EC:1.6.3.1 - FACTA Search

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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)

The determination of the coenzymes NAD+, NADH, NADP+ and NADPH, by the use of a method of enzymatic cycling, demonstrates that the enzymes responsible for the stimulations found during the phagocytosis of Staphylococcus albus are NADH and NADPH oxidase of human leukocytes and NADPH oxidase in the case of guinea pig leukocytes. The effects of serum, of the bacterial strain used and of phospholipase C are also discussed.
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PMID:The energy metabolism of the leukocyte. IX. Changes in the concentration of the coenzymes NAD, NADH, NADP, and NADPH in polymorphonuclear leukocytes during phagocytosis of Staphylococcus albus and due to the action of phospholipase C. 1 47

Mn2+ was shown to catalyze a nonenzymatic oxidation of NADPH in the presence of superoxide anion by means of an isotopic assay for measurement of the oxidation of NADPH to NADP+. Human polymorphonuclear leukocyte granule NADPH oxidase activity was evaluated in the absence of Mn2+ and was found to be higher in granules from phagocytizing cells than in granules from resting cells. The drug phorbol myristate acetate, which affects the oxidative metabolism of the neutrophil like phagocytosis, was found to activate granule NADPH oxidase activity. Superoxide dismutase was shown to inhibit NADPH oxidase activity both in the presence and absence of added Mn2+. The NADPH oxidase reaction in the absence of Mn2+ was optimal at pH 5.5, and was more linear with increasing time and protein concentration than in the presence of Mn2+. No activity was measurable in granules isolated from resting cells until the level of NADPH added was above 0.25 mM. Activity was present in granules isolated from cells challenged with opsonized zymosan, even at 0.05 mM NADPH, and was higher than the activity found in granule fractions from resting cells at all levels of NADPH tested. The addition of as little as 0.1 muM NADH to the reaction mixture was found to inhibit granular NADPH oxidase activity, indicating a possible regulatory role for NADH. These results suggest that NADPH oxidase may be the enzyme that initiates the metabolic events accompanying phagocytosis.
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PMID:Further characterization of NADPH oxidase activity of human polymorphonuclear leukocytes. 96 84

The NADPH oxidase is a multicomponent enzyme system that produces the reduced oxygen species essential for bacterial killing by polymorphonuclear leukocytes (PMN). Study of the oxidase has typically been carried out in cell-free systems in which Km values of 20-150 microM NADPH have been reported. However, when compared with affinities reported for other flavoprotein dehydrogenases and when considering the cellular concentration of NADPH/NADP+ of approximately 35 microM, the reported affinity of the oxidase for NADPH appears low. To investigate this apparent discrepancy we have studied the kinetics of NADPH oxidase activation in situ in human PMN permeabilized with Staphylococcus aureus alpha-toxin. alpha-Toxin permeabilization of human PMN did not initiate NADPH oxidase activation at physiologic concentrations of NADPH. If permeabilized cells were stimulated with 1 microM formyl-methionyl-leucyl-phenylalanine, 10 microM guanosine 5'-O-(3-thiotriphosphate), 0.5 mM Ca2+, 5 micrograms/ml cytochalasin B in the presence of varying concentrations of NADPH, we were able to demonstrate activation of the oxidase complex as shown by superoxide dismutase-inhibitable reduction of cytochrome c. In this system we determined that the Km for oxidase activation was 4-7 microM NADPH, a 4-10-fold decrease from reported values. The oxidase was the enzyme being studied as shown by the absence of enzymatic activity in patients with chronic granulomatous disease. In addition, if the enzyme was initially activated in permeabilized cells, the cells homogenized, and the Km for the oxidase determined in a cell-free system, the observed Km reverted to previously reported values (36 microM). These results indicate that NADPH oxidase, studied in situ, has a significantly higher substrate affinity than that observed in isolated membranes and, moreover, indicate that substrate affinity is optimal for catalysis at reported concentrations of cytosolic NADPH.
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PMID:Activation of NADPH oxidase in human neutrophils permeabilized with Staphylococcus aureus alpha-toxin. A lower Km when the enzyme is activated in situ. 130 41

When a particulate NADPH oxidase prepared from phorbol ester-activated human neutrophils was treated with pyridoxal 5'-diphospho-5'-adenosine (PLP-AMP), the superoxide anion-producing activity was inhibited according to affinity labeling kinetics. NADPH afforded a protection against inactivation which was competitive with respect to PLP-AMP; 2',5'-ADP and 2'-phospho-5' diphosphoadenosine (ATP ribose) appeared to be as potent as NADPH as protecting agents. NADP+ and ATP were less effective, while ADP and GTP-gamma-S did not protect significantly. These results suggest that PLP-AMP can be used, in conjunction with tritiated cyanoborohydride, to identify the elusive NADPH-dependent flavoprotein which is part of the electron transfer chain of NADPH oxidase.
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PMID:Inactivation of NADPH oxidase from human neutrophils by affinity labeling with pyridoxal 5'-diphospho-5'-adenosine. 176 75

This laboratory has recently reported that, in a reconstituted enzyme system containing alcohol-induced isozyme 3a of liver microsomal cytochrome P-450, the sum of acetaldehyde generated by the monooxygenation of ethanol and of hydrogen peroxide produced by the NADPH oxidase activity is inadequate to account for the O2 and NADPH consumed. Studies on the stoichiometry have revealed the occurrence of an additional reaction involving an overall 4-electron transfer to molecular oxygen which is presumed to yield water: O2 + 2 NADPH + 2H+----2 H2O + 2 NADP+. The occurrence of a peroxidase reaction in which free H2O2 is reduced to water by NADPH was ruled out. When the 4-electron oxidase activity is taken into account, measurements of NADPH oxidation and O2 consumption are in accord with the amounts of products formed in the presence of various P-450 isozymes, either in the absence or presence of typical substrates, including those which undergo hydroxylation, N- or O-demethylation, or oxidation of hydroxymethyl to aldehyde groups. Of the substrates examined, some had no effect on the oxidase reaction yielding hydrogen peroxide or the 4-electron oxidase reaction, some were inhibitory, and some were stimulatory, but the same substrate did not necessarily have the same effect on the two reactions.
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PMID:On the stoichiometry of the oxidase and monooxygenase reactions catalyzed by liver microsomal cytochrome P-450. Products of oxygen reduction. 672 72

Chemical cross-linkage of the positively charged viologen N-methyl-N'-(aminopropyl)-4-4'-bipyridinium dibromide (APMV) to the enzyme ferredoxin-NADP+ reductase from the cyanobacterium Anabaena PCC 7119 has been performed using the carbodiimide 1-ethyl[3-(3-dimethylaminopropyl)]carbodiimide. 0.5-1 mol, depending on the preparation, is introduced for each mol enzyme. The residue involved in the covalent linkage with the viologen, Glu139, has been identified using HPLC separation of the modified proteolytic peptides and subsequent sequencing. Modification of the enzyme changes its catalytic specificity since it is able to react directly with oxygen; this is observed by a high NADPH oxidase activity, which is completely absent in the native enzyme. More important, this new enzymic activity is indicative of the intramolecular electron transfer between the natural redox cofactor FAD and the artificially introduced viologen. Electrons can also flow in the reverse direction, from the viologen to the FAD group, then to NADP+, when the reaction is performed using glassy-carbon electrodes to reduce the viologen. Cyclic voltammetry experiments have shown that there is a small catalytic current between the electrode and the enzyme which is not observed in the native enzyme.
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PMID:The covalent linkage of a viologen to a flavoprotein reductase transforms it into an oxidase. 758 6

We have shown previously that human neutrophil microsomes contain a highly specific dehydrogenase which, in the presence of NADP+, converts 5S-hydroxy-6,8,11,14-eicosatetraenoic acid (5S-HETE) to its 5-oxo metabolite, 5-oxo-ETE, a potent agonist of these cells. However, intact neutrophils convert 5S-HETE principally to its omega-oxidation product, 5,20-diHETE, and to only small amounts of 5-oxo-ETE. Phorbol myristate acetate (PMA) dramatically shifts the metabolism of 5S-HETE by intact cells so that 5-oxo-ETE is the major metabolite. The objective of this investigation was to determine the mechanism for the stimulatory effect of PMA on 5-oxo-ETE formation. The possibility that oxidants released in response to PMA nonenzymatically oxidized 5S-HETE was ruled out, since PMA did not appreciably stimulate the formation of 5-oxo-ETE from 5R-HETE. On the other hand, inhibition of NADPH oxidase either by diphenylene iodonium or by mild heating nearly completely prevented the stimulatory effect of PMA on the formation of 5-oxo-ETE. The possibility that this effect was mediated by superoxide seems unlikely, since it was still observed, although somewhat attenuated, in the presence of superoxide dismutase. Moreover, superoxide generated by another mechanism (xanthine/xanthine oxidase) did not appreciably affect the formation of 5-oxo-ETE by neutrophils. However, phenazine methosulfate, which can nonenzymatically convert NADPH to NADP+, mimicked the effect of PMA on 5-oxo-ETE formation by intact neutrophils. It is concluded that PMA acts by activating NADPH oxidase, resulting in conversion of NADPH to NADP+, which enhances the formation of 5-oxo-ETE and reduces the formation of 5,20-diHETE. Serum-treated zymosan has an effect on the metabolism of 5S-HETE similar to that of PMA in that it also stimulates the formation of 5-oxo-ETE and inhibits that of 5,20-diHETE.
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PMID:Phorbol myristate acetate stimulates the formation of 5-oxo-6,8,11,14-eicosatetraenoic acid by human neutrophils by activating NADPH oxidase. 792 34

Earlier studies have established that mutant strains of Azotobacter vinelandii that do not synthesize ferredoxin I (AvFdI) overexpress another protein designated Protein X (Morgan, T. V., Lundell, P. J., and Burgess, B. K. (1988) J. Biol. Chem. 263, 1370-1375). This protein has now been purified using two-dimensional gel electrophoresis as an assay. The purified protein is a monomer with M(r) approximately 29,000 which degrades slowly to a specific M(r) approximately 22,000 form when stored in solution. The native protein is bright yellow and contains noncovalently attached FAD that is reduced by either dithionite or NADPH without formation of a stable semiquinone. Titration with NADP+/NADPH gives an E0' value of approximately -327 mV versus SHE. Because this E0' is so close to that of the NADP+/NADPH couple it is not clear if Protein X is an NADPH oxidase or an NADP+ reductase in vivo. Comparison of the NH2-terminal sequence and other properties of Protein X with those of other proteins, suggests that it is likely to be related to the Escherichia coli ferredoxin NADP+ reductase (the fpr gene product), and affinity chromatography shows that Protein X binds specifically to AvFdI.
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PMID:Purification and characterization of a NADP+/NADPH-specific flavoprotein that is overexpressed in FdI- strains of Azotobacter vinelandii. 803 7

Protein X from Azotobacter vinelandii has recently been shown to be either a NADPH oxidase or a NADP+ reductase that interacts specifically with ferredoxin I. Single crystals have been obtained by vapor diffusion from polyethylene glycol 4000 solutions containing 100 mM citrate buffer (pH 5.5). The crystals belong to space group P2(1)2(1)2 with unit cell constants a = 68.9 A, b = 76.9 A, c = 52.8 A and one molecule (M(r) 29,000) per asymmetric unit. The crystals diffract to 2.5 A resolution.
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PMID:Diffraction quality crystals of protein X from Azotobacter vinelandii. 805 82

The respiratory-burst reaction has been studied in rat peritoneal macrophages of different ages (3, 12 and 24 months) using phorbol 12-myristate 13-acetate (PMA) to stimulate NADPH oxidase. Production of O2-. and H2O2 decreased with age (about 50 and 75% respectively); however, no difference in NADPH oxidase activity was found. NO. production was also reduced with age (40%). Furthermore, a progressive and significant decrease in the pentose phosphate flux was detected as a function of age in control and PMA-stimulated macrophages. The NADPH/NADP+ ratio decreased with age in control and PMA-stimulated macrophages. Glucose uptake was lower in middle-aged (12 months) and old (24 months) animals but no differences were found between these groups.
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PMID:Decrease in free-radical production with age in rat peritoneal macrophages. 852 70

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