation of hydrogen peroxide and a ferrous complex.
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PMID:Free radical damage to deoxyribose by anthracycline, aureolic acid and aminoquinone antitumour antibiotics. An essential requirement for iron, semiquinones and hydrogen peroxide. 299 99

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