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)

When erythrocyte membranes were incubated with adriamycin (ADM) in the presence of ferritin, lipid peroxidation occurred with release of iron from the ferritin. In the presence of apoferritin, ADM did not cause lipid peroxidation. Deferoxamine inhibited the ADM-induced lipid peroxidation in the presence of ferritin. These results indicate that lipid peroxidation depends upon the release of iron from ferritin. Even when the iron content in ferritin was very low, ADM could induce lipid peroxidation. Superoxide dismutase, catalase and hydroxyl radical scavengers did not substantially affect lipid peroxidation, indicating that the peroxidation reaction was independent of superoxide, H2O2 and hydroxyl radicals. Ceruloplasmin, a ferroxidase, markedly inhibited lipid peroxidation but did not affect the release of iron from ferritin. ADM-Fe(3+)-binding erythrocyte membranes were readily formed during the incubation of erythrocyte membranes with ADM in the presence of ferritin, and deferoxamine removed iron from the ADM-Fe(3+)-binding membranes, indicating that the iron moiety of the ADM-Fe(3+) complex is exposed at the membrane surface. These results may suggest that the peroxidation reaction occurs in a site-specific manner.
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PMID:Adriamycin-induced lipid peroxidation of erythrocyte membranes in the presence of ferritin and the inhibitory effect of ceruloplasmin. 840 98

Incubation of human ceruloplasmin with physiological concentrations of chloride at neutral pH invariably caused dramatic changes of both the spectroscopic and the functional properties of the protein. The optical intensity at 610 nm increased up to 60%, with a concomitant decrease at 330 nm and the appearance of new bands between 410 and 500 nm. Signals previously undetectable appeared in the EPR spectrum. On the basis of computer simulations, they were interpreted as stemming from an oxidized type 1 copper site and from a half-reduced type 3 copper pair. Removal of chloride completely restored the original optical and EPR lineshapes. Hydrogen peroxide, added to ceruloplasmin in the presence of chloride, was able to capture the electron of the half-reduced type 3 site and to yield a protein insensitive to subsequent removal and readdition of the anion. As a whole, the spectroscopic data indicate that a blue site is partially reduced in the resting protein and that, upon binding of chloride, human ceruloplasmin undergoes a structural change leading to displacement of an electron from the reduced type 1 site to the type 3 site pair. Chloride dramatically affected the catalytic efficiency of human ceruloplasmin. At neutral pH, the anion was an activator of the oxidase activity, being able to enhance up to tenfold the catalytic rate. At pH < 6, in line with all previous reports, chloride strongly inhibited the activity. At intermediate pH values, i.e., around 6, the effect was composite, with an activating effect at low concentration and an inhibitory effect at higher concentration. Since chloride is present at very high concentrations in the plasma, these results suggest that human ceruloplasmin is, in the plasma, under control of this anion.
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PMID:Modulation of the redox state of the copper sites of human ceruloplasmin by chloride. 856 57

Under certain conditions, many radioprotective thiols can be toxic, causing loss of colony-forming ability in cultured mammalian cells in a biphasic fashion whereby the thiols are not toxic at high or low concentrations of the drug, but cause decreased clonogenicity at intermediate (0.2-1.0 mM) drug levels. This symposium paper summarizes our studies using dithiothreitol (DTT) as a model thiol to demonstrate the role of Fenton chemistry in thiol toxicity. The toxicity of DTT in V79 cells has several characteristics: it is dependent on the medium used during exposure of cells to the drug; the toxicity is decreased or prevented by addition of catalase exogenously, but superoxide dismutase has no effect; the toxicity is increased by addition of copper, either free or derived from ceruloplasmin in serum; and the toxicity can be modified intracellularly by altering glucose availability or pentose cycle activity. Thus the data are consistent with a mechanism whereby DTT oxidation produces H2O2 in a reaction catalyzed by metals, predominantly copper, followed by reaction of H2O2 in a metal-catalyzed Fenton reaction to produce the ultimate toxic species, .OH. Studies comparing 12 thiols have shown that the magnitude of cell killing and pattern of dependence on thiol concentration vary among the different agents, with the toxicity depending on the interplay between the rates of two reactions: thiol oxidation and the reaction between the thiol and the H2O2 produced during the thiol oxidation. The addition of other metals, e.g. Zn2+, and metal chelators, e.g. EDTA, can also alter DTT toxicity by altering the rates of thiol oxidation or the Fenton reaction. Recent studies have shown that in certain cell lines thiols can also cause apoptosis in a biphasic pattern, with little apoptosis at low or high drug concentrations but greatly increased apoptosis levels at intermediate (approximately 3 mM) thiol concentrations. There appears to be a good correlation between those thiols that cause loss of clonogenicity and those that induce apoptosis, suggesting similar mechanisms may be involved in both end points. However, thiol-induced apoptosis is not prevented by addition of exogenous catalase. These observations are discussed in relation to the possible role of Fenton chemistry in induction of apoptosis by thiols.
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PMID:Role of Fenton chemistry in thiol-induced toxicity and apoptosis. 861 19

Bovine ceruloplasmin underwent fragmentation following non-enzymatic glycosylation. Western blot and ELISA analyses indicated that a polyclonal rabbit antiserum to hexitolysine reacted with bovine ceruloplasmin after incubation with 0.1 M glucose. The same fragmentation was seen upon exposure of the protein to a hydrogen peroxide bolus. Both catalase and EDTA blocked peroxide-dependent fragmentation. Incubation with glucose resulted in a time-dependent release of Cu2+. The released Cu2+ appeared to participate in a Fenton-type reaction to produce hydroxyl radicals, which effected the fragmentation. Hydroxyl radical scavengers such as thiourea, mannitol, methionine, and formate inhibited this cleavage. ESR spectral studies also supported participation of hydroxyl radicals. Inhibition by EDTA of the fragmentation induced by an H2O2 bolus also supports a role for copper in a Fenton-type reaction. Taken together these results suggest that reactive oxygen species, such as superoxide anion and H2O2, were formed by the Maillard reaction which led to hydroxyl radicals being produced by a copper-dependent Fenton-type reaction. Both processes are likely to be involved in the fragmentation of ceruloplasmin.
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PMID:Fragmentation of ceruloplasmin following non-enzymatic glycation reaction. 874 26

The livers of 13 Sika deer (Cervus nippon Temminck) aged 4 to 9 years and suffering from copper deficiency (enzootic ataxia) were examined histologically, histochemically and by electron microscopy. In addition, the serum and liver copper concentrations, measured in three animals, were found to be low. Histologically, the hepatocytes exhibited cloudy swelling, and numerous haemosiderin deposits were seen in the hepatocytes and Kupffer cells. Staining with p-dimethyl amino-benzylidene-rhodamine revealed distinctly fewer copper granules than normal. Histochemically, 3,3'-diaminobenzidine-H2O2 staining revealed increased numbers of catalase-positive granules around nuclei. Electron microscopically, "giant" and bizarre-shaped mitochondria, irregular depression of the mitochondrial membrane, and fusion of cristae were noted. Disorders of copper-containing enzymes, including cytochrome oxidase, caeruloplasmin and monoamine oxidase, may have been responsible for the mitochondrial abnormalities.
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PMID:Ultrastructure of hepatocytes in copper-deficient Sika deer (Cervus nippon Temminck). 876 86

The antioxidant effects of ceruloplasmin (CAS 9031-37-2) against oxygen free radicals (.O2-, .OH, 1O2) and their by-products (H2O2, HOCl), generated by electrolysis of Krebs-Henseleit buffer, were determined in vitro by the DPD (N,N-diethyl-p-phenylenediamine) colorimetric method and ex vivo by quantifying cardiodynamic variables of the isolated perfused rat heart. Purified ceruloplasmin (1 mumol/l) displayed a high antioxidant capacity in vitro (89.2%), while the scavenging capacity of superoxide dismutase (SOD) in equimolar concentrations was 38.1%. A relatively high scavenging activity (72.1%) was observed with bovine serum albumin (BSA). A control group of Langendorff isolated rat hearts (n = 8) was submitted to electrolysis (10 mA, for 1 min) without treatment, whereas the treated groups were perfused with ceruloplasmin, SOD or BSA (1 mumol/l) in the inflow cannula for 5 min before, during, and 5 min after electrolysis. The cardioprotective effect afforded by ceruloplasmin (83-89%) was higher than that observed with the same optimal dose of 1 mumol/l SOD (20-45%). With BSA, no protection was observed ex vivo. Particularities in scavenging specificities and mechanisms seem to explain the important differences between in vitro and ex vivo antioxidant capacities for these proteins.
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PMID:Comparative antioxidant and cardioprotective effects of ceruloplasmin, superoxide dismutase and albumin. 887 33

Glutathione is activated to a mutagen by gamma-glutamyl transpeptidase. Other thiols, such as cysteine, penicillamine, cysteine ethylester, and cysteinylglycine, are direct mutagens in the Ames Salmonella mutagenicity test. Thiol mutagenesis is oxidative in nature and involves H2O2 and possibly hydroxyl radicals. Transition metals are crucial for thiol autoxidation. The role of copper and ceruloplasmin (CP) in thiol-dependent mutagenesis was studied in Salmonella typhimurium strain TA102. Cu and CP at low concentrations enhanced thiol-dependent mutagenesis in the presence, but not in the absence, of added Fe. The degree of enhancement depended on the type of thiol. At high Cu or CP concentrations, thiol mutagenesis was inhibited. Cu also decreased the mutagenicity of H2O2. Cu- and CP-enhanced mutagenesis were inhibited by radical scavengers, catalase, and peroxidase but not by superoxide dismutase. The effects of Cu and CP on thiol-dependent mutagenesis were similar to their effects on thiol-driven lipid peroxidation. The results indicate that the role of Cu and CP in the enhancement of thiol mutagenesis is the facilitation of the transfer of electrons from a thiol to iron, rather than in catalysis of the Fenton reaction.
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PMID:Role of copper and ceruloplasmin in oxidative mutagenesis induced by the glutathione-gamma-glutamyl transpeptidase system and by other thiols. 902 Mar 9

Normal human venous blood was studied by electron paramagnetic resonance (EPR) spectroscopy at -196 degrees C. The EPR signal of free radicals in frozen blood is shown to have the same radiospectroscopic parameters and properties as the signal of the globin based free radical, .Hb(Fe(IV)=O), formed in the reaction of purified methemoglobin (metHb) with H2O2 and therefore has been assigned as such. The globin-based radicals and metHb exhibited significant variation (fluctuations) in different frozen samples taken from the same liquid blood sample. In any given sample a high concentration of free radicals was associated with a low concentration of metHb and vice versa, i.e. the fluctuations were always of opposite sense. No such fluctuations were observed in the concentration of two other paramagnetic components of blood, transferrin and ceruloplasmin. The time course of free radical formation and decay upon the addition of H2O2 to purified metHb was studied at three different molar ratios H2O2/metHb. This kinetic study together with the results of an annealing experiment allow us to propose a mechanism for the formation and decay of the globin-based radical in blood. Within this mechanism, the source of H2O2 in blood is considered to be dismutation of O-2 radicals produced via autoxidation of Hb. We postulate that the dismutation is intensified on the phase separation surfaces during cooling and freezing of a blood sample. The fluctuations are explained within this hypothesis.
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PMID:The globin-based free radical of ferryl hemoglobin is detected in normal human blood. 905 5

The accumulation of damage to cellular biomolecules, including DNA, over time may play a significant role in the aetiology of the ageing process. We have previously quantified DNA damage and mutation within cultured lymphocytes from healthy human male subjects in three different age groups (35-39, 50-54 and 65-69 years). The results of that study showed an age-related increase in DNA damage and mutations in lymphocytes. In addition, an age-related decrease in the capacity of the lymphocytes to repair H2O2-induced DNA damage was found. In this article, we report the findings of an extension to the earlier study. Thirty-one generally healthy male and female subjects between the ages of 75 and 80 years were recruited. Using a number of bioassays, we were able to determine; basal levels of DNA damage (for 18 subjects) and mutant frequency at the hypoxanthine phosphoribosyltransferase (hprt) gene locus (for 16 subjects) within cultured lymphocytes. In addition, in vivo antioxidant status (for all study subjects) and the capacity of lymphocytes to repair H2O2-induced DNA damage (for 18 subjects) were also assessed. The results obtained showed: that the mean basal level of DNA damage in lymphocytes from subjects in the 75- to 80-year age group (12.6 +/- 4.7%) was similar to that of the 35- to 39-year age group (13.3 +/- 3.3%), p = 0.42 (Mann-Whitney); there was no significant difference between log mean mutant frequency at the hprt gene locus in lymphocytes from the 75- to 80-year age group (0.31 +/- 0.33) compared to that observed in the 35- to 39-year age group (0.24 +/- 0.21; Student's t-test, t = 0.68, p > 0.05). Levels of the antioxidants glutathione peroxidase (GPx EC 1.11.1.9), catalase (CAT; EC 1.11.1.6) and caeruloplasmin (CPL; EC 1.16.3.1) were significantly elevated in the 75- to 80-year age group, compared to the 35- to 39-, 50- to 54- and 65- to 69-year age groups. Levels of bilirubin (BR) were reduced in the 75- to 80-year age group, the decrease being contributed by the female subjects. No differences in levels of superoxide dismutase (SOD; EC 1.15.1.1) or uric acid (UA) were found between the 4 age groups. Following treatment of lymphocytes with H2O2, we did not find any difference in the susceptibility of lymphocytes to DNA damage in the 75- to 80-year age group, compared to the other age groups. The DNA repair capacity in lymphocytes from individuals in the 75- to 80-year age group was similar to that of the 35- to 39-year age group, for all time points assessed. These results highlight the importance of DNA repair processes and antioxidant defence systems for maintaining genomic stability in vivo.
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PMID:In vivo antioxidant status, DNA damage, mutation and DNA repair capacity in cultured lymphocytes from healthy 75- to 80-year-old humans. 921 88

The rates of initiation of free radicals were determined in systems containing horse spleen ferritin, H2O2, tert-butyl hydroperoxide (TBHP) or cumene hydroperoxide (CHP) in acetate buffer (pH 4.2) or phosphate buffer (pH 6.0) with 10-15% dimethylformamide (DMF). Benzidine (BD), benzidine sulfate (BDS), o-tolidine (TL), 3,3',5,5'-tetramethylbenzidine (TMB), and o-phenylenediamine (PDA) were used as acceptors. In the systems ferritin-H2O2 oxidation of amine acceptor follows Michaelis-Menten kinetics. For all aromatic amines kcat, Km, and their ratios were determined. Peroxidase efficiency of ferritin in the TMB oxidation by hydrogen peroxide (kcat/km) is characterized by a value 2.82.10(3) M-1.sec-1 comparable with ferroxidase efficiency of apoferritin in the oxidation of Fe2+ by oxygen. Reactivity of aromatic amines in the system ferritin-H2O2 is similar to the reactivity registered in their peroxides oxidation and is maximal for TMB and PDA. Bimolecular rate constants of TMB and PDA oxidation in the reaction with H2O2, TBHP, and CHP were compared in acetate buffer (pH 4.2 using 0.5 microM ferritin and 5 mM concentration of each substrate. On the oxidation of both amines activity of oxidants decreased in the following order: H2O2 > TBHP > CHP. A scheme of radical initiation in the systems ferritin-ROOH (H2O2)-amines and the influence of radical acceptors apoferritin and organic co-solvent on the rate of reactions are discussed.
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PMID:Initiation of radicals in biochemical systems: ferritin-hydroperoxides-aromatic amines. 927 78

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