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 bactericidal activity of the human neutrophil is dependent on a coordinated series of events by which the bacteria become confined to a vacuole. Fusion of the azurophil and specific granules with the phagocytic vacuole results in secretion of BPI, the primary oxygen independent bactericidal protein, and of myeloperoxidase into the phagolysosome. Simultaneously, an electron transport chain, the NADPH oxidase, is activated in the membrane of the phagolysosome, resulting in generation of H2O2, which together with myeloperoxidase and Cl- forms a highly bactericidal agent. Digestion of the killed bacteria is subsequently effectuated by proteases and lipases of the neutrophil granules. The neutrophil thus has several highly efficient bactericidal systems that overlap to a certain degree, thereby giving the neutrophil an overcapacity to kill. This is appreciated in the defence against microorganisms, but is increasingly being recognized as a cause of perturbation of serum protease anti-protease homeostasis that may cause major tissue destruction. The recent achievements in the understanding of neutrophil function will hopefully permit better control to be exerted over this potent cell.
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PMID:Bactericidal mechanisms of the human neutrophil. An integrated biochemical and morphological model. 632 83

Generation of H2O2, an essential component in thyroid hormone synthesis, was studied by biochemical and cytochemical methods. Both parts of the study were performed on isolated open pig thyroid follicles in which the cells have preserved polarity and both the apical and basal cell surfaces are exposed to the incubation medium. The biochemical studies, performed with the scopoletin fluorescence assay, showed that H2O2 was released from the follicles into the medium at a rate of 0.5-1.0 nmol min-1 mg-1 DNA under basal conditions. The H2O2 release rate was promptly increased about 10 times by addition of the ionophore A23187 to Ca2+-containing medium. TSH caused an acute but weaker stimulation of H2O2 release, whereas (Bu)2cAMP was without effect, indicating that the TSH action was linked to Ca2+. Both basal and stimulated H2O2 release were strongly inhibited by p-chloromercuribenzene sulfonate. The cytochemical study, performed with the cerium technique, confirmed our previous observations on rat thyroid follicles. Reaction product was found on the apical cell surface but never on the basal cell surface or intracellularly. The apical reaction was enhanced by NADH and NADPH as well as by A23187 in Ca2+-containing medium. The apical reaction was strongly inhibited by p-chloromercuribenzene sulfonate. The observations indicate that the H2O2 released from the open follicles is generated on the apical plasma membrane of the follicle cells, possibly by NAD(P)H oxidase in this membrane. Furthermore, Ca2+ seems to be an important factor in the regulation of this H2O2 generation and, through that, in the regulation of iodination.
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PMID:Generation of H2O2 in isolated porcine thyroid follicles. 632 61

Control of the intraphagosomal pH in neutrophils may be of importance in creating a microbicidal environment by regulating the activity of the O2-.-generating NADPH oxidase and the lysosomal enzymes discharged into this compartment. In this study, we examined the proton stoichiometry associated with the primary enzymatic reaction underlying the respiratory burst. A preparation of the neutrophil-derived, membrane oxidase consumed NADPH and generated O2-. with a stoichiometry of 1 NADPH:2 O2-. When the enzymatically produced O2-. was prevented from undergoing dismutation, net protons were released in an approximate 1:2 stoichiometry with O2-. generated. In contrast, when O2-. was allowed to dismutate to H2O2, net protons were consumed in a 1:1 stoichiometry with the accumulated H2O2. Thus, the delta pH associated with the NADPH oxidase-dependent production of O2-. was dictated by the fate of the generated radical. The consumption of the oxidase-generated H2O2 by the lysosomal enzyme myeloperoxidase resulted in the formation of HOCl which was trapped in the presence of taurine as the N-chloro derivative. The ratio of chlorinated product formed to H+ consumed was 1:1. The implications of these results are discussed in terms of the known intraphagosomal pH changes that occur following neutrophil stimulation. We conclude that the O2-.-generating oxidase plays a dual role in the phagosome by simultaneously creating an oxidizing environment that optimizes pH-dependent microbicidal processes.
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PMID:Proton stoichiometry associated with human neutrophil respiratory-burst reactions. 649 Jun 51

This article gives a synopsis of the inflammatory reactions as well as its mediators under special consideration of the efferent part of the reaction. There is no doubt that histamine, complement, and the kinin system play an essential role; arachidonic acid (eicosatetraenic acid) and its metabolites, however, have gained comparable significance: prostaglandines, prostacyclines, and thromboxanes as metabolites of the cyclo-oxygenase, the leucotrienes SRS-A (slow reacting substances of anaphylaxis) and ECF (eosinophilic chemotactic factor) mediated via lipoxygenase. Moreover, oxygen and its metabolites hydrogen peroxide (H2O2), peroxide radicals (O-2), and hydroxyl radicals (.OH) as well as activated oxygen (singulett oxygen (1O2) play an important part with all aerobic living organisms. Inborn enzyme deficiency of the oxygen metabolism such as NADPH oxidase or cytochrome b-245 deficiency lead to chronic septic granulomatosis. The disease is characterized by reduced resistence against infections, decreased phagocytosis, insufficient killing of bacteria by leucocytes, and diminished oxygen burst. Thus the underlying enzyme deficiency leads to reduced formation of peroxide radicals frequently causing infections with septic complications. On the other hand, increased formation or reduced degradation of peroxide radicals may result in pathological reactions like chromosomal alterations, lipidperoxidation or oxidation of sulph-hydryl groups. The fact that increased peroxide radical formation may cause inflammation or chromosomal aberration is of importance with regard to the pathogenesis of several chronic inflammatory diseases of unknown etiology, such as systemic scleroderma or lupus erythematodes. The enzyme superoxide dismutase (SOD) converts peroxide radicals (O-2) into hydrogen peroxide (H2O2) which can be inactivated by catalase or peroxidase. Consequently, treatment with SOD may have an effective influence on chronic inflammatory dermatoses of unknown pathogenesis.
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PMID:[Biochemical aspects of the inflammatory reaction - with special reference to oxygen]. 666 95

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

A reduced nicotinamide adenine dinucleotide phosphate (NAD(P)H)-dependent H2O2-generating activity of the rat uterus was investigated both electron cytochemically and biochemically. We tried to cytochemically demonstrate H2O2 generation from the oxidation of reduced NADH or NADPH using the cerium method. NADPH oxidation resulted in electron-dense deposits on the apical plasma membrane covering the microvilli of the surface epithelium of the lightly fixed endometrium. In control specimens incubated in a medium from which substrate was omitted, no such deposits were observed. The reduction of ferricytochrome c due to NADH oxidation was spectrophotometrically detected in the lightly fixed uterus. Absorption at 550 nm increased with the addition of NADH, but not with that of NAD. The reaction was weakened by preheating and adversely affected by the addition of superoxide dismutase, but it was not inhibited by adding 50 mM sodium azide. These results suggest that a kind of NAD(P)H oxidase, generating H2O2 via superoxide formation, may possibly be present on the apical plasma membrane of the rat endometrial epithelium.
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PMID:Cytochemical localization of hydrogen peroxide production in the rat uterus. 672 36

1. The luminol-dependent chemiluminescence of rat thymocytes responding to concanavalin A can be resolved into glucose-dependent and glucose-independent portions. 2. The glucose-dependent portion, supported by D-glucose and D-mannose oxidation, is inhibited by catalase (200 microgram/ml), amobarbital (1 mM) and hexose analogues that block D-glucose uptake. Thus concanavalin A may activate, transiently, an NAD(P)H oxidase that utilizes reducing equivalents derived from the oxidation of exogenous glucose to give dismutation products of O2- (including H2O2) as its major products. 3. The glucose-independent portion is inhibited by eicosa-5,8,11,14-tetraynoic acid but not by indomethacin. It may therefore be associated with the conversion of hydroperoxy intermediates of arachidonic acid metabolism to hydroxy products by the lipoxygenase pathway. 4. Preincubation of thymocytes for 18 h in serum-free medium enhances the subsequent chemiluminescent response to concanavalin A severalfold and evokes the response at a lower threshold concentration. The incorporation of [3H]thymidine by preincubated cells is similarly enhanced at low doses of concanavalin A, whereas the response to optimal doses is unaltered. 5. Catalase does not inhibit the enhanced incorporation of [3H]thymidine obtained in response to concanavalin A, but instead amplifies the response to low doses in the same manner as preincubation.
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PMID:Concanavalin A-induced chemiluminescence in rat thymus lymphocytes. Its origin and role in mitogenesis. 697 84

The oxidation of NADH by mouse liver plasma membranes was shown to be accompanied by the formation of H2O2. The rate of H2O2 formation was less than one-tenth the rate of oxygen uptake and much slower than the rate of reduction of artificial electron acceptors. The optimum pH for this reaction was 7.0 and the Km value for NADH was found to be 3 X 10(-6) M. The H2O2-generating system of plasma membranes was inhibited by quinacrine and azide, thus distinguishing it from similar activities in endoplasmic reticulum and mitochondria. Both NADH and NADPH served as substrates for plasma membrane H2O2 generation. Superoxide dismutase and adriamycin inhibited the reaction. Vanadate, known to stimulate the oxidation of NADH by plasma membranes, did not increase the formation of H2O2. In view of the growing evidence that H2O2 can be involved in metabolic control, the formation of H2O2 by a plasma membrane NAD(P)H oxidase system may be pertinent to control sites at the plasma membrane.
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PMID:Generation of hydrogen peroxide on oxidation of NADH by hepatic plasma membranes. 733 20

Cooperation among plasma membrane receptors in activating signal transduction cascades is not well understood. For almost 20 years, it has been clear that when a particulate foreign body is opsonized with complement as well as IgG, the efficiency of IgG effector functions is markedly enhanced. However, the molecular mechanisms involved in cooperation between IgG Fc receptors and complement receptors have not been elucidated. In this work, we show that when human neutrophils (PMN) are plated on a surface coated with both anti-CR3 and anti-Fc gamma RIII antibodies, the respiratory burst which occurs is equivalent to that stimulated by anti-Fc gamma RII. The CR3 ligand iC3b is as effective as anti-CR3 for cooperating with anti-Fc gamma RIII in generation of a respiratory burst. The synergy between CR3 and Fc gamma RIII for activating the NADPH oxidase is abolished by Fab of anti-Fc gamma RII. Nonetheless, the observed synergy is not an artifact of unintended Fc gamma RII ligation, since (a) only this combination of antibodies works to generate H2O2; (b) coating plates with either of the antibodies alone cannot activate the respiratory burst at any dose; (c) LAD (CR3 deficient) cells, which are perfectly competent to mount a respiratory burst when Fc gamma RII is engaged, are incapable of activating the respiratory burst when adherent to wells coated with anti-Fc gamma RIII and anti-CR3; (d) direct engagement of Fc gamma RII activates the respiratory burst by a pathway pharmacologically distinguishable from the synergistic respiratory burst. Fc gamma RIII/CR3 synergy is abolished by cytochalasin B and herbimicin, suggesting that both the actin cytoskeleton and tyrosine phosphorylation are necessary for activation of the synergistic respiratory burst. Further analysis shows that CR3 and Fc gamma RIII have distinct roles in activation of this Fc gamma RII-dependent assembly of the NADPH oxidase. Ligation of CR3 is sufficient to lead to Fc gamma RII association with the actin cytoskeleton on the adherent PMN surface. Coligation of Fc gamma RIII is required for tyrosine phosphorylation of Fc gamma RII. These data are consistent with a model in which phosphorylation of Fc gamma RII or a closely associated substrate initiates activation of a signal transduction pathway leading to oxidase assembly. These are the first data to demonstrate a molecular mechanism for synergy between IgG Fc and complement receptors in activation of phagocyte effector functions.
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PMID:CR3 (Mac-1, alpha M beta 2, CD11b/CD18) and Fc gamma RIII cooperate in generation of a neutrophil respiratory burst: requirement for Fc gamma RIII and tyrosine phosphorylation. 751 90

Production of reactive oxygen intermediates (ROI) by the NADPH oxidase of neutrophils is a major mechanism of bacterial killing and, in pathologic circumstances, tissue damage. Integrins and selectins participate in neutrophil adhesion but may also play a role in intracellular signaling. The role of L-selectin in ROI production and Ca2+ signaling in suspended neutrophils was examined using the DREG series of anti-L-selectin antibodies. NADPH oxidase activation was assessed in three ways: H2O2 production using either scopoletin or dihydrorhodamine and O2- production using cytochrome c. Alterations in [Ca2+]i were measured using Fura 2-AM and fluorescence spectrophotometry. Cross-linking of L-selectin with DREG and 2 degrees antibody did not trigger production of H2O2 by itself but significantly enhanced the subsequent response to two soluble activating agents; the formyl peptide formyl-Met-Leu-Phe (fMLP) and tumor necrosis factor (TNF). Potentiation of the oxidative burst was observed using F(ab')2 fragments but not with irrelevant antibodies and was observed whether 2 degrees antibody was added before or after fMLP. Cross-linking of L-selectin also triggered a rise in [Ca2+]i, due, in part, to release from intracellular stores. The intracellular Ca2+ chelator BAPTA blocked both the rise in [Ca2+]i and the potentiation of the oxidative burst in response to fMLP or TNF. We conclude that cross-linking of L-selectin induces intracellular signals, including release of Ca2+, which may contribute to potentiation of the oxidative burst.
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PMID:Potentiation of the oxidative burst of human neutrophils. A signaling role for L-selectin. 751 34

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