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)

Until now o-dianisidine was used as an indicator substance in a test system for the determination of diamine oxidase. More recently, however, this substance was also used to measure ceruloplasmin activity. A study of the test principles revealed that o-dianisidine was the one denominator for both enzymes. As it was found for diamine oxidase the indicator was oxidized via peroxidase mediated H2O2 cleavage. Ceruloplasmin, however, oxidized o-dianisidine directly with resulting free radical formation. An addition of histamine dihydrochloride or putrescine dihydrochloride to an incubation mixture, containing ceruloplasmin as enzyme and o-dianisidine or p-phenylene-diamine as substrates, produced an activation of the enzyme, being more than 10-fold in the presence of 1 X 10(-2) M putrescine at pH 7.0. It was assumed that an allosteric effect of the dihydrochloride component might be responsible for this activation. When the activity of purified diamine oxidase was determined by the o-dianisidine test and by the isotope assay, a very good correlation between both methods was found. But, in a mixture of diamine oxidase and ceruloplasmin, no differentiation between the two enzymic activities by the o-dianisidine test was possible. This observation demonstrated an interference of ceruloplasmin when the o-dianisidine method was used for the determination of diamine oxidase activity. To apply our findings also in vivo the amine oxidase activity increasing in guinea-pig plasma during inflammation, was determined by the o-dianisidine test and by specific methods for some amine oxidase. Despite an enhanced oxidation of the o-dianisidine observed, only an increase of ceruloplasmin activity was found. It was concluded that ceruloplasmin had no 'histaminase activity' as has been assumed by other authors using the o-dianisidine test.
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PMID:Determination of histaminase (diamine oxidase) activity by o-dianisidine test: interference of ceruloplasmin. 40 58

Lysosomal fraction was isolated from rat liver by density gradient centrifugation after pervious loading of lysosomes in vivo with Triton WR-1339. Tritosome preparations were incubated at 37 degrees C and pH 5 for 24 hr with purified human ceruloplasmin or haptoglobin. After this period approximately 20% of total alpha amino nitrogen was released from ceruloplasmin and over 40% from haptoglobin. This was accompanied by loss of peroxidase activity of haptoglobin (in complex with haemoglobin), while enzymatic activity of ceruloplasmin remained unaltered. Removal of sialic acid by neuraminidase had no effect on digestion of ceruloplasmin by rat liver tritosomes. Both glycoproteins were resistant to horse leucocyte proteinases and pancreatic eleastase but were easily inactivated by trypsin and chymotrypsin.
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PMID:Degradation and inactivation of ceruloplasmin and haptoglobin by rat liver lysosomes and some other proteinases. 65 34

The oxidation chemistry and biochemistry of the serotonergic neurotoxin 5,7-dihydroxytryptamine (1) has been studied under anaerobic and aerobic conditions in aqueous solution at physiological pH. Under anaerobic conditions, one-electron oxidants (ferricytochrome c, peroxidase/H2O2, ceruloplasmin, Cu2+) generate a radical intermediate. Dimerization of the C(6)-centered resonance form of this radical followed by secondary oxidations yields 3-(2-aminoethyl)-6-[3-(2-aminoethyl)-1,7-dihydro- 5-hydroxy-7-oxo-6H-indol-6-ylidene]-1-H-indole-5,7(4H,6H)-dione. Under aerobic conditions, molecular O2 attacks the C(4)-centered 1 radical to yield a hydroperoxy radical which decomposes to 5-hydroxytryptamine-4,7-dione (2). Autoxidation of 1 proceeds by primary attack by molecular O2 on a C(4)-centered carbanion to form a superoxide-radical complex. This rearranges to a C(4)-centered hydroperoxide which decomposes to 2. A C(6)-centered carbanion of 1 combines with 2 to give, ultimately, 6,6'-bi-5-hydroxytryptamine-4,7-dione (3). Trace concentrations of transition metal ions (Fe3+, Fe2+, Cu2+, Mn2+) catalyze the autoxidation of 1 by catalytic cycles in which a hydroperoxide intermediate plays key roles. A byproduct of the transition metal-catalyzed oxidation of 1 is superoxide, O2-. Because of its enormous basicity O2- facilitates deprotonation of 1. The C(4)-centered carbanion so produced is oxidized by molecular O2 or by the hydroperoxy radical (HO2) to give radical intermediates and thence 2 and 3. Mechanistic pathways leading to the various products of oxidation of 1 are proposed and the potential roles of oxidation reactions of the indolamine are related to its neurodegenerative properties.
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PMID:Chemical and enzyme-mediated oxidation of the serotonergic neurotoxin 5,7-dihydroxytryptamine: mechanistic insights. 131 96

Tyrosinase (EC 1.14.18.1)/O2, ceruloplasmin (human type X)/O2, and peroxidase (EC 1.11.1.7)/H2O2 oxidized the endogenous central nervous system alkaloid salsolinol (SAL) at physiological pH. The proximate oxidation product was an electrophilic ortho-quinone (4) which at pH 7.0 rapidly tautomerized. Four major initial products were formed from 4: cis- and trans-1,2,3,4-tetrahydro-1-methyl-4,6,7-isoquinolinetriol (A and B, respectively), 2,3,4-trihydro-1-methyl-7-hydroxy-6-oxyisoquinoline (C), and 1-methyl-6,7-isoquinoline diol (D). Mechanisms describing the formation of these products have been presented. Ortho-quinone 4, formed in the enzyme-mediated reactions, was rapidly attacked by glutathione to yield the 5-S-, 8-S-, and 5,8-bi-S-glutathionyl conjugates of SAL. Preliminary experiments indicated that injection of A, B and C into the CNS of mice evoked profound behavioral effects. Quinone methide C was toxic. The potential role of the oxidation of salsolinol in the neurodegenerative and behavioral effects associated with chronic alcoholism is discussed.
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PMID:Interactions of salsolinol with oxidative enzymes. 165 22

The electrochemical oxidation of the central mammalian alkaloid 1-methyl-6-hydroxy-1,2,3,4-tetrahydro-beta-carboline (1) has been studied in neutral aqueous solution at a pyrolytic graphite electrode (PGE). Voltammograms of 1 show two closely spaced oxidation peaks, Ia and IIa. At potentials less positive than the peak potential (Ep) for peak Ia, 1 is oxidized to a radical intermediate which dimerizes to give two diastereomers of 5,5'-bi(1-methyl-6-hydroxy-1,2,3,4-tetrahydro-beta-carboline) (5 and 6). At potentials more positive than Ep for peak Ia the putative radical intermediate is further electrooxidized to a C(5)-centered carbocation which reacts with 1 in an ion-substrate reaction to give 5 and 6 or with water to give, ultimately, 1-methyl-1,2,3,4-tetrahydro-beta-carboline-5,6-dione (12). Dimers 5 and 6 give two reversible oxidation peaks at the PGE, the second of which corresponds to peak IIa observed in voltammograms of 1. Because 5 and 6 are easily oxidizable compounds they are only observed as products in the initial stages of the controlled potential electrooxidation of 1. Tyrosinase/O2, human ceruloplasmin/O2, and peroxidase/H2O2 also oxidize 1 to 5, 6, and 12 as the initial products. In the presence of glutathione the electrochemically driven and enzyme-mediated oxidations of 1 result in the formation of 5-S-glutathionyl-1-methyl-6-hydroxy-1,2,3,4-tetrahydro-beta-carboline as a major product. Central administration of diastereomer 5 or 6 to mice evoked behavioral responses similar to those caused by the opioid analgesics. These behavioral effects, which include spatial disorientation and a characteristic ducklike walk, became most pronounced approximately 3 h after drug administration and continued for about 3 days. Neurotransmitter and related metabolite analyses of whole brain reveal that 5 and 6 cause a general increase in dopaminergic and serotonergic activity and a small but significant decrease in cholinergic activity. These transmitter/metabolite disturbances appear to parallel the time course of the observed behavioral effects. The possible roles of in vivo oxidations of 1, an alkaloid which is elevated in mammalian brain following ethanol consumption, in the addictive, behavioral, and neurodegenerative consequences of chronic alcoholism are discussed.
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PMID:Oxidation chemistry and biochemistry of the central mammalian alkaloid 1-methyl-6-hydroxy-1,2,3,4-tetrahydro-beta-carboline. 173 36

An immunoenzymatic method for ceruloplasmin analysis (IEA) based on the use of horseradish peroxidase-labelled monospecific antibodies as markers has been developed. IEA can be used for direct measurements of ceruloplasmin in blood serum, as can be evidenced from the coincidence of calibration plots obtained after the use of potassium-phosphate buffer and ceruloplasmin-free sera. The procedure allows the determination of the total content of ceruloplasmin present in the blood sera of patients with hepatocerebral dystrophies both in the active and inactive forms. The minimum ceruloplasmin concentration detectable by this method is 5 x 10(-9) g/ml. The method was used to determine ceruloplasmin levels in the blood of patients with various grades of hepatocerebral dystrophy. Analysis of blood sera from 6 patients revealed that the ceruloplasmin concentrations determined by IEA were very close, whereas the oxidase activities of this protein differed more than 7-fold. The amount of enzymatically active ceruloplasmin as determined from the oxidase activity made up to 10-68% of the total ceruloplasmin content in the sera, depending of the severity of the pathology.
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PMID:[Immunoenzyme determination of the total level of ceruloplasmin in the serum from patients with hepatocerebral dystrophy]. 174 26

Through correlation analysis, direct and proved interrelationships were established between the copper and iron exchange indices on the one hand, and the blood serum general protein levels and vitamin C sufficiency on the other. The blood serum copper levels and ceruloplasmin activity correlated with the blood serum alpha-globulins, whereas gamma-globulins were found in correlation with the hemoglobin concentrations, peroxidase and ceruloplasmin activity levels. Physical working capacity in blacksmiths was found interrelated with the direct and indirect trace element exchanges: hemoglobin in the blood, blood serum iron levels, peroxidase activity and copper content in blood cells.
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PMID:[Correlations between various indicators of microelement metabolism and physical work capacity of blacksmiths]. 180 Feb 66

Enzyme immunoassay for ceruloplasmin (CP)*, employing monospecific CP antibodies labeled with horse radish peroxidase was developed. This method permits to determine total content of CP, which is present in Wilson disease patients' blood in enzymatically active and enzymatically inactive forms. The evidence is presented that the method can be used for a direct determination of CP in blood serum. The minimal CP concentration which may be determined by enzyme immunoassay (IEA) is 5.10(-9) g/ml. The method was used for determination of CP concentrations in Wilson disease patients' blood with different disease severity. Analysis of blood samples taken from 6 Wilson disease patients with the use of IEA method revealed similar total CP concentrations. At the same time, the oxidase activities of CP in the blood of different patients varied more than sevenfold.
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PMID:Immunoenzyme determination of total serum ceruloplasmin. Application to Wilson disease. 188 96

The neurodegenerative properties of the serotonergic neurotoxin 5,6-dihydroxytryptamine (5,6-DHT) are widely believed to result from its autoxidation in the central nervous system. The autoxidation chemistry of 5,6-DHT has been studied in aqueous solution at pH 7.2. The reaction is initiated by direct oxidation of the indolamine by molecular oxygen with resultant formation of the corresponding o-quinone 1 and H2O2. A rapid nucleophilic attack by 5,6-DHT on 1 leads to 2,7'-bis(5,6-dihydroxytryptamine) (6) which is more rapidly autoxidized than 5,6-DHT to give the corresponding diquinone 7 along with 2 mol of H2O2. The accumulation of 6 in the reaction solution during the autoxidation of 5,6-DHT despite its more rapid autoxidation indicates that diquinone 7 chemically oxidizes 5,6-DHT (2 mol) to quinone 1 so that an autocatalytic cycle is established. The H2O2 formed as a byproduct of these autoxidation reactions can undergo Fenton chemistry catalyzed by trace transition metal ion contaminants with resultant formation of the hydroxyl radical, HO., which directly oxidizes 5,6-DHT to a radical intermediate (9a/9b). This radical is directly attacked by O2 to yield quinone 1 and superoxide radical anion, O2.-, which further facilitates Fenton chemistry by reducing, inter alia, Fe3+ to Fe2+. A minor side reaction of 1 with water leads to formation of at least two trihydroxytryptamines. Diquinone 7 ultimately reacts with 6, 5,6-DHT, and perhaps trihydroxytryptamines, leading via a sequence of coupling and oxidation reactions to a black indolic melanin polymer. Enzymes such as tyrosinase, ceruloplasmin, and peroxidase and rat brain mitochondria catalyze the oxidation of 5,6-DHT to form dimer 7 and, ultimately, indolic melanin. The role of the autoxidation and the enzyme-mediated and mitochondria-promoted oxidations of 5,6-DHT in expressing the neurodegenerative properties of the indolamine are discussed.
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PMID:Further insights into the oxidation chemistry and biochemistry of the serotonergic neurotoxin 5,6-dihydroxytryptamine. 217 37

Arthritis induced by 6-sulphanilamidoindazole in older rats is not inhibited by a one-week treatment with superoxide dismutase, peroxidase or desferrioxamine. It is concluded that oxygen radicals hardly play a special part in the pathogenesis of 6-SAI arthritis. C-reactive protein and caeruloplasmin are demonstrated to be acute-phase reactants also in 6-SAI arthritis, although on the whole the acute-phase reaction is relatively weak. The steroid dexamethasone and the nonsteroid benoxaprofen caused strong antiinflammatory activity at low doses. The data presented complete the picture of 6-SAI arthritis as a special inflammatory reaction in rats.
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PMID:6-Sulphanilamidoindazole-induced arthritis in rats: substance effects and acute-phase reaction. 243 28


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