EC:1.6.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatic microsomes from rats fed a crude or a purified diet were compared by measureing their contents of protein, cytochrome P-450, and cytochrome b5, their rates of activity of NADPH- and NADH-cytochrome c reductases, NADPH-cytochrome P-450 reductase, NADPH oxidase, lipid peroxidase, ethylmorphine N-demethylase, aniline hydroxylase, benzpyrene hydroxylase, and their substrate-binding spectra (ethylmorphine, hexobarbital, aniline, and ethyl isoyanide). With the exception of lipid peroxidase activity, which was much higher in microsomes from animals fed the crude diet, little or no consistent diet-related differences in these measurements were observed over a 4-week experimental period, nor were results significantly less variable with one or the other diet. No consistent significant differences were observed with two strains of rats. The lower lipid peroxidase activity seen with the purified diet appeared to be due to the high vitamin E intake when that diet was employed; rats fed the crude diet and an oral supplement of alpha-tocopherol yielded microsomes with low lipid peroxidase activities similar to those seen in microsomes from rats fed the purified diet. A gradual temporal increase in benzpyrene hydroxylase activity was observed with both diets. This was interpreted to be due to environment inducing agents other than those present in the diet.
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PMID:Comparison of hepatic microsomal drug-metabolizing systems from rats fed crude and purified diets. 0 25

Cyanide has been shown to stimulate both oxygen uptake and hexose monophosphate shunt activity in phagocytizing human polymorphonuclear leukocytes. It also stimulates the oxidation of NADPH by a particulate fraction derived from phagocytizing cells. This stimulation of NADPH oxidase is not observed in the presence of exogenous Mn2+. Studies with purified enzymes have shown that CN- also stimulates NADPH oxidation by horseradish peroxidase or lactoperoxidase, suggesting that the respiratory burst might be initiated by activation of a peroxidase-like enzyme in the human polymorphonuclear leukocyte. Based on studies of others, however, it does not appear as though the enzyme is identical to myeloperoxidase. The mechanism of the CN- stimulation appears to involve an oxidatic chain reaction, since it stimulates markedly NADPH oxidation in the presence of an artificial superoxide-generating system.
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PMID:Effect of cyanide on NADPH oxidation by granules from human polymorphonuclear leukocytes. 1 79

The disruption of the molecular organization of the plasma membrane of leukocytes by phagocytosable particles, or by agents such as surfactants, antibodies, phospholipase C, fatty acids and chemotactic factors, leads to a stimulation of the phagocyte oxidative metabolism. Concanavalin A (Con A) has been used as a tool to study the mechanism of this metabolic regulation. The binding of Con A to the surface of polymorphonuclear leukocytes (PMNL) or macrophages produces a rapid enhancement of oxygen uptake and glucose oxidation through the hexose monophosphate pathway (HMP). This is explained by an activation of the granular NADPH oxidase, the key enzyme in the metabolic stimulation. The effect of Con A is not due to endocytosed lectin, since Con A covalently coupled to large sepharose beads still acts as stimulant. The metabolic changes caused by Con A are reversible. If, after the onset of stimulation, sugars with high affinity for Con A are added to the leukocyte suspension, the activity of granular NADPH oxidase and the rate of respiration and glucose oxidation return to their resting values. The metabolic burst, while partially supressed by treatment of PMNL with iodoacetate, sodium flouride and cytochalasin B, is slightly increased by colchicine. Con A induces a selective release of granular enzymes (beta-glucuronidase, peroxidase, alkaline phosphatase) from PMNL, whereas no leakage of cytoplasmic enzymes is observed. The enzyme release is inhibited by iodoacetate and by drugs known to increase cell levels of cyclic AMP. Based on a current view of the mode of interaction between Con A and cell surfaces, a model of the metabolic disruption of leukocytes is presented.
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PMID:Concanavalin A as a probe for studying the mechanism of metabolic stimulation of leukocytes. 16 45

We have compared the oxidative metabolism of human eosinophils (80%-90% purity) to that of neutrophils. Hexose monophosphate (HMP) shunt activity of eosinophils was higher than that of neutrophils under either resting or phagocytizing conditions. Eosinophil HMP shunt activity also was stimulated by phorbol myristate acetate, a membrane-active agent. Eosinophils showed a marked incorporation of 125I into trichloroacetic acid-insoluble material under resting conditions, which increased markedly during phagocytosis. Eosinophils likewise showed a greater reduction of nitroblue tetrazolium dye during phagocytosis than did neutrophils. Measurement of other parameters of oxidative metabolism indicated that eosinophils generated superoxide anion following phagocytosis and also elicited a burst of chemiluminescence similar to that observed during phagocytosis by neutrophils. Measurement of NADPH oxidase activity demonstrated that this enzyme was 3-6 times more active in fractions isolated from eosinophils than in corresponding fractions isolated from neutrophils; this was observed over a range of substrate concentrations. The eosinophil enzyme sedimented differently than the neutrophil enzyme with differential centrifugation; neither showed sedimentation characteristics of peroxidase. These data indicate that eosinophils possess a similar, although in some ways more potent, oxidative burst than neutrophils and are consistent with a role for NADPH oxidase in the initiation of that burst.
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PMID:Oxidative metabolism of the human eosinophil. 88 25

Results are presented indicating that, although glutathione peroxidase activity inhibits lipid peroxidation in membranes, it does not appear to do so by reducing membrane lipid peroxides to lipid alcohols, as has been shown by others to be the case for free fatty acid peroxides in solution. Lipid peroxidation was studied in an enzymic system (microsomal NADPH oxidase) and in a non-enzymic system (mitochondria plus ascorbate). A study of the fatty acids in the phospholipids of microsomes and mitochondria demonstrated that detectable amounts of hydroxy fatty acids were not formed in the membranes when the latter were incubated in the presence of the glutathione peroxidase system even under conditions known to have generated significant levels of lipid peroxides in the membrane. Fatty acid analyses of the microsomal and mitochondrial particles indicated that glutathione peroxidase activity inhibited loss of polyunsaturated fatty acids when these organelles were exposed to peroxidizing conditions. If glutathione peroxidase activity were inhibiting the formation of malondialdehyde (a product of lipid peroxidation) by converting peroxide groups to alcohols, the loss of the constitutive polyunsaturated fatty acids in the membrane should not have been appreciably affected by addition of the peroxidase system. The protective effect cannot be due to quenching of an autocatalytic type of lipid peroxidation (at least in the microsomal system) since it has been established that the microsomal enzyme system (NADPH oxidase) catalyzes a continuous attack on microsomal polyunsaturated fatty acyl groups during the reaction and that the peroxidative process is not autocatalytic in nature. It appears, therefore, that glutathione peroxidase activity must exert its effect on this system by preventing free radical attack on the polyunsaturated membrane lipids in the first place. A possible mechanism for the interruption of a free radical attack on the lipids is proposed.
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PMID:Effect of glutathione peroxidase activity on lipid peroxidation in biological membranes. 94 86

The effects of several known inhibitors and activators of peroxidase-catalyzed reactions have been studied on the NADPH oxidase activity of granules isolated from polymorphonuclear leukocytes at rest or during phagocytosis. Redogenic substances, such as ascorbate or hydroquinone, and superoxide dismutase, which are known to inhibit peroxidase-catalyzed reactions, also inhibited the NADPH oxidase activity of granules. Oxidogenic substances, such as guaiacol or resorcinol, and manganese, which are known to stimulate peroxidase-catalyzed reactions, also activated the NADPH oxidase activity of granules. Cyanide, an inhibitor of peroxidase-catalyzed reactions, inhibited the NADPH oxidase activity of granules isolated from resting leukocytes but only slightly affected that of granules isolated from phagocytosing cells, as previously reported. A list of the properties of the NADPH oxidase activity of granules and of peroxidase oxidase activity is given. The arguments in favor of and those against a possible identity of the two activities are discussed.
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PMID:Studies on the mechanism of metabolic stimulation in polymorphonuclear leukocytes during phagocytosis. Activators and inhibitors of the granule bound NADPH oxidase. 97 61

The mechanism by which the yeast form of Blastomyces dermatitidis resists killing by human peripheral blood polymorphonuclear neutrophils (PMN) was investigated. The metabolic products of the oxidative burst generated during the interaction of PMN and B. dermatitidis or Candida albicans were detected by lucigenin- or luminol-enhanced chemiluminescence (CL). Interaction of PMN and C. albicans resulted in luminol-enhanced CL 100-fold greater than that generated by PMN and B. dermatitidis. This correlated with killing of C. albicans and resistance of B. dermatitidis. Since B. dermatitidis and PMN interactions resulted in significant lucigenin-enhanced CL, deficient luminol CL was not due to a lack of products from the NADPH oxidase system. Killed B. dermatitidis cells at 37 degrees C were more efficient than live cells in stimulating PMN for luminol-enhanced CL; however, only fragmented B. dermatitidis cells elicited luminol-enhanced CL equivalent to that of C. albicans. Since lysates of PMN were active in a cell-free hydrogen peroxide-peroxidase-halide system, resistance of B. dermatitidis to PMN was not due to a defect in PMN peroxidase. Taken together, these findings indicate that resistance of B. dermatitidis to killing by PMN results from inefficient generation of products from the peroxidase-dependent PMN microbicidal system.
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PMID:A basis for resistance of Blastomyces dermatitidis killing by human neutrophils: inefficient generation of myeloperoxidase system products. 132 54

Activation of human neutrophils by PMA causes a post-translational incorporation of 14C-labeled tyrosine into multiple neutrophil (PMN) proteins, that is distinctly different from the enzymatic tyrosinolation of tubulin in FMLP-stimulated PMN. Post-translational incorporation of other radiolabeled amino acids, including the structurally similar amino acid phenylalanine, does not occur under identical conditions of neutrophil activation, suggesting an involvement of the phenolic hydroxyl group of tyrosine in the PMA-mediated reaction. Similar to the stimulation of PMN tubulin tyrosinolation by FMLP, the PMA-induced incorporation of tyrosine into multiple PMN proteins is closely associated with activation of the NADPH oxidase-mediated respiratory burst in stimulated PMN and can be inhibited by a variety of reducing agents, inhibitors of peroxidase-mediated reactions, and intracellular scavengers of oxygen radicals. Moreover, the PMA-induced post-translational incorporation of tyrosine does not occur in PMN from patients with chronic granulomatous disease and is significantly reduced (50%) in PMN of an individual with myeloperoxidase deficiency. A similar stimulus-induced incorporation of tyrosine into multiple PMN proteins is also observed in PMN exposed to various phagocytic stimuli, and the incorporated radioactivity in cells undergoing phagocytosis is substantially enriched (40- to 50-fold) in isolated PMN phagolysosomes. Consistent with this latter observation, HPLC fractionation of stimulated PMN proteins and analysis of the incorporated radioactivity reveal that the 14C label is primarily associated with PMN membrane proteins. Furthermore, this post-translational incorporation of tyrosine, like that associated with PMA stimulation, is associated with production of oxygen radicals and the generation of protein carbonyl derivatives, which are indicative of oxidative protein modifications via mixed function oxidases. Our findings indicate that tyrosine incorporation into membrane proteins of stimulated PMN is functionally relevant to the physiologic host-defense responses of human neutrophils undergoing phagocytosis.
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PMID:A novel post-translational incorporation of tyrosine into multiple proteins in activated human neutrophils. Correlation with phagocytosis and activation of the NADPH oxidase-mediated respiratory burst. 133 Dec 34

NADPH oxidation catalyzed by horseradish peroxidase is considerably increased by scopoletin and superoxide dismutase. These effects were used to develop a method for measuring H2O2 in a horseradish peroxidase, superoxide dismutase, and scopoletin system by measuring the NADPH oxidation rate. The optimal concentration of each reactant was determined. H2O2 could be detected and measured when it was present free in the medium or when it was produced by an H2O2-generating system, such as glucose-glucose oxidase or NADPH oxidase from thyroid plasma membranes. H2O2 was measured either by taking aliquots of the incubation medium or by placing NADPH directly in the medium and following the kinetics of NADPH oxidation. This latter approach required smaller amounts of biological material. In contrast to other methods, the H2O2 which is measured is regenerated. This method is 10 times more sensitive than the standard scopoletin method for H2O2 measurement and will detect a H2O2 production rate as low as 0.2 nmol per hour. The method is particularly suitable for biological systems in which small quantities of biological material are available.
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PMID:A method for measuring H2O2 based on the potentiation of peroxidative NADPH oxidation by superoxide dismutase and scopoletin. 144 13

A novel peroxidase that catalyses the dimerization of ferulic acid or caffeic acid via oxidative coupling and formation of beta beta'-linkage to the lignan-type compounds 8,8'-bis(caffeic acid) or 8,8'-bis(ferulic acid) respectively was purified from the leaves of Bupleurum salicifolium. The enzyme, for which the name caffeate peroxidase is proposed, was purified 2700-fold. It is a glycoprotein and has an Mr of 38,000 as determined by gel filtration and SDS/PAGE. The Km values for ferulic acid and caffeic acid were 0.24 mM and for H2O2 0.04 mM with caffeic acid and 0.48 mM with ferulic acid. The purified peroxidase does not exhibit activity on other phenylpropanoids tested and has no detectable phenol oxidase or NADPH oxidase activity. The caffeate peroxidase could be involved in the biosynthesis of lignans.
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PMID:Purification of a new peroxidase catalysing the formation of lignan-type compounds. 184 25

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