EC:1.17.3.2 - FACTA Search

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Query: EC:1.17.3.2 (xanthine oxidase)
8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Electrophoretic patterns of polypeptides of milk fat globule differed quantitatively depending on extent of washing during membrane preparation. This was due to selective loss of loosely associated, extrinsic membrane proteins. Major polypeptides with apparent molecular weights of 155,000 and 43,500 and membrane glycoproteins were released selectively during preparation of milk fat globule membranes. Evidence suggested that xanthine oxidase was a constituent of the selectively removed polypeptide fraction of apparent molecular weight 155,000. A major class of polypeptide with an apparent molecular weight of 62,500 was not extracted from milk fat globule membrane by treatment with dilute salts, ethylenediaminetetraacetic acid, or by nonionic and ionic detergent solutions. Milk fat globule membranes were separated into seven subfractions on isopycnic centrifugation in sucrose density gradients. Specific activities of the enzymes 5'-nucleotidase, xanthine oxidase, acid and alkaline phosphatases were similar or identical in all fractions. Electrophoretic analysis showed these seven subfractions had similar polypeptide profiles. Both phospholipid and total lipid content of subfractions were correlated inversely with fraction density. The results show that milk fat globule membrane is nearly homogenous in content of intrinsic membrane proteins and certain membrane-bound enzyme activities but is markedly heterogeneous with respect to buoyant density and lipid content.
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PMID:Membranes of mammary gland. XII. Loosely associated proteins and compositional heterogeneity of bovine milk fat globule membrane. 84 88

The binding of enzymes into artificial membranes makes possible a study of the interaction between membrane structure and enzyme kinetics within a simple context. Artificial protein membranes bearing a bienzyme system (xanthine oxidase, uricase) are produced by using a co-crosslinking method. The inhibition of uricase was shown to be dependent not only on the concentration of inhibitor in the bulk solution, but also on the kinetic properties of the membrane-bound enzymes. In the presence of xanthine oxidase inside the structure the uricase inhibition by xanthine is less important than in solution. Under defined conditions the activity was found to be higher in the presence of inhibitor than in its absence. Due to diffusion limitations this specific bienzyme system is more efficient when immobilized inside a membrane than when in solution.
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PMID:Kinetic studies dealing with an immobilized bienzyme system. 112 12

Diphenylene iodonium (Ph2I), a lipophilic reagent, is an efficient inhibitor of the production of O2- by the activated NADPH oxidase of bovine neutrophils. In a cell-free system of NADPH oxidase activation consisting of neutrophil membranes and cytosol from resting cells, supplemented with guanosine 5'-[gamma-thio]triphosphate, MgCl2 and arachidonic acid, or in membranes isolated from neutrophils activated by 4 beta-phorbol 12-myristate 13-acetate, addition of a reducing agent, e.g. NADPH or sodium dithionite, markedly enhanced inhibition of the NADPH oxidase by Ph2I. The membrane fraction was found to contain the Ph2I-sensitive component(s). In the presence of a concentration of Ph2I sufficient to fully inhibit O2- production (around 10 nmol/mg membrane protein), addition of catalytic amounts of the redox mediator dichloroindophenol (Cl2Ind) resulted in a by-pass of the electron flow to cytochrome c, the rate of which was about half of that determined in non-inhibited oxidase. A marked increase in the efficiency of this by-pass was achieved by addition of sodium deoxycholate. The Cl2-Ind-mediated cytochrome c reduction was negligible in membranes isolated from resting neutrophils. At a higher concentration of Ph2I (100 nmol/mg membrane protein), the Cl2Ind-mediated cytochrome c reductase activity was only half inhibited, which indicated that, in the NADPH oxidase complex, there are at least two Ph2I sensitive components, differing by their sensitivity to the inhibitor. At low concentrations of Ph2I (less than 10 nmol/mg protein), the spectrum of reduced cytochrome b558 in isolated neutrophil membranes was modified, suggesting that the component sensitive to low concentrations of Ph2I is the heme binding component of cytochrome b558. Higher concentrations of Ph2I were found to inhibit the isolated NADPH dehydrogenase component of the oxidase complex. A number of membrane and cytosolic proteins were labeled by [125I]Ph2I. However, the radiolabeling of a membrane-bound 24-kDa protein, which might be the small subunit of cytochrome b558, responded more specifically to the conditions of activation and reduction which are required for inhibition of O2- production by Ph2I. The O2(-)-generating form of xanthine oxidase was also inhibited by Ph2I. Inhibition of xanthine oxidase, a non-heme iron flavoprotein, by Ph2I had a number of features in common with that of the neutrophil NADPH oxidase, namely the requirement of reducing conditions for inhibition of O2- production by Ph2I and the induction of a by-pass of electron flow to cytochrome c by Cl2Ind in the inhibited enzyme, suggesting some similarity in the molecular organization of the two enzymes.
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PMID:Diphenylene iodonium as an inhibitor of the NADPH oxidase complex of bovine neutrophils. Factors controlling the inhibitory potency of diphenylene iodonium in a cell-free system of oxidase activation. 132 36

Stobadine is a potent scavenger of OH. radicals generated chemically in a free solution with kappa 2 higher than 10(10).M-1.s-1 as determined by two independent methods, namely destruction of deoxyribose and oxidation of 2-keto-4-methiolbutyric acid (KMBA). The high efficacy of stobadine to prevent ethylene production from KMBA was observed also in enzymatic (xanthine-xanthine oxidase-driven Fenton) and membrane-bound (NADPH-dependent microsomal electron transfer) sources of OH. radicals.
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PMID:Pyridoindole stobadine is a potent scavenger of hydroxyl radicals. 166 87

The effect of repeated administration of allopurinol (50 mg.kg-1 48, 24, and 4 hours before analysis) on the activity of enzymes of degradation and resynthesis of adenine nucleotides was studied. The activity of xanthine dehydrogenase and xanthine oxidase was inhibited in the heart, liver and kidney and the activity of membrane-bound 5'-nucleotidase was particularly elevated in the heart and brain, suggesting that membrane transport processes may be affected. The increase in the activity of hypoxanthine guanine phosphoribosyl transferase in the liver is indicative of a potential mechanism of positive action of allopurinol upon restoring the purine nucleotide store. The authors present their hypothesis on the mechanism of allopurinol action upon the metabolism of adenine nucleotides. The suggested mechanisms might become operative in protecting tissues against ischemia and reperfusion induced damage.
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PMID:[Mechanisms of the effect of allopurinol on the metabolism of adenine nucleotides]. 191 98

Free radicals may arise from a number of sources as a result of a variety of cellular mechanisms; they are generated under both normal and pathological circumstances. The xanthine oxidase pathway, the arachidonic acid pathway, invading leucocytes, catecholamine oxidation, and mitochondrial activity can all lead to the production of a variety of reactive oxygen intermediates including superoxide, hydrogen peroxide, and the hydroxyl radical. Whatever their source, free radicals can be extremely toxic to the cell and they are capable of causing major membrane injury by initiating lipid peroxidation or by altering the activity of membrane-bound enzyme systems which control ionic movement. The cell possesses highly efficient protective mechanisms, including antioxidants such as vitamins C and E and the enzymes superoxide dismutase and catalase, all of which are designed to prevent the occurrence of free radical-induced injury under normal conditions. However, during ischaemia and reperfusion, these protective mechanisms may be overwhelmed and severe free radical-mediated injury may occur. Ischaemia may prime the myocardium for free radical-induced injury. The great majority of the evidence that manipulation of free radicals may protect against such injury is, however, circumstantial.
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PMID:Free radicals and the heart. 202 51

Incubation of human erythrocytes oxidized by iron catalysts, ADP/Fe3+ or xanthine/xanthine oxidase/Fe3+, with autologous IgG resulted in IgG binding as detected by enzyme immunoassay using protein A-beta-galactosidase conjugate. The binding of autologous IgG to ADP/Fe3(+)-treated erythrocytes maximized when the cells were treated with 1.8:0.1 mM ADP/Fe3+, and declined when treated above this concentration, suggesting that autologous IgG binds to moderately but not to excessively oxidized erythrocytes. The antibody involved in the binding was anti-Band 3, the autoantibody known to bind to aged erythrocytes, because isolated anti-Band 3 bound to the oxidized cells, but anti-Band 3-depleted autologous IgG did not. In addition, purified Band 3 inhibited the autologous IgG binding. Anti-alpha-galactosyl IgG, another natural antibody which has been reported to bind to aged erythrocytes, did not bind to the oxidized cells. Oxidation of membrane lipids, SH-groups of membrane proteins, and Hb of these cells was slight, but the cells contained an increased amount of membrane-bound native Hb, indicating that the oxidized cell membrane has an altered property. alpha-Tocopherol prevented the lipid oxidation and the subsequent IgG binding. Reduction of the oxidized erythrocytes with dithiothreitol resulted in a loss of the IgG binding. These results suggest that anti-Band 3 binding sites (Band 3 senescent antigen) are formed on moderately oxidized erythrocytes as a result of oxidation of membrane protein SH-groups which can be mediated by the membrane lipid oxidation and that formation of the anti-Band 3 binding sites on the oxidized cells is an essentially reversible membrane event which is linked to oxidation and restoration of the protein SH-groups.
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PMID:Binding of anti-band 3 autoantibody to oxidatively damaged erythrocytes. Formation of senescent antigen on erythrocyte surface by an oxidative mechanism. 230 47

The detergent-induced amplification of lucigenin-dependent chemiluminescence of O2-, generated by xanthine oxidase or microsomal NADPH oxidase was studied. An assay system is described which is at least 10 times more sensitive than normal lucigenin-dependent chemiluminescence due to the amplification by high concentrations of octylphenylpolyethylene glycol (Triton X-100). Compared to the superoxide dismutase-sensitive reduction of acetylated cytochrome c, a 3750-fold lower amount of microsomal protein was necessary to produce an O2- signal 10-fold above the background. In contrast to cytochrome c reduction, detergent-amplified chemiluminescence of lucigenin was completely inhibited by superoxide dismutase and therefore more selective for O2-. The membrane-bound and Triton X-100-solubilized NADPH oxidase from microsomes of macrophages was activated by ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid and inhibited by Ca2+ and sodium dodecyl sulfate. The membrane-bound enzyme showed a Km value of 1.35 microM, which decreased to 0.95 microM after the addition of 12% (g/g) Triton X-100. The Km and Vmax values of soluble xanthine oxidase were not influenced by Triton X-100, indicating that the enzyme activities were not impaired by the high concentrations of detergent.
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PMID:Detergent-amplified chemiluminescence of lucigenin for determination of superoxide anion production by NADPH oxidase and xanthine oxidase. 283 20

Incubation of Trypanosoma cruzi mitochondrial ATPase (Fo-F1) with the xanthine oxidase system (XO), Fenton's reagent (Fe2+ + H2O2) and the ascorbate-Cu system, caused gradual loss of enzyme activity, which increased as a function of incubation time and rate of oxygen radical generation. The essential role of OH. radicals for ATPase inactivation was supported by a) the enzyme protection afforded by superoxide dismutase, catalase and mannitol, when using the XO system; b) the similar effect of mannitol and benzoate with Fenton's reagent; c) the similar effect of catalase, EDTA and histidine with the ascorbate-Cu system; d) the increased rate of ATPase inactivation by 1) the XO system supplemented with chelated iron, and 2) the ascorbate-Cu system supplemented with H2O2. Comparison of oxygen radical generators for their action on membrane-bound (Fo-F1) and soluble F1 revealed that ascorbate-Cu was the most effective one, possibly because of its capability of producing OH. radicals that react preferentially with the enzyme at their formation site.
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PMID:Inactivation of mitochondrial adenosine triphosphatase from Trypanosoma cruzi by oxygen radicals. 301 49

The role of free radicals in the conversion of 1-aminocyclopropane-1-carboxylic acid (ACC) to ethylene by a membrane-bound enzyme from carnation petals was studied. The membrane preparation oxidized ACC more effectively than it oxidized cyclopropaneamine or 2-keto-4-methylthiobutyric acid (KMB). All these substrates were oxidized chemically by NaOCl to ethylene very effectively. Free radicals generated by the xanthine/xanthine oxidase system oxidized KMB far more effectively than it oxidized ACC; only 0.004% of the ACC included in the reaction mixture was oxidized in 1 h, compared with 0.9% of the KMB. Conversion of ACC to ethylene by the membrane-bound enzyme was inhibited by Co2+, ATP and EDTA, while the inhibition of the oxidation of KMB by the same inhibitors was much less pronounced. These results suggest that ACC, the natural immediate precursor of ethylene, is specifically oxidized by the membrane-bound enzyme rather than through a nonspecific oxidation by free radicals.
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PMID:Free radicals play little role in the conversion of 1-aminocyclopropane-1-carboxylic acid to ethylene in carnation membrane fraction. 314 43

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