EC:1.6.3.1 - FACTA Search

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)

This investigation was undertaken to clarify the mechanisms of superoxide anion (O2-) generation in rat peritoneal mast cells. Compound 48/80, a typical histamine liberator mediated by calcium influx, elicited O2- generation from the mast cells in a dose-dependent fashion. It was demonstrated by immunohistochemical study and Western blot analysis that the mast cells contained the 47-kDa phagocyte oxidase (p47phox) protein, which was one cytosolic component of the NADPH oxidase system. Arachidonic acid stimulated O2- generation in the mast cells, but other unsaturated fatty acids had no effect. On the other hand, 48/80-induced O2- generation was inhibited by phospholipase A2 inhibitors, such as arachidonyl trifluoromethyl ketone and manoalide. Forskolin, isoprenaline, and dibutyryl cyclic AMP inhibited the O2- generation, and KT-5720, a cyclic AMP-dependent protein kinase (A-kinase) inhibitor, markedly enhanced the O2- generation. These findings suggest that O2- is generated by a NADPH oxidase-like enzyme system in mast cells and that this enzyme system is activated by arachidonic acid released by cytosolic phospholipase A2. Thus, it is regulated by the cyclic AMP-A kinase system.
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PMID:The mechanisms of compound 48/80-induced superoxide generation mediated by A-kinase in rat peritoneal mast cells. 923 5

Porcine articular chondrocytes have the capacity to release superoxide in response to the addition of the calcium ionophore ionomycin in a concentration-dependent manner. This activity was not stimulated by the addition of fMetLeuPhe or the kinase activator phorbol myristate acetate (PMA). However, this release of superoxide was inhibited by iodonium diphenyl (IDP), suggesting the involvement of NADPH oxidase. Reverse transcriptase polymerase chain reaction (RT-PCR) using oligonucleotides designed against the known sequences for the human phagocyte NADPH oxidase showed the expression of p22-phox, p40-phox, and p47-phox mRNA, while Western blot analysis of chondrocyte extracts using polyclonal antisera raised against the human phagocyte NADPH oxidase suggested the presence of the p67-phox polypeptide. These results suggest that porcine articular chondrocytes can release reactive oxygen species using a NADPH oxidase-like complex.
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PMID:Detection of superoxide and NADPH oxidase in porcine articular chondrocytes. 929 50

It has been known that eosinophils produce more superoxide anion (O2-) than neutrophils. To elucidate the mechanism involved in the difference in the superoxide-producing activities, we compared the NADPH oxidase components and the translocation of the cytosolic components between eosinophils and neutrophils. Membrane-bound cytochrome b558, cytosolic p47-phox, p67-phox, and p40-phox were present in both neutrophils and eosinophils, but the amounts of these components were 1.5- to 3.3-fold greater in eosinophils than neutrophils. Upon activation, p47-phox, p67-phox, and p40-phox were translocated to the membranes in both leukocytes, but larger amounts were translocated in eosinophils than in neutrophils. Furthermore, the cross-mixing experiments using membrane and cytosol of eosinophils and neutrophils revealed that more cytosolic components were translocated, and more superoxide-producing activities were obtained using eosinophil fractions. Interestingly, Km values of activated oxidase for NADPH were almost the same in any combination of membrane and cytosol from both leukocytes, indicating that oxidase components are likely similar in both eosinophils and neutrophils. These observations suggest that NADPH oxidase components are more abundant in eosinophils than neutrophils, and, upon activation, larger amounts of NADPH oxidase complex are formed in eosinophils than in neutrophils.
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PMID:Study on the superoxide-producing enzyme of eosinophils and neutrophils--comparison of the NADPH oxidase components. 930 91

Bacterial LPS is a pluripotent agonist for PMNs. Although it does not activate the NADPH-dependent oxidase directly, LPS renders PMNs more responsive to other stimuli, a phenomenon known as "priming." Since the mechanism of LPS-dependent priming is incompletely understood, we investigated its effects on assembly and activation of the NADPH oxidase. LPS pretreatment increased superoxide (O2-) generation nearly 10-fold in response to N-formyl methionyl leucyl phenylalanine (fMLP). In a broken-cell O2--generating system, activity was increased in plasma membrane-rich fractions and concomitantly decreased in specific granule-rich fractions from LPS-treated cells. Oxidation-reduction spectroscopy and flow cytometry indicated LPS increased plasma membrane association of flavocytochrome b558. Immunoblots of plasma membrane vesicles from LPS-treated PMNs demonstrated translocation of p47-phox but not of p67-phox or Rac2. However, PMNs treated sequentially with LPS and fMLP showed a three- to sixfold increase (compared with either agent alone) in plasma membrane-associated p47-phox, p67-phox, and Rac2, and translocation paralleled augmented O2- generation by intact PMNs. LPS treatment caused limited phosphorylation of p47-phox, and plasma membrane-enriched fractions from LPS- and/or fMLP-treated cells contained fewer acidic species of p47-phox than did those from cells treated with PMA. Taken together, these studies suggest that redistribution of NADPH oxidase components may underlie LPS priming of the respiratory burst.
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PMID:Neutrophils exposed to bacterial lipopolysaccharide upregulate NADPH oxidase assembly. 943 18

A potent tyrosine phosphatase inhibitor, pervanadate, induced (i) translocation of the cytosolic NADPH oxidase factors, p47-phox and p67-phox, to the plasma membrane; and (ii) O2- production in human neutrophils. However, the translocation of p47-phox and p67-phox was inhibited by H-7, a protein kinase C (PKC) inhibitor without markedly affecting O2- production in whole neutrophils. Results from the plasma membrane fraction showed that NADPH oxidase activity in neutrophils treated with pervanadate did not vary in the presence or absence of H-7, despite a lower content of p47-phox and p67-phox in H-7-treated neutrophils. These findings suggest that in addition to the well-known PKC-dependent pathway, there may exist another PKC-independent pathway to activate NADPH oxidase in human neutrophils. This pathway involves protein tyrosine phosphorylation but does not seem to necessitate translocation of p47-phox and p67-phox to the plasma membrane.
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PMID:Indication of a protein kinase C-independent pathway for NADPH oxidase activation in human neutrophils. 943 86

The small molecular weight GTP-binding protein Rac (1 or 2) is an obligatory participant in the activation of the superoxide-generating NADPH oxidase. Active NADPH oxidase can be reconstituted in a cell-free system, consisting of phagocyte-derived membranes, containing cytochrome b559, and the recombinant cytosolic proteins p47-phox, p67-phox, and Rac, supplemented with an anionic amphiphile as an activator. The cell-free system was used before for the analysis of structural requirements of individual components participating in the assembly of NADPH oxidase. In earlier work, we mapped four previously unidentified domains in Rac1, encompassing residues 73-81 (a), 103-107 (b), 123-133 (c), and 163-169 (d), as important for cell-free NADPH oxidase activation. The domains were defined by assessing the activation inhibitory effect of a series of overlapping peptides, spanning the entire length of Rac1 [Joseph, G., and Pick, E. (1995) J. Biol. Chem. 270, 29079-29082]. We now used the construction of Rac1/H-Ras chimeras, domain deletion, and point mutations, to ascertain the functional relevance of three domains (b, c, and d) predicted by "peptide walking" and to determine the importance of specific residues within these domains. This methodology firmly establishes the involvement of domains b and d in the activation of NADPH oxidase by Rac1 and identifies H103 and K166, respectively, as residues critical for the effector function of these two domains. The functional significance of domain c (insert region) could not be confirmed, as shown by the minor effect of deleting this domain on NADPH oxidase activation. Analysis of the three-dimensional structure of Rac1 reveals that residues H103 and K166 are exposed on the surface of the molecule. Modeling of the activity-impairing point mutations suggests that the effect on the ability to activate NADPH oxidase depends on the side chains of the mutated amino acids and not on changes in the global structure of the protein. In conclusion, we demonstrate the existence of two novel effector sites in Rac1, necessary for supporting NADPH oxidase activation, supplementing the canonical N-terminal effector region.
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PMID:Mutational analysis of novel effector domains in Rac1 involved in the activation of nicotinamide adenine dinucleotide phosphate (reduced) oxidase. 958 26

Rac GTPases regulate activation of the phagocyte NADPH oxidase, a multi-component enzyme complex that produces superoxide in response to host infection. GTP-bound Rac binds to the cytosol protein p67-phox enabling it to participate in oxidase assembly. Details of this interaction are poorly understood. Previous studies showed that Rac/p67-phox binding is GTP-dependent and that several Rac1 mutants lost the ability to activate the oxidase even though they still bound p67-phox. Using two hybrid and blot overlay binding methods, we identified a novel binding site in the p67-phox C-terminus that binds Rac1, Rac2, and Cdc42, a related GTPase which does not activate the oxidase. Binding was independent of the GDP/GTP state. We also showed that GTP-Cdc42 binds p67-phox N-terminus similar to GTP-Rac. Therefore, Rac binding to p67-phox is not synonymous with NADPH oxidase activation, and Rac probably participates in other steps of oxidase activation in addition to binding p67-phox.
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PMID:Phagocyte NADPH oxidase p67-phox possesses a novel carboxylterminal binding site for the GTPases Rac2 and Cdc42. 964 15

The superoxide-generating NADPH oxidase complex of phagocytic cells is a multicomponent system containing a membrane-bound flavocytochrome b and a small G protein Rac as well as cytosolic factors p67(phox) (phagocyte oxidase), p47(phox), and p40(phox), which translocate to the membrane upon activation. In a previous paper, we reported that p40(phox) undergoes phosphorylation on multiple sites upon stimulation of the NADPH oxidase by either phorbol 12-myristate 13-acetate or by formyl peptide with a time course that is strongly correlated with that of superoxide production (Fuchs, A., Bouin, A. P., Rabilloud, T., and Vignais, P. V. (1997) Eur. J. Biochem. 249, 531-539). In this study, through phosphoamino acid and tryptic peptide maps of in vivo and in vitro phosphorylated p40(phox), we show that p40(phox) is phosphorylated on serine and threonine residues during activation of the NADPH oxidase in dimethyl sulfoxide-differentiated HL60 promyelocytes as well as in isolated human neutrophils. In vitro phosphorylation studies using casein kinase II and protein kinase C (PKC) as well as the effect of various protein kinase inhibitors on the isoelectric focusing pattern of p40(phox) in whole cell lysates point to a role of a PKC type kinase in the phosphorylation of p40(phox). Directed mutagenesis of all PKC consensus sites enable us to conclude that Thr154 and Ser315 in p40(phox) are phosphorylated during activation of the NADPH oxidase.
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PMID:p40(phox) is phosphorylated on threonine 154 and serine 315 during activation of the phagocyte NADPH oxidase. Implication of a protein kinase c-type kinase in the phosphorylation process. 980 63

We studied differences between the NADPH oxidase activation pathways triggered by pervanadate, a protein tyrosine phosphatase inhibitor, and phorbol 12-myristate 13-acetate (PMA), a protein kinase C activator, in guinea pig neutrophils. Previously, pervanadate has been shown to activate NADPH oxidase via the tyrosine kinase-dependent pathway (Yamaguchi et al. Arch. Biochem. Biophys. 323, 382-386, 1995). Both pervanadate and PMA induced superoxide anion (O-2) production, translocation of the 47-kDa protein component of the phagocyte oxidase (p47-phox) to the plasma membrane, and phosphorylation of p47-phox in the membrane. A selective protein kinase C inhibitor, GF 109203X, markedly inhibited PMA-induced O-2 production, p47-phox translocation, and p47-phox phosphorylation, but did not inhibit pervanadate-induced O-2 production and only slightly suppressed pervanadate-induced translocation and phosphorylation. These results demonstrate that pervanadate activates NADPH oxidase independently of protein kinase C. Phosphopeptide mapping of p47-phox revealed differences in the mechanism between pervanadate-induced and PMA-induced phosphorylation. Furthermore, some protein kinases which phosphorylate p47-phox-derived peptide are activated by pervanadate. These results suggest the existence of novel protein kinases responsible for the phosphorylation of p47-phox and the activation of these protein kinases by tyrosine kinase.
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PMID:Pervanadate activates NADPH oxidase via protein kinase C-independent phosphorylation of p47-phox. 988 22

Chronic granulomatous disease (CGD) is an uncommon inherited disorder of phagocytic cells in which a defective respiratory burst leads to severe recurrent bacterial and fungal infections. The disease is a consequence of mutations in one of the four molecules that constitute the NADPH oxidase system of electron transport, whose most critical component is an unusual flavocytochrome b localized in the plasma and specific granule membranes. Mutations in the CYBB gene (localized in the short arm of the X chromosome) encoding the beta-subunit of this flavocytochrome (gp91-phox), which is are responsible for 60-65% of all cases of CGD. In this paper, we report the molecular characterization of seven unrelated kindreds native from Colombia and Brazil with CGD caused by gp91-phox deficiency. The exons with the possible mutation were identified by single-strand conformational polymorphism (SSCP) of genomic DNA and then confirmed by DNA sequencing. In one patient we found a substitution of A to G in the penultimate nucleotide of intron 12 (IVS12-2A-->G). In four other cases, four different nonsense mutations were detected: R91X, W106X, R157X, and R290X and the other two patients showed missense substitutions: E225V and C244Y. In six of these kindreds, all mothers were carriers but one that did not present any change in the gp91-phox gene, which indicates a de novo mutation in this kindred. Then, these family-specific mutations in gp91-phox produce different structural defects that alter the expression or function of an essential component of phagocyte oxidase.
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PMID:Molecular analysis of chronic granulomatous disease caused by defects in gp91-phox. 988 86

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