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)

All of the common cytochalasins activate superoxide anion release and exocytosis of beta-N-acetylglucosaminidase and lysozyme from guinea-pig polymorphonuclear leukocytes (neutrophils) incubated in a buffered sucrose medium. Half-maximal activation of both processes is produced by approx. 0.2 microM cytochalasin A, C greater than 2 microM cytochalasin B greater than or equal to 4-5 microM cytochalasin D, E. While maximal rates of O2- release and extents of exocytosis require extracellular calcium (1-2 mM), replacing sucrose with monovalent cation chlorides is inhibitory to neutrophil activation by cytochalasins. Na+, K+ or choline inhibit either cytochalasin B- or E-stimulated O2- production with IC50 values of 5-10 mM and inhibition occurs whether Cl-, NO3- or SCN- is the anion added with Na+ or K+. Release of beta-N-acetylglucosaminidase in control or cytochalasin B-stimulated cells is inhibited by NaCl(IC50 approximately 10 mM), while cytochalasin E-stimulated exocytosis is reduced less and K+ or choline chloride are ineffective in inhibiting either cytochalasin B- or E-stimulated exocytosis. Release of beta-glucuronidase, myeloperoxidase or acid phosphatase from neutrophils incubated in buffered sucrose is not stimulated by cytochalasin B. Stimulation of either O2- or beta-N-acetylglucosaminidase release by low concentrations of cytochalasin A is followed by inhibition of each at higher concentrations. It appears that all cytochalasins can activate both NAD(P)H oxidase and selective degranulation of neutrophils incubated in salt-restricted media and that differential inhibition of these two processes by monovalent cations and/or anions is produced at some step(s) subsequent to cytochalasin interaction with the cell.
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PMID:Activation of superoxide production and differential exocytosis in polymorphonuclear leukocytes by cytochalasins A, B, C, D and E. Effects of various ions. 627 16

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

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

Approved type strains of Streptococcus sanguis, S. mitis, S. mutans, and S. salivarius were grown under aerobic and anaerobic conditions. The rate of hydrogen peroxide excretion, oxygen uptake, and acid production from glucose by washed-cell suspensions of these strains were studied, and the levels of enzymes in cell-free extracts which reduced oxygen, hydrogen peroxide, or hypothiocyanite (OSCN-) in the presence of NADH or NADPH were assayed. The effects of lactoperoxidase-thiocyanate-hydrogen peroxide on the rate of acid production and oxygen uptake by intact cells, the activity of glycolytic enzymes in cell-free extracts, and the levels of intracellular glycolytic intermediates were also studied. All strains consumed oxygen in the presence of glucose. S. sanguis, S. mitis, and anaerobically grown S. mutans excreted hydrogen peroxide. There was higher NADH oxidase and NADH peroxidase activity in aerobically grown cells than in anaerobically grown cells. NADPH oxidase activity was low in all species. Acid production, oxygen uptake, and, consequently, hydrogen peroxide excretion were inhibited in all the strains by lactoperoxidase-thiocyanate-hydrogen peroxide. S. sanguis and S. mitis had a higher capacity than S. mutans and S. salivarius to recover from this inhibition. Higher activity in the former strains of an NADH-OSCN oxidoreductase, which converted OSCN- into thiocyanate, explained this difference. The change in levels of intracellular glycolytic intermediates after inhibition of glycolysis by OSCN- and the actual activity of glycolytic enzymes in cell-free extracts in the presence of OSCN- indicated that the primary target of OSCN- in the glycolytic pathway was glyceraldehyde 3-phosphate dehydrogenase.
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PMID:Hydrogen peroxide excretion by oral streptococci and effect of lactoperoxidase-thiocyanate-hydrogen peroxide. 683 37

NADPH oxidase from stimulated guinea pig granulocytes was extracted with deoxycholate. The solubilized enzyme was stable in 20% glycerol. Solubilized enzyme was free of myeloperoxidase activity. The properties of the deoxycholate solubilized enzyme indicated that it is a high molecular weight complex with a flavoprotein, calmodulin and cytochrome b possibly forming part of the complex. Maximum activity was between pH 7.0 and 7.5. The Km value was 15.8 microM for NADPH and 434 microM for NADH indicating that NADPH is the preferential substrate.
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PMID:The NADPH oxidase of guinea pig polymorphonuclear leucocytes. Properties of the deoxycholate extracted enzyme. 686 30

We established the system to detect superoxide produced by Epstein Barr virus lymphoblastoid cell line (EB-LCL). Superoxide production of EB-LCL was evaluated by measuring chemiluminescence (CL) enhanced with addition of horseradish peroxidase (HRP). Using this system, we measured CL of EB-LCL established from 13 patients with chronic granulomatous disease (CGD) and 8 normal individuals. Significant elevation of CL was observed in all control EB-LCLs, however, no remarkable CL was seen in any patients' EB-LCLs. We examined the effect of recombinant human interferon gamma (rh-IFN-gamma) and granulocyte colony stimulating factor (G-CSF) on CL of EB-LCL in vitro. With addition of rh-IFN-gamma, CL of normal control EB-LCL was significantly enhanced (p < 0.05), on the other hand, G-CSF was shown to have no effect. No significant CL was observed in any CGD patients' EB-LCLs even with addition of rh-IFN-gamma or G-CSF. It was suggested that superoxide produced by EB-LCL detected in this system was dependent on the same NADPH oxidase system which presents in phagocyte.
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PMID:[Establishment of superoxide production assay system using Epstein-Barr virus transformed cell line with chemiluminescence]. 755 50

Administration of single doses of 0.1 mg L-triiodothyronine (T3)/kg for 3 consecutive days to fed rats produced a drastic increase in the respiratory burst activity of isolated polymorphonuclear leukocytes (PMN), stimulated with serum-opsonized zymosan. This effect was evidenced by the 3.8-fold increment in the integrated chemiluminescence, and seems to be primarily related to the enhanced activity of NADPH oxidase elicited by T3 treatment, with the observed higher myeloperoxidase activity playing a contributory role. In these conditions, hyperthyroidism determines a net enhancement in the oxidant capacity of PMN, as the increased rate of O2.- generation found occurs in the absence of changes in the activity of superoxide dismutase.
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PMID:On the mechanism of thyroid hormone-induced respiratory burst activity in rat polymorphonuclear leukocytes. 755 50

The ability of neutrophils to phagocytose and kill Candida species as well as the splenic phagocytic function were investigated in workers from a mercury-producing plant. In the neutrophil phagocytosis study, two species of Candida were used since in individuals with myeloperoxidase deficiency neutrophils are unable to kill Candida albicans, while Candida pseudotropicalis can be effectively lysed. Phagocytosis of both antigens and splenic phagocytic function were normal in all the workers studied. However, following ingestion of the organisms there was considerable reduction in the ability of neutrophils from exposed workers to kill both species of Candida, and this was not explained by a mild impairment of phagocytosis. After improvement in the hygiene conditions in the factory, a new evaluation was performed, 6 months later, in the same workers and urinary mercury concentrations were determined monthly in each worker. Despite a significant reduction in urinary mercury concentrations, a greater impairment in the ability of neutrophils to kill C. albicans was observed. The killing of C. pseudotropicalis presented no further impairment when compared to the previous evaluation. These results suggest that impairment of the lytic activity of neutrophils from workers with urinary mercury concentrations within the safe level for exposed population is due, at least in part, to some interference with myeloperoxidase activity. In addition, the mercury-NADPH complex, once formed, could limit the utilization of reduced pyridine nucleotides by NADPH-dependent enzymes such as NADPH oxidase, thereby inhibiting the PMN respiratory burst.
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PMID:Polymorphonuclear phagocytosis and killing in workers exposed to inorganic mercury. 770 62

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