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)

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

Several types of compound exert their cytotoxicity by generating reactive oxygen species, notably the superoxide anion radical. These include quinoid and nitroaromatic compounds serving as redox cyclers, i.e. producing superoxide at the expense of NADPH and oxygen catalyzed by cellular reductases. In specialized cell-types employed in defense such as granulocytes, eosinophils and macrophages, myeloperoxidase, NADPH oxidase and nitric oxide synthase have been identified as major sources of reactive oxygen species in cell toxicity. These include hypochlorite, singlet oxygen, superoxide, nitric oxide and hydrogen peroxide. The interaction of superoxide and nitric oxide generates further oxidants such as peroxynitrite. Lumino-amplified chemiluminescence generated by Kupffer cells is partially sensitive to inhibitors of NO synthase. Superoxide dismutase has been found to catalyze a novel reaction, the reversible conversion of nitric oxide to the nitroxyl anion, the latter being viewed as another form of EDRF. In the defense against oxidative damage, there are enzymatic and nonenzymatic antioxidants. Regarding compounds used pharmacologically, we have been interested in ebselen, a seleno-organic compound exhibiting GSH peroxidase activity, which protects against reactive oxygen species generated, for example, at reoxygenation following a period of hypoxia. Further, we have studied lipoate and dihydrolipoate as antioxidant redox system and as singlet oxygen quencher, e.g. protecting against damage of deoxyguanosines in plasmid DNA generated by singlet oxygen.
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PMID:Role of reactive oxygen species in cell toxicity. 133 81

Neutrophils stimulated with formyl-methionyl-leucyl-phenylalanine (fMLP) or leukotriene B4 (LTB4) generated kinetically distinctive luminol augmented chemiluminescence (LCL). Inhibitors of .O2- [superoxide-dismutase (SOD) or tiron], H2O2 (catalase), myeloperoxidase, MPO, (NaN3), HOCl (taurine) and .OH (mannitol) hampered LCL dose-dependently with similar characteristics for both stimuli. In cell free systems it was found that .O2- (generated in the xanthine/xanthine-oxidase reaction) or H2O2 produced LCL. Superoxide dismutase inhibited .O2- -induced LCL dose dependently. The MPO + H2O2 system, which generated more pronounced LCL than either component alone, was inhibited by catalase and taurine but not by SOD. When neutrophils, treated with luminol, but where extracellular luminol had been removed, were stimulated with fMLP or LTB4, they produced less than 2% of the LCL where luminol was present in the medium. When neutrophil LCL and superoxide formation by the cytochrome C method were assessed in parallel experiments, in all instances the peak LCL response coincided with the linear phase in that response. Thus, LCL, induced by LTB4 and the corresponding fMLP peak, are extracellular events with similar chemical backgrounds, closely related to generation of reactive oxygen species. Consequently, the kinetical differences in LCL between fMLP and LTB4 suggest that LTB4, by yet unknown mechanisms, activates the NADPH oxidase more rapidly than fMLP.
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PMID:Mechanisms for luminol-augmented chemiluminescence from neutrophils induced by leukotriene B4 and N-formyl-methionyl-leucyl-phenylalanine. 254 May

Superoxide dismutase (SOD), a metal containing enzyme is present in parasite Leishmania donovani as well as in host macrophages both resident and activated in a detectable amount, although the level is much higher in the latter case. It is observed that at any particular protein concentration, the SOD activity is highest in the case of parasite infected macrophages and lowest in the case of normal resident macrophages; the SOD activity of thioglycolate activated macrophages lies in between the two. It is also noticed that formalin-killed Leishmania donovani neither attach to macrophages nor do they increase the SOD activity of the host. Thus, the processes, e.g. attachment of the parasite to the host membrane, subsequent membrane perturbation and thus activation of membrane bound enzyme NADPH oxidase leading to respiratory burst, may be responsible for an enormous increase in the SOD level in macrophages during infection. Moreover, the chemical nature of the SOD found in infected macrophages has been investigated by using an inhibitor, e.g. NaCN, which specifically inhibits Cu-Zn SOD but not Fe-SOD. A considerable inhibition of SOD activity by NaCN in infected macrophages confirms the chemical nature of the increased SOD to be of Cu-Zn type, usually found in host. Presumably, Cu-Zn SOD or host SOD plays a protective role at the time of parasite infection although the role of parasitic SOD or some other mechanisms for the survival of the parasite within the toxic phagolysosome environment of the macrophage cannot be ruled out.
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PMID:Leishmania donovani: superoxide dismutase level in infected macrophages. 340 10

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

Primary cultures of rat Kupffer cells liberated significant amounts of prostaglandin (PG) D2, PGE2, and thromboxane (measured as thromboxane B2) when exposed to reoxygenation after 4 h of hypoxia. After a delayed onset, prostanoids were released at high rates for at least 8 h and after that time 700 pmol PGD2, 280 pmol PGE2, and 200 pmol thromboxane per 10(6) cells had been liberated. Unlike prostanoid release, leukotriene B4 production in reoxygenated cell cultures was only twice as much as in aerobic controls. Superoxide dismutase and catalase had no effect on PGD2, PGE2, and thromboxane production, indicating that prostanoid formation was independent of reactive oxygen species generated extracellularly and of cell injury. On the other hand, diphenyliodonium, as well as amiloride, blocked hypoxia-reoxygenation-induced PGD2, PGE2, and thromboxane release. The elevated prostanoid synthesis was preceded by increases in intracellular pH (from 7.23 to 7.38) and in intracellular Ca2+ (from 55 nM to a maximum level of 807 nM). These observations suggest a participation of NADPH oxidase and a related Na(+)-H+ exchange in the enhanced prostanoid synthesis, probably through the induction of an increased intracellular Ca2+ concentration.
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PMID:Prostanoid release by Kupffer cells upon hypoxia-reoxygenation: role of pHi and Cai2+. 838 98

Low-density lipoprotein (LDL) oxidation induced by superoxide radicals generated in a cell-free system could not stimulate the subsequent development of high-uptake LDL during incubation in a medium normally permissive for cell-mediated oxidation. Similarly, LDL oxidative modification by macrophages was not accelerated when extracellular superoxide generation was increased 5-10-fold by stimulation of NADPH oxidase. The NADPH oxidase inhibitor, diphenylene iodonium, did inhibit macrophage-mediated modification of LDL, but its effects do not appear to involve superoxide generation. Superoxide dismutase (SOD) was shown to be inappropriate as a test for the involvement of superoxide radicals in cell-mediated oxidation due to its metal-chelating properties and to the development of a pro-oxidant activity by heat inactivation. We conclude that there is presently no secure evidence for the involvement of superoxide radical in macrophage-mediated oxidative modification of LDL.
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PMID:Does superoxide radical have a role in macrophage-mediated oxidative modification of LDL? 838 55

Nitric oxide synthase (NOS) inhibitors have been reported to modulate luminol-dependent chemiluminescence (CL) in rat macrophages, whereas the potent oxidant peroxynitrite (ONOO-) was shown to react with luminol to yield CL in a cell-free system. We evaluated the role of the L-arginine/NOS pathway in luminol CL by phorbol ester-activated human polymorphonuclear (PMN) leukocytes using the NOS inhibitors NG-monomethyl-L-arginine (L-NMMA) and N-iminoethyl-L-ornithine (L-NIO). Nitric oxide (.NO) release was determined by oxidation of oxymyoglobin. In addition, the effect of NOS inhibitors on superoxide anion O2.-) production was measured. Luminol CL was notably diminished by L-NMMA in a dose-dependent manner. Superoxide dismutase (SOD) also decreased luminol CL and L-NMMA potentiated light emission decrease produced by SOD. Nitric oxide and O2.- production was significantly decreased by L-NMMA; moreover, luminol-dependent CL but not O2.- production was attenuated by L-NIO. These data suggest that products of catalytic activity of both .NO synthase and NADPH oxidase are required to elicit maximal luminol CL in this system. These studies demonstrate that the NOS synthase pathway is involved in luminol CL by human PMN, and they suggest that ONOO- would be an unrecognized mediator in this phenomenon.
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PMID:Nitric oxide synthase inhibitors decrease human polymorphonuclear leukocyte luminol-dependent chemiluminescence. 858 46

We have used a quantitative assay that measures independent rate constants for phagocytosis and killing of Staphylococcus aureus to investigate the involvement of superoxide and myeloperoxidase in bacterial killing by human neutrophils. To inhibit superoxide-dependent processes, superoxide dismutase was cross-linked to immunoglobulin G and the conjugate was attached to the surface of S. aureus via protein A in its cell wall. Myeloperoxidase was inhibited with azide, and myeloperoxidase-deficient neutrophils were used. Adding the NADPH oxidase inhibitor diphenyleneiodonium, to prevent superoxide production, decreased the killing rate to 25%, indicating that oxidative killing mechanisms predominate in this system. The rate constant for killing of S. aureus with superoxide dismutase attached was 70% of that for control bacteria linked to inactivated enzyme. Superoxide dismutase had no effect in the presence of diphenyleneiodonium. The rate of killing was decreased to 33% in the presence of azide and to 40% with myeloperoxidase-deficient neutrophils. Superoxide dismutase had no effect in the presence of azide. On the assumption that the oxidative and nonoxidative components of killing can be considered separately, the oxidative rate was decreased by almost half by superoxide dismutase and was about six times lower when myeloperoxidase was inactive. We conclude that myeloperoxidase-dependent processes are strongly favored by human neutrophils as their prime mechanism of oxidative killing of S. aureus and that superoxide makes a direct contribution to killing. Our results also suggest that superoxide acts in conjunction with a myeloperoxidase-dependent pathway.
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PMID:Involvement of superoxide and myeloperoxidase in oxygen-dependent killing of Staphylococcus aureus by neutrophils. 875 92

Spermatozoa undergoing capacitation, a necessary prerequisite event to successful fertilization that can be induced in vitro by reactive oxygen species (ROS), generate superoxide anion (O2.-). Because, in neutrophils, the generation of O2.- is associated with tyrosine phosphorylation of several proteins, the aim of the present study was to investigate the association between protein-tyrosine phosphorylation and ROS-induced human sperm capacitation. Human spermatozoa express two major phosphotyrosine-containing proteins of 105 and 81 kDa, the phosphotyrosine content of which is increased when spermatozoa are incubated under capacitating conditions. Superoxide dismutase and catalase abolish both sperm capacitation and tyrosine phosphorylation of p105 and p81, suggesting the involvement of O2.- and hydrogen peroxide in these two processes. Inhibitors of NADPH oxidase, the enzyme responsible for the neutrophil's respiratory burst, decrease both p105 and p81 tyrosine phosphorylation and sperm capacitation while hydrogen peroxide stimulates these two processes. Tyrosine phosphorylation of p105 and p81 occurs through a herbimycin A-sensitive tyrosine kinase, and sperm incubation with phosphotyrosine-protein phosphatase inhibitors results in an increase in phosphotyrosine content of these two proteins. Indirect immunocytochemical studies reveal phosphotyrosine-containing proteins mostly in the principal piece of the flagellum, in agreement with the localization of p105 and p81 in the human sperm fibrous sheath. Although tyrosine phosphorylation of p105 and p81 and sperm capacitation are related in a time-dependent fashion, some discrepancies are observed in the regulation of these two processes according to the redox status of the spermatozoa.
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PMID:Regulation of protein-tyrosine phosphorylation and human sperm capacitation by reactive oxygen derivatives. 901 27

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