Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P47989 (xanthine oxidase)
 8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In sheep from biogeochemical provinces enriched by molybdenum and copper and in a model form of molybdenum toxicosis in animals, the important role of enzymic and neurohumoral systems in the development of adaptation to excessive uptake of molybdenum and copper has been demonstrated. Adaptive reorganization of the activity of enzymic systems (xanthine oxidase, ceruloplasmin, succinate dehydrogenase, aspartate and alanine aminotransferases) and gradual involvement of neurohumoral mechanisms of the sympathoadrenal and cholinoreactive systems provide for adaptation of some animals in molybdenum and copper-molybdenum biogeochemical provinces. In other sheep, under the same conditions, dystonic disturbances in the vegetative nervous systems are observed together with the development of molybdenum toxicosis.
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PMID:[The enzymatic chemical mechanisms of adaptation]. 183 7

Inflammation increases plasma levels of ceruloplasmin, a copper protein with possible antioxidant function. This paper describes modulation of these increases by copper intake, and describes combined effects of inflammation and copper intake on Cu-Zn and extracellular (EC) superoxide dismutase (SOD) activities. Turpentine injections in rats fed 1 of 4 copper levels increased ceruloplasmin activities, but values were sensitively limited by copper intake. Cu-Zn SOD activities in the liver, but not in erythrocytes or lungs, were reduced by inflammation in each dietary copper group. Inflammation in rats fed a standard mixed feed diet reduced plasma EC superoxide dismutase activities measured by inhibition of pyrogallol autoxidation. Different results were obtained with 3 xanthine oxidase based SOD assays which were each subject to assay interference. Studies in humans found a group of rheumatoid arthritis patients to possess relatively low erythrocyte SOD and relatively high ceruloplasmin activities. Activity levels of SOD, but not of ceruloplasmin, increased after 4 weeks of copper supplementation (2 mg/day). The fate of cellular Cu-Zn SOD activity contents in inflamed tissues is largely uninvestigated. However, interleukin-1, a hormone released at inflammation sites, elevated Cu-Zn SOD activities in cultured fibroblasts.
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PMID:Effects of inflammation on copper antioxidant enzyme levels. 256 Jun 8

The lipid peroxidation process is enhanced in both hyperoxygenated or underoxygenated tissues though its mechanism of production is different. Because in thyroid functional diseases there are severe disorders in tissue oxygenation we studied the lipid peroxidation process by using the serum level of malondialdehyde (MDA) as indicator. We also determined the serum ceruloplasmin (CP), an enzymatic protein belonging to the circulating system of antioxidative protection and also playing a role in the cell-mediated immunity. We also followed serum level of uric acid (UA). The determinations were performed on serum samples collected from three groups: 1, adult control subjects: 2. adult untreated hyperthyroid patients, and 3. adult hypothyroid thyroidectomized patients to whom replacement therapy was discontinued for at least 15 days. The mean MDA level was significantly higher in both hyperthyroid and hypothyroid patients by comparison to the control group. CP mean level was significantly lower than in controls. It was concluded that in post thyroidectomy hypothyroidism an enhancement of lipid peroxidation does exist and that its consequences are probably aggravated by the low serum CP level. The enhancement of the process occurs by other mechanisms than for hyperthyroid group. At hypothyroid patients there is an ADP excess which is degenerated to xanthine, the substrate of xanthine oxidase resulting in toxic anion superoxide and UA. In contrast with hyperthyroid group, in hypothyroid patients we observed significant higher values of UA in comparison to the controls. The excess of MDA found in hyperthyroid patients is statistically significant, but its consequences are probably less severe because the serum CP is higher than normal, a rather expected finding for an autoimmune disease.
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PMID:Significance of high levels of serum malonyl dialdehyde (MDA) and ceruloplasmin (CP) in hyper- and hypothyroidism. 338 87

The nonceruloplasmin enzyme located in the intestinal mucosa which promotes the incorporation of iron into transferrin has been resolved into a small, heat-stable component and a heat-labile protein component. The small, heat-stable component was purified from the high-speed supernatant of intestinal mucosal homogenates by ion-exchange chromatography and gel filtration and identified as xanthine. The heat labile protein component was purified from the high-speed supernatant of intestinal mucosal homogenates by heat treatment, gel filtration, and ion-exchange chromatography. The physical, spectral, and kinetic properties of the heat-labile protein component strongly suggest that it is xanthine oxidase. By promotion of the oxidation and incorporation of iron into transferrin, intestinal xanthine oxidase could perform a similar function in iron absorption as ceruloplasmin serves in the mobilization of iron from liver stores.
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PMID:Purification and characterization of the intestinal promoter of iron(3+)-transferrin formation. 625 34

Superoxide (.O-2) is demonstrated to participate at the prostaglandin phase swelling (2-4 h) of carrageenan paw edema. Superoxide production is inhibited in vitro by typical anti-inflammatory drugs, but these drugs did not scavenge superoxide which was produced by xanthine oxidase. Phosphate, pyrophosphate, ATP, ADP and sulfate were essential for superoxide production by macrophages. These anions can induce paw swelling and are reported to increase in rheumatic patients. A mixture of macrophages and lymphocytes from BCG sensitized guinea-pigs was cultured for 2 days with SOD or D-mannitol. Nitroblue tetrazolium reduction (formazan formation) was inhibited by these agents, suggesting that the hydroxyl radical (.OH) is necessary for metabolic activation of macrophage. Lympholine-like factor of which production or release is enhanced by hydroxyl radical, activates macrophage. Production of oxygen radicals may increase rapidly by this chain cycle reaction. Possible relations of oxygen radicals to prostaglandin(s) biosyntheses, chemotaxis, lysosomal enzyme release protease participation, were discussed. Endogenous SOD, epinephrine, ceruloplasmin, blood plasma proteins, inflammatory fluid, may modulate the amount of superoxide by their superoxide scavenging capacities.
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PMID:Inflammation and superoxide production by macrophages. 626 69

Superoxide anion radicals have been implicated recently as mediators of inflammation and tissue injury. Protection from superoxide anion radicals is provided primarily by a copper-containing, intracellular enzyme (superoxide dismutase) (SOD) that catalyzes the dismutation of superoxide to hydrogen peroxide and oxygen. We have found that the action of cytoplasmic SOD to scavenge superoxide and thereby to inhibit superoxide-mediated reactions can be mimicked by the copper-containing plasma protein and acute-phase reactant, ceruloplasmin. Ceruloplasmin, at concentrations present in normal plasma, inhibited reduction of both cytochrome c and nitroblue tetrazolium (NBT) mediated by the aerobic action of xanthine oxidase on hypoxanthine (a superoxide-generating system). Ceruloplasmin neither inhibited formation of uric acid by xanthine oxidase nor accelerated autooxidation of cytochrome c. Furthermore, in an experimental system in which contact between ceruloplasmin and indicator was prevented by a relatively impermeable lipid membrane barrier, ceruloplasmin inhibited reduction of NBT trapped within liposomes exposed to xanthine oxidase and hypoxanthine. Ceruloplasmin also inhibited reduction of cytochrome c and NBT mediated by the aerobic action of xanthine oxidase on acetaldehyde (another superoxide-generating system) and mimicked the activity of purified human erythrocyte SOD by inhibiting photoreduction of NBT and by accelerating aerobic photooxidation of dianisidine. Ceruloplasmin could be separated from purified human erythrocyte SOD by electrophoresis on alkaline 12% polyacrylamide gels and identified by its superoxide-scavenging activity. These results suggest that ceruloplasmin may function as a circulating scavenger of oxygen-derived free radicals.
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PMID:Ceruloplasmin: an acute phase reactant that scavenges oxygen-derived free radicals. 628 6

Exposure of cells to oxygen radicals results in cellular injury and protein oxidation. Ceruloplasmin is a plasma antioxidant that increases in concentration during inflammation. Therefore, the ability of ceruloplasmin to protect endothelial cells from neutrophil-mediated injury was investigated. The inhibition of protein oxidation by ceruloplasmin was also examined in neutrophil and endothelial cell proteins by analysis of carbonyl formation. In addition, the iron oxidation state was measured to determine the effect of ceruloplasmin ferroxidase activity in oxygen-radical generating systems. Ceruloplasmin significantly (p < .01) inhibited neutrophil-mediated cytotoxicity of endothelial cells by 48%. Carbonyl formation in phorbol myristate acetate (PMA)-stimulated neutrophil proteins was also significantly (p < .01) reduced by ceruloplasmin from 0.172 +/- 0.028 to 0.086 +/- 0.004 mole carbonyl/mole protein. Even though ceruloplasmin itself had a threefold increase in carbonyl formation (0.452 +/- 0.010 vs. 0.146 +/- 0.018 mole carbonyl/mole protein) in the presence of PMA-stimulated compared with unstimulated neutrophils, no loss of functional activity was detected. In xanthine oxidase-treated endothelial cells, ceruloplasmin significantly (p < .05) reduced carbonyl formation from 0.132 +/- 0.010 to 0.097 +/- 0.009 mole carbonyl/mole protein. Ceruloplasmin also significantly (p < .01) oxidized iron when added to PMA-activated neutrophils, thereby decreasing Fe(II) from 98 +/- 8 to 7 +/- 2 microM. Similarly, ceruloplasmin added to xanthine oxidase/hypoxanthine reactions resulted in significant (p < .01) iron oxidation, decreasing Fe(II) from 99 +/- 1 to 15 +/- 3 microM. The ability of ceruloplasmin to protect both endothelial cells and endogenous neutrophil and endothelial cell proteins from oxidative injury suggests that it may be important in regulating cellular and protein damage by oxygen radicals during inflammation.
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PMID:Ceruloplasmin inhibits carbonyl formation in endogenous cell proteins. 842 18

Cultured vascular smooth muscle cells (SMC) and endothelial cells (EC) stimulate low density lipoprotein (LDL) oxidation by free radical-mediated, transition metal-dependent mechanisms. The physiological source(s) of metal ions is not known; however, purified ceruloplasmin, a plasma protein containing 7 coppers, oxidizes LDL in vitro. We now show that ceruloplasmin also increases LDL oxidation by vascular cells. In metal ion-free medium, human ceruloplasmin increased bovine aortic SMC- and EC-mediated LDL oxidation by up to 30- and 15-fold, respectively. The maximal response was at 100-300 microg ceruloplasmin/ml, a level at or below the unevoked physiological plasma concentration. Oxidant activity was dependent on protein structure as a specific proteolytic cleavage or removal of one of the seven ceruloplasmin copper atoms inhibited activity. Three lines of evidence indicated a critical role for cellular superoxide (O2.) in ceruloplasmin-stimulated oxidation. First, the rate of production of O2. by cells correlated with their rates of LDL oxidation. Second, superoxide dismutase effectively blocked ceruloplasmin-stimulated oxidation by both cell types. Finally, O2. production by SMC quantitatively accounted for the observed rate of LDL oxidation. To show this, the course of O2. production by SMC was simulated by repeated addition of xanthine and xanthine oxidase to culture medium under cell-free conditions. Neither ceruloplasmin nor O2. alone increased LDL oxidation, but together they completely reconstituted the oxidation rate of ceruloplasmin-stimulated SMC. These results are the first to show that ceruloplasmin stimulates EC- and SMC-mediated oxidation of LDL and that cell-derived O2. accounts quantitatively for metal-dependent, free radical-initiated oxidation of LDL by these cells.
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PMID:Ceruloplasmin enhances smooth muscle cell- and endothelial cell-mediated low density lipoprotein oxidation by a superoxide-dependent mechanism. 866 20

We investigated the generation of nitric oxide (NO) by H2O2-dependent peroxidation of hydroxyurea in the presence of copper-containing proteins such as Cu,Zn-superoxide dismutase (Cu,Zn-SOD) or ceruloplasmin as a catalyst. In the reaction mixture of hydroxyurea, CuZn-SOD, and H2O2, NO generation was identified by measuring the specific electron spin resonance (ESR) signal of 2-phenyl-4, 4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (PTIO). The ESR signal of the NO-hemoglobin adduct was also detected in human red blood cells during copper-catalyzed peroxidation of hydroxyurea. The NO production during peroxidation of hydroxyurea was quantified as NO2- formation, measured by using the Griess assay, the amount of NO2- was dependent on the concentrating of hydroxyurea of the reaction mixture. ESR spin trapping with 5,5-dimethyl-1-pyrroline N-oxide (DMPO) showed hydroxy radical (OH) generation in the reaction of H2O2 with either Cu,Zn-SOD or ceruloplasmin. Several OH scavengers, such as ethanol, thiourea, DMPO, and dimethylsulfoxide, and the metalchelating agent diethylenetriaminepentaacetic acid significantly inhibited NO generation from hydroxyurea. This indicates that NO release from hydroxyurea may be mediated by OH derived from the copper-catalyzed Fenton-like reaction. Incubation of hydroxyurea and Cu,Zn-SOD with xanthine oxidase and hypoxanthine in a system forming O2- -->H2O2 also resulted in appreciable NO production. These results suggest that NO production from hydroxyurea catalyzed by copper-containing proteins may be the molecular basis of the pharmacological and antitumor action of hydroxyurea.
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PMID:Nitric oxide generation from hydroxyurea via copper-catalyzed peroxidation and implications for pharmacological actions of hydroxyurea. 947 38

Oxidative modification of low density lipoprotein (LDL) appears to play an important role in atherogenesis. Although the precise mechanisms of LDL oxidation in vivo are unknown, several lines of evidence implicate myeloperoxidase and reactive nitrogen species, in addition to ceruloplasmin and 15-lipoxygenase. Myeloperoxidase generates a number of reactive species, including hypochlorous acid, chloramines, tyrosyl radicals, and nitrogen dioxide. These reactive species oxidize the protein, lipid, and antioxidant components of LDL. Modification of apolipoprotein B results in enhanced uptake of LDL by macrophages with subsequent formation of lipid-laden foam cells. Nitric oxide synthases produce nitric oxide and, under certain conditions, superoxide radicals. Numerous other sources of superoxide radicals have been identified in the arterial wall, including NAD(P)H oxidases and xanthine oxidase. Nitric oxide and superoxide readily combine to form peroxynitrite, a reactive nitrogen species capable of modifying LDL. In this review, we examine the reaction pathways involved in LDL oxidation by myeloperoxidase and reactive nitrogen species and the potential protective effects of the antioxidant vitamins C and E.
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PMID:Oxidation of LDL by myeloperoxidase and reactive nitrogen species: reaction pathways and antioxidant protection. 1089 8


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