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)

Activation of human neutrophils by PMA causes a post-translational incorporation of 14C-labeled tyrosine into multiple neutrophil (PMN) proteins, that is distinctly different from the enzymatic tyrosinolation of tubulin in FMLP-stimulated PMN. Post-translational incorporation of other radiolabeled amino acids, including the structurally similar amino acid phenylalanine, does not occur under identical conditions of neutrophil activation, suggesting an involvement of the phenolic hydroxyl group of tyrosine in the PMA-mediated reaction. Similar to the stimulation of PMN tubulin tyrosinolation by FMLP, the PMA-induced incorporation of tyrosine into multiple PMN proteins is closely associated with activation of the NADPH oxidase-mediated respiratory burst in stimulated PMN and can be inhibited by a variety of reducing agents, inhibitors of peroxidase-mediated reactions, and intracellular scavengers of oxygen radicals. Moreover, the PMA-induced post-translational incorporation of tyrosine does not occur in PMN from patients with chronic granulomatous disease and is significantly reduced (50%) in PMN of an individual with myeloperoxidase deficiency. A similar stimulus-induced incorporation of tyrosine into multiple PMN proteins is also observed in PMN exposed to various phagocytic stimuli, and the incorporated radioactivity in cells undergoing phagocytosis is substantially enriched (40- to 50-fold) in isolated PMN phagolysosomes. Consistent with this latter observation, HPLC fractionation of stimulated PMN proteins and analysis of the incorporated radioactivity reveal that the 14C label is primarily associated with PMN membrane proteins. Furthermore, this post-translational incorporation of tyrosine, like that associated with PMA stimulation, is associated with production of oxygen radicals and the generation of protein carbonyl derivatives, which are indicative of oxidative protein modifications via mixed function oxidases. Our findings indicate that tyrosine incorporation into membrane proteins of stimulated PMN is functionally relevant to the physiologic host-defense responses of human neutrophils undergoing phagocytosis.
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PMID:A novel post-translational incorporation of tyrosine into multiple proteins in activated human neutrophils. Correlation with phagocytosis and activation of the NADPH oxidase-mediated respiratory burst. 133 Dec 34

We have compared assays for products of the neutrophil respiratory burst in normal EBV-transformed B cell lines stimulated with agonists of protein kinase C. Those measuring O2- directly or its immediate product, H2O2, were successful. Of these, the most sensitive were the lucigenin- and luminol-based chemiluminescence assays for O2- and H2O2 respectively. Cell lines from CGD patients, with X-linked or autosomal recessive genetic defects in the neutrophil NADPH oxidase, did not respond in these assays, indicative of their inability to produce O2-. The defects in the lines studied encompass both proteins forming the cytochrome b-245 membrane component, and the 47 kDa cytosolic component of the NADPH oxidase. The possession of the disease associated phenotype by these cell lines provides evidence that in the normal situation both neutrophils and B cells produce O2- via the same system.
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PMID:Superoxide production by normal and chronic granulomatous disease (CGD) patient-derived EBV-transformed B cell lines measured by chemiluminescence-based assays. 133 Dec 41

Neutrophils (PMNs) initiate production of toxic oxygen metabolites through stimulation of an NADPH oxidase resulting in the reduction of oxygen to superoxide anion (O2-). The activity of this enzyme system may be primed by a variety of compounds. This laboratory investigated the possibility that stored blood components may contain agents which prime the PMN oxidase. At the time of outdate, packed red blood cells, whole blood, and platelet concentrates contained a priming agent which enhanced the PMN NADPH oxidase activity in response to a soluble stimulus, formyl-Met-Leu-Phe, by 2.1- to 2.8-fold. The priming activity was almost completely inhibited by WEB 2170, a specific platelet activating factor antagonist. Fresh plasma or fresh-frozen plasma did not exhibit priming activity. These data suggest that platelet-activating factor-like compounds are generated during the storage of cellular blood components. The presence of these agents in stored blood may suggest a role for specific compounds which prime PMNs and possibly mediate other effects which result in severe complications of transfusion therapy.
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PMID:Stored blood components contain agents that prime the neutrophil NADPH oxidase through the platelet-activating-factor receptor. 133 55

The superoxide generation of neutrophil NADPH oxidase from healthy subjects, patients with respiratory infections, and patients receiving effective therapy with antibiotics or steroids was investigated. In young healthy nonsmokers the mean oxidase activity of neutrophils in women was significantly lower than that in men. In healthy women the mean oxidase activity was significantly lower in young nonsmokers than in young smokers or the elderly. In young nonsmokers, oxidase activity significantly increased during respiratory infections; however, in elderly nonsmokers, no significant increase in oxidase activity was observed during respiratory infections. The mean oxidase activity in patients receiving steroids was very low. In in vitro experiments using cell-free activation systems of NADPH oxidase, steroids were found to injure the membrane-bound components of the oxidase enzyme. These results suggest that decreased superoxide generation in patients receiving steroids may result from steroid-induced damage in the membrane-bound components of the NADPH oxidase system. The inhibitory effect of steroids on superoxide production may reduce bactericidal action of neutrophils, ie, one defense mechanism of the body against many kinds of pathogens. Therefore, long-term therapy with steroids in the elderly should be avoided at all costs.
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PMID:Host defense activity in various hosts. Human neutrophil NADPH oxidase activity. 133 39

A major function of human neutrophils (PMN) during inflammation is formation of oxygen radicals through activation of the respiratory burst enzyme, NADPH oxidase. Stimulus-induced production of both phosphatidic acid (PA) and diglyceride (DG) has been suggested to mediate oxidase activity; however, transductional mechanisms and cofactor requirements necessary for activation are poorly defined. We have utilized PMN permeabilized with Staphylococcus aureus alpha-toxin to elucidate the signal pathway involved in eliciting oxidase activity and to investigate whether PA or DG act as second messengers. PMN were permeabilized in cytoplasmic buffer supplemented with ATP and EGTA for 15 min before addition of NADPH and various cofactors. Oxidase activation was assessed by superoxide dismutase inhibitable reduction of ferricytochrome C; PA and DG levels were measured by radiolabeled product formation or by metabolite mass formation. Both superoxide (O2-) and PA formation were initiated by 10 microM GTP gamma S; addition of cytosolic levels of calcium ions (Ca2+, 120 nM) enhanced O2- and PA formation 1.5-2 fold. DG levels showed little change during these treatments. PA formation preceded O2- production and varying GTP gamma S levels had parallel effects on O2- and PA formation. However, while PA formation and oxidase activation occurred in tandem at Ca2+ levels of < 1 microM, higher calcium enhanced PA formation but inhibited O2- production. Removal of ATP completely blocked O2- production but had little effect on PA formation; in contrast, if ATP was replaced with ATP gamma S, parallel production of PA and O2- occurred in the absence of other cofactors. Finally, while inhibition of PA production by ethanol pretreatment led to inhibition of O2- formation in PMN treated with GTP gamma S alone, in cells stimulated with a combination of GTP gamma S and Ca2+, ethanol continued to inhibit PA formation but had no effect on O2- production. Our results do not support a role for DG in the signal transduction path leading to oxidase activation and, while we show a close correlation between oxidase activation and PA production under many physiologic conditions, we also demonstrate that PA is not sufficient to induce oxidase activation and O2- formation can occur when PA production is inhibited.
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PMID:Activation of NADPH oxidase and phospholipase D in permeabilized human neutrophils. Correlation between oxidase activation and phosphatidic acid production. 133 83

The mechanism of cAMP regulation of the respiratory burst was studied with HL-60 cells that had been DMSO-differentiated to a neutrophil-like cell. To evaluate the effects of known cAMP concentrations, cells were permeabilized with streptolysin-O. Chemotactic peptide (FMLP)-stimulated NADPH oxidase activity was inhibited by cAMP at concentrations higher than 3 microM. Because intracellular calcium was buffered, inhibitory actions of cAMP were not mediated by modulation of calcium concentration. Effects of cAMP on chemotactic peptide signal transduction mediated by phospholipase C, phospholipase D, and phospholipase A2 were then determined. Neither inositol phosphate generation (phospholipase C) nor phosphatidylethanol generation (phospholipase D activity in presence of 1.6% ethanol) induced by FMLP were significantly affected by cAMP. In contrast, cAMP potently inhibited FMLP-induced arachidonic acid mobilization (phospholipase A2). NADPH oxidase activity induced by exogenous arachidonic acid was not inhibited by cAMP. These results indicate that cAMP-mediated inhibition of arachidonic acid mobilization may be important in regulation of the respiratory burst.
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PMID:Regulation of the respiratory burst by cyclic 3',5'-AMP, an association with inhibition of arachidonic acid release. 133 10

Protein kinase C (PKC) appears to have a central role in the O2- response of neutrophils following stimulation of membrane receptors. The second messenger, diacylglycerol (DG), that activates PKC is derived from membrane phospholipids via activation of phosphatidylinositol 4,5-bisphosphate (PIP2)-phospholipase C (PLC) and phospholipase D (PLD), with the latter pathway being more prominent in primed cells. In resting cells receptor coupling to PLD is through a G-protein. Priming brings a cytoplasmic tyrosine kinase into the transducer sequence which, through protein phosphorylation, increases the efficiency of coupling between membrane receptors and PLD. Phosphatidic acid (PA), the initial product of the PLD pathway, also appears to act as a second messenger by directly activating the NADPH oxidase responsible for generating O2-. Interconversion of PA and DG by phosphatidate phosphohydrolase and DG kinase determines which of these second messengers has the dominant role.
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PMID:New pathways of phagocyte activation: the coupling of receptor-linked phospholipase D and the role of tyrosine kinase in primed neutrophils. 133 78

Endothelial thrombomodulin (TM) plays a critical role in hemostasis as a cofactor for thrombin-dependent formation of activated protein C, a potent anticoagulant. Chloramine T, H2O2, or hypochlorous acid generated from H2O2 by myeloperoxidase rapidly destroy 75-90% of TM cofactor activity. Activated PMN, the primary in vivo source of biological oxidants, also rapidly inactivate TM. Oxidation of TM by PMN is inhibited by diphenylene iodonium, an inhibitor of NADPH oxidase. Both Met291 and Met388 in the six epidermal growth factor-like repeat domain are oxidized; however, only substitutions of Met388 lead to TM analogues that resist oxidative inactivation. We suggest that in inflamed tissues activated PMN may inactivate TM and demonstrate further evidence of the interaction between the inflammatory process and induction of thrombotic potential.
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PMID:Oxidation of a specific methionine in thrombomodulin by activated neutrophil products blocks cofactor activity. A potential rapid mechanism for modulation of coagulation. 133 78

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

Cytosolic low molecular components in guinea pig neutrophils were examined for the activity to enhance superoxide anion (O2-)-generating NADPH oxidase activity. A component was separated by Sephadex G-25 gel filtration from high molecular weight components, the latter revealed NADPH oxidase activity in a cell-free system in combination with the membrane fraction and arachidonic acid. Addition of this cytosolic low molecular weight component to the cell-free system significantly enhanced NADPH oxidase activity, though this component did not substitute the high molecular weight components in constituting the system. The low molecular weight NADPH oxidase activation factor (LMWAF) found here was not of protein nature, since protease treatment failed to reduce its activity. This factor did not contain phosphate, and was neither flavin nor guanine nucleotide. Though LMWAF was extractable with chloroform-methanol, it was not identical with diacylglycerol.
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PMID:A novel low molecular weight factor detected in the cytosol of guinea pig neutrophils to enhance superoxide anion production. 133 84


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