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)

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

The effects of gentamycin on the NADPH oxidase (EC 1.6.99.6) from human neutrophils in both whole-cell and fully soluble (cell-free) systems were investigated. Gentamycin was found to inhibit, concentration-dependently, the superoxide generation of neutrophils exposed to phorbol myristate acetate in a whole-cell system and the activation of superoxide-generating NADPH oxidase by sodium dodecyl sulfate in a cell-free system. The concentrations of the drug required for 50% inhibition of the oxidase (IC50) were 150 microM in the whole-cell system and 10 microM in the cell-free system. In addition, in the cell-free system, the drug did not change the Km value for NADPH of the oxidase. However, gentamycin did not the superoxide generation of NADPH oxidase after its activation in the cell-free system, suggesting that the drug do not have superoxide-scavenger action. These results suggest that gentamycin, an aminoglycoside antibiotic, may exhibit an anti-inflammatory action due to inhibition of neutrophil NADPH oxidase activation.
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PMID:Anti-inflammatory action of gentamycin through inhibitory effect on neutrophil NADPH oxidase activity. 774 29

Activation of superoxide-generating NADPH oxidase system of human neutrophils involves phosphorylation-dependent translocation of p47phox and other cytosolic components to the plasma membrane. In contrast to the stimulation of the NADPH oxidase in intact cells, however, the activation of cell-free system requires the addition of anionic amphiphiles such as sodium dodecyl sulfate (SDS) and arachidonate. In this system, translocation of p47phox is also an essential step for activation, but phosphorylation is not required. The basis of this difference in oxidase activation is not yet clear. We now report that in a cell-free oxidase system, phosphorylated recombinant p47phox can be translocated to the membrane in the absence of SDS or arachidonate. These findings suggest that both phosphorylation and SDS could cause a common change in conformation or charge of p47phox that may result in the association of p47phox with the plasma membrane.
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PMID:Translocation of recombinant p47phox cytosolic component of the phagocyte oxidase by in vitro phosphorylation. 779 51

Chronic granulomatous disease (CGD) is a rare recessive disorder caused by defects in the NADPH oxidase enzyme complex of phagocytes (neutrophils, eosinophils and monocytes). CGD phagocytes fail to produce superoxide and other reactive oxygen species following cell activation (Malech, 1993). The products of oxidase activation can be measured in individual cells by flow cytometry using specific fluorescent probes that increase fluorescence upon oxidation (Trinkle et al., 1987). This approach can be used to confirm a diagnosis of CGD, and to detect the normal/abnormal phagocyte mixture that characterizes the X-linked CGD carrier state. Three fluorescent probes have been described as useful for this purpose: 2'7'-dichlorofluorescin diacetate (DCF) (Bass et al., 1983), 5,6-carboxy-2'7'-dichlorofluorescein diacetate, bis(acetoxymethyl) ester (C-DCF) (Hockenbery et al., 1993) and dihydrorhodamine 123 (DHR) (Rothe et al., 1988; Kinsey et al., 1987). A direct comparison between these three probes has not been reported. In this study we performed a direct comparison between these three probes, evaluating their ability in flow cytometric analysis to maximize fluorescent separation between activated CGD patient and normal granulocytes. Using a whole blood technique with phorbol myristate acetate (PMA) as an activator, it was found that DHR loaded normal granulocytes had a fluorescence intensity which, upon activation, was 48-fold higher than that of C-DCF loaded granulocytes and seven-fold higher than DCF loaded granulocytes (P < 0.001). Use of sodium azide to decrease the catabolism of H2O2 enhanced the fluorescence of DCF by 140%, C-DCF by 45% and DHR by 25%, suggesting that DCF is primarily sensitive to H2O2. DCF and DHR were then evaluated for sensitivity in the detection of small percentages of normal cells in a CGD/normal granulocyte mixture. Normal sub-populations as small as 0.1% could clearly be distinguished using DHR, while DCF was insensitive at this level. Based on these findings, we used DHR in an effort to detect normal granulocytes in a CGD patient following therapeutic granulocyte transfusion. We were able to detect normal granulocytes in the circulation for up to 18 h after transfusion. With these data we show that DHR is the most sensitive flow cytometric indicator for the detection of oxygen reactive species in activated granulocytes and is the best probe for evaluating CGD patients and carriers. In addition, our data suggest that DHR is a useful tool for monitoring circulating normal granulocytes in CGD patients following transfusion, and potentially will be a sensitive probe for assessing the success of such future technologies as gene therapy for CGD.
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PMID:Flow cytometric analysis of the granulocyte respiratory burst: a comparison study of fluorescent probes. 782 69

Human thioredoxin reductase is a dimeric enzyme that catalyzes reduction of the disulfide in oxidized thioredoxin by a mechanism involving transfer of electrons from NADPH via FAD to a redox-active disulfide. 1-Chloro-2,4-dinitrobenzene (DNCB) is an alkylating agent used for depleting intracellular GSH and also showing distinct immunomodulatory properties. We have discovered that low concentrations of DNCB completely inactivated human or bovine thioredoxin reductase, with a second order rate constant in excess of 200 M-1 s-1, which is almost 10,000-fold faster than alkylation of GSH. Total inactivation of 50 nM reduced thioredoxin reductase was obtained by 100 microM DNCB after 5 reductase was obtained by 100 microM DNCB after 5 min of incubation at 20 degrees C also in the presence of 1 mM GSH. The inhibition occurred with enzyme only in the presence of NADPH and persisted after removal of DNCB, suggesting alkylation of the active site nascent thiols as the mechanism of inactivation. Thioredoxin reductase modified by DNCB lacked reducing activity with oxidized thioredoxin, 5,5'-dithiobis-(2-nitrobenzoic acid), or sodium selenite. However, the DNCB-modified enzyme oxidized NADPH at a rate of 4.7 nmol/min/nmol of enzyme in the presence of atmospheric oxygen. This activity was not dependent on the presence of DNCB in solution and constituted a 34-fold increase of the inherent low NADPH oxidase activity of the native enzyme. DNCB is a specific inhibitor of mammalian thioredoxin reductase, which reacted 100-fold faster than glutathione reductase. The inactivation of the disulfide reducing activity of thioredoxin reductase and thioredoxin with a concomitant large increase of the NADPH oxidase activity producing reactive oxygen intermediates may mediate effects of DNCB on cells in vivo.
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PMID:1-Chloro-2,4-dinitrobenzene is an irreversible inhibitor of human thioredoxin reductase. Loss of thioredoxin disulfide reductase activity is accompanied by a large increase in NADPH oxidase activity. 787 79

Early and late phase reactions have been observed in asthma; the late phase reaction is characterized by accumulation of inflammatory cells such as neutrophils. Activated neutrophils degranulate and assemble an active NADPH oxidase, which generates superoxide anion (O2-), reactions that have been implicated in lung tissue damage. Preincubation of neutrophils with the asthma drug cromolyn sodium selectively inhibited FMLP (10(-7) M) and PMA (0.1 microgram/ml) elicited O2- generation but not degranulation. To further characterize the mechanism of this inhibition we examined the effect of cromolyn on the NADPH oxidase complex and the signaling pathways for its assembly. Ca2+ mobilization and activation of protein kinase C have been implicated as signals for activation of the NADPH oxidase. Ca2+ mobilization triggered by FMLP was significantly decreased by 21.2% in cromolyn-treated cells. In contrast, cromolyn did not interfere with translocation or activity of protein kinase C. Membranes prepared from neutrophils stimulated with 0.5 microgram/ml PMA generated O2-, indicating assembly of an active NADPH oxidase; cromolyn did not inhibit this membrane-associated, preassembled oxidase. In contrast, preincubation of neutrophils with 100 microM cromolyn before addition of PMA decreased the capacity of the membranes to generate O2- by 57.3%. These results indicate that cromolyn inhibited the assembly of an active NADPH oxidase. The efficacy of cromolyn may be associated with inhibition of assembly of an active NADPH oxidase in the neutrophil and prevention of oxygen radical-induced tissue damage.
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PMID:Cromolyn inhibits assembly of the NADPH oxidase and superoxide anion generation by human neutrophils. 789 24

To investigate the astrocyte response to hypoxia/reoxygenation, as a model relevant to the pathogenesis of ischemic injury, cultured rat astrocytes were exposed to hypoxia. On restoration of astrocytes to normoxia, there was a dramatic increase in protein synthesis within 3 h, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of metabolically labeled astrocyte lysates showed multiple induced bands on fluorograms. Levels of cellular ATP declined during the first 3 h of reoxygenation and the concentration of AMP increased to approximately 3.6 nmol/mg of protein within 1 h of reoxygenation. Reoxygenated astrocytes generated oxygen free radicals early after replacement into ambient air, and addition of diphenyliodonium, an NADPH oxidase inhibitor, diminished the generation of free radicals as well as the induction of several bands on fluorogram. Although addition of cycloheximide on reoxygenation resulted in inhibition of both astrocyte protein synthesis and accumulation of cellular AMP, it caused cell death within 6 h, suggesting the importance of protein synthesis in adaptation of hypoxic astrocytes to reoxygenation. Potential physiologic significance of biosynthetic products of astrocytes in hypoxia/reoxygenation was suggested by the recovery of glutamate uptake. These results indicate that the astrocyte response to hypoxia/reoxygenation includes generation of oxygen free radicals and de novo synthesis of products that influence cell viability and function in ischemia.
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PMID:Metabolic and biosynthetic alterations in cultured astrocytes exposed to hypoxia/reoxygenation. 790 52

HL-60 cells were induced to differentiate into eosinophil-like cells with sodium butyrate after passage under mild alkaline condition. The differentiating cells gradually possessed the Luxol-fast-blue (LFB) staining-positive granules and the capacity to produce superoxide. The increase in the amounts of cytochrome b-558 paralleled the superoxide anion generating activity. Immunoblot analysis demonstrated that p47-phox cytosolic oxidase protein appeared 1 day after differentiation, and increased up to 7 days. On the other hand, p67-phox cytosolic oxidase protein appeared in 3 days, and increased gradually up to 7 days. The oxidase activity did not appear until p67-phox protein was expressed in the cytosol during eosinophilic differentiation, indicating that p67-phox protein is likely to be a key protein of cytosolic factors also in eosinophilic differentiating cells. The amounts of p47-phox and p67-phox translocated to the plasma membrane in response to phorbol myristate acetate (PMA) increased with increasing amounts of cytochrome b-558 in the membrane. Our data demonstrate that the appearance of NADPH oxidase activity during eosinophilic differentiation is dependent on the levels of p47-phox and p67-phox cytosolic proteins translocated to the plasma membrane and the amount of cytochrome b-558 in the membrane as observed with neutrophils and monocytes.
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PMID:Analysis of the NADPH oxidase components during differentiation of HL-60 cells to eosinophilic lineage. 794 35

It is well known that sodium dodecyl sulfate (SDS) activates NADPH oxidase in a cell-free system independently of protein kinase C (PKC). However, in intact neutrophils, direct evidence has never been presented to show that O2- production by SDS is actually due to the NADPH oxidase activation observed in the cell-free system. So, in this paper, we investigated the activation mechanism by SDS in intact guinea pig neutrophils. We previously reported that hypotonic treatment reversibly enhanced O2- production stimulated by PKC activators in intact neutrophils (M. Hiura et al., 1991, Arch. Biochem. Biophys. 291, 31-37). In this paper, SDS also significantly stimulated O2- production in the intact cells under the hypotonic condition. This enhancement was gradual and was PKC inhibitor resistant. Furthermore, phosphorylation of the 46-kDa protein, one of cytosolic activation factors, was not detected by autoradiography of two-dimensional electrophoresis. Translocation of cytosolic activation factors was demonstrated by a decrease in the activity of the factors remained in the cytosol. In the presence of SDS, addition of 1-oleoyl-2-acetylglycerol, a PKC activator, further enhanced O2- production and translocation of the cytosolic activation factors. On the other hand, SDS remarkably increased membrane fluidity in intact neutrophils as well as in the cell-free system. These results indicate that activation of NADPH oxidase by SDS in intact neutrophils seems to be partly due to the same mechanism observed in cell-free activation, and that SDS alone slightly activates the oxidase and other stimulation, such as hypotonic and/or PKC activator treatments, is required for significant activation. The increase in the membrane fluidity may be one of the activation mechanisms of NADPH oxidase by SDS.
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PMID:Activation mechanism of NADPH oxidase by SDS in intact guinea pig neutrophils. 797 93

The effects of prostaglandin (PG) E1 and I2 analogs (OP-41483 and OP-2507) on the superoxide generation of human neutrophil NADPH oxidase (EC 1.6.99.6) in both whole-cell and cell-free systems were investigated. In a whole-cell system, OP-2507 inhibited the superoxide generation by neutrophils exposed to phorbol myristate acetate concentration-dependently through its superoxide-scavenging action. The concentration of the drug required for 50% inhibition of the oxidase (IC50) was 21 microM. In a cell-free system, however, the drug in concentrations of < 100 microM did not inhibit the activation of NADPH oxidase by sodium dodecyl sulfate because of its inactivation by the detergent. Although PGE1 and OP-41483 did not inhibit the superoxide production by stimulated neutrophils in a whole-cell system, they both inhibited the activation of NADPH oxidase in a cell-free system concentration-dependently, with IC50 values of 44 and 170 microM, respectively. In addition, in the cell-free system, the Km value for NADPH of the oxidase was unchanged by PGE1. The results suggest that the PGI2 analog, OP-2507, is a possible superoxide-scavenger and that PGE1 inhibits the NADPH oxidase activation by sodium dodecyl sulfate in a cell-free system concentration-dependently.
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PMID:Prostaglandin E and analogs of prostacyclin influencing superoxide production by the human neutrophil NADPH oxidase system. 808 10


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