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)

We have previously shown that the human neutrophil superoxide-generating NADPH oxidase possesses a novel dye reductase activity (Cross, A.R., Yarchover, J. L., and Curnutte, J.T. (1994) J. Biol. Chem. 269, 21448-21454). This activity exhibited an absolute requirement for the cytosolic activating factor p67phox but not for p47phox, suggesting that p67phox and p47phox have individual roles in controlling electron flow from NADPH to oxygen. Here, we provide direct evidence that p67phox alone can facilitate electron flow from NADPH to the flavin center of NADPH oxidase in the absence of p47phox, resulting in the reduction of enzyme FAD, whereas the presence of p47phox is required in order for electron transfer to proceed beyond the flavin center to the heme in cytochrome b-245 and thence to oxygen.
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PMID:The cytosolic activating factors p47phox and p67phox have distinct roles in the regulation of electron flow in NADPH oxidase. 789 90

Earlier studies have established that mutant strains of Azotobacter vinelandii that do not synthesize ferredoxin I (AvFdI) overexpress another protein designated Protein X (Morgan, T. V., Lundell, P. J., and Burgess, B. K. (1988) J. Biol. Chem. 263, 1370-1375). This protein has now been purified using two-dimensional gel electrophoresis as an assay. The purified protein is a monomer with M(r) approximately 29,000 which degrades slowly to a specific M(r) approximately 22,000 form when stored in solution. The native protein is bright yellow and contains noncovalently attached FAD that is reduced by either dithionite or NADPH without formation of a stable semiquinone. Titration with NADP+/NADPH gives an E0' value of approximately -327 mV versus SHE. Because this E0' is so close to that of the NADP+/NADPH couple it is not clear if Protein X is an NADPH oxidase or an NADP+ reductase in vivo. Comparison of the NH2-terminal sequence and other properties of Protein X with those of other proteins, suggests that it is likely to be related to the Escherichia coli ferredoxin NADP+ reductase (the fpr gene product), and affinity chromatography shows that Protein X binds specifically to AvFdI.
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PMID:Purification and characterization of a NADP+/NADPH-specific flavoprotein that is overexpressed in FdI- strains of Azotobacter vinelandii. 803 7

Protein X from Azotobacter vinelandii has recently been shown to be either a NADPH oxidase or a NADP+ reductase that interacts specifically with ferredoxin I. Single crystals have been obtained by vapor diffusion from polyethylene glycol 4000 solutions containing 100 mM citrate buffer (pH 5.5). The crystals belong to space group P2(1)2(1)2 with unit cell constants a = 68.9 A, b = 76.9 A, c = 52.8 A and one molecule (M(r) 29,000) per asymmetric unit. The crystals diffract to 2.5 A resolution.
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PMID:Diffraction quality crystals of protein X from Azotobacter vinelandii. 805 82

A dye reductase activity, independent of the production of superoxide, is induced in membranes prepared from stimulated human neutrophils or during activation of NADPH oxidase in a cell-free system. This diaphorase activity was greater under anaerobic as opposed to aerobic conditions. The activity has an absolute requirement for the membrane components of the oxidase, but does not appear to have an absolute dependence for the 47-kDa cytosolic factor p47-phox, suggesting the oxidase can be converted to a partial state of activation in the absence of this factor. The dye-reductase activity was inhibited at low concentration by the oxidase inhibitor, diphenylene iodonium. The electron acceptor, iodonitrotetrazolium violet (2-(4-iodophenyl)-3-(4-nitrophenyl)-5-phenyltetrazolium chloride) is both a substrate and a mixed inhibitor of NADPH oxidation.
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PMID:The superoxide-generating system of human neutrophils possesses a novel diaphorase activity. Evidence for distinct regulation of electron flow within NADPH oxidase by p67-phox and p47-phox. 806 77

Neutrophil-membrane-associated NADPH-cytochrome c reductase and cytochrome b558 were separately eluted and highly purified by a combination of ion-exchange Sepharose, N-amino-octylagarose, 2',5'-ADP-Sepharose and heparin-Sepharose column chromatographies. The purified cytochrome c reductase with an apparent molecular mass of 68 kDa contained FMN and FAD (FMN/FAD approx. 1). Cytochrome b558 prepared in the presence of phospholipids and FAD showed marked O2-.-producing activity (Vmax., 8.53 mumol of O2-./min per mg of cytochrome; Km for NADPH 58.8 microM) in a cell-free assay system consisting of cytosol, arachidonate and GTP[S]. However, when it was obtained without FAD added to the purification process, it had negligible FAD and little or no O2-.-forming activity in the reconstituted system. The NADPH oxidase activity was not markedly stimulated on incubation of the purified reductase with either flavinated or flavin-depleted cytochrome b558 in the cell-free system, suggesting that the reductase is not likely to be involved in neutrophil O2-. generation. The purified reductase cross-reacted with polyclonal antibodies against both hepatic NADPH-cytochrome P-450 reductase and a synthetic peptide, ILVGPGTGIAPFRSF, which indicates residues 529-543 located in the glycine-rich NADPH-binding domain of the P-450 reductase, but cytochrome b558 did not produce any immunoreactive bands to these antibodies. These antibodies also produced a positive reaction with a 76 kDa protein from dimethyl sulphoxide-induced HL-60-cell microsomes. After solubilization of the microsomal membranes, the 76 kDa protein was readily converted into a partially proteolysed form (68 kDa) even in the presence of antiproteases. In addition, the microsomal fraction shows a CO difference spectrum with a peak at about 454 nm and a trough at 476 nm in the presence of dithionite, indicating the presence of a cytochrome P-450-like haemoprotein.
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PMID:NADPH-cytochrome c reductase from human neutrophil membranes: purification, characterization and localization. 811 Jan 98

The highly regulated enzyme HMG-CoA reductase generates mevalonate, the precursor of a complex series of isoprenoids that posttranslationally modify (isoprenylate) certain proteins (e.g., the low-molecular-weight GTP-binding proteins) or that are incorporated into cholesterol and other end products. We recently reported that isoprenoids are required for NADPH oxidase activity in granulocytes via LMW GTP-binding protein isoprenylation. In this study, we evaluated the effects of isoprenoid depletion on the expression of proinflammatory genes in human monocytic THP-1 cells. We selected conditions under which pretreatment for 24 h with isoprenoid synthesis inhibitors (HMG-CoA reductase inhibitor lovastatin or compactin at 10 microM) did not compromise cell viability but markedly suppressed H2O2 generation. Under these conditions interleukin-8 (IL-8) production was attenuated (by 50-90%) in response to lipopolysaccharide, granulocyte-macrophage colony-stimulating factor, and phorbol myristate acetate. Coincubation of reductase inhibitor-treated cells with mevalonate prevented the attenuation of IL-8 production by reductase inhibitors. The effects of isoprenoid depletion on cytokine production were selective: IL-1 beta generation was not inhibited but the production of IL-6 and IL-8 was concomitantly suppressed. IL-8 induction was suppressed at least in part through attenuation of the increase in mRNA in stimulated cells. We conclude that isoprenoid generation through the mevalonate pathway is a requirement for IL-8 induction by activated monocytic cells in vitro. Isoprenylation inhibitors have the potential to alter monocyte proinflammatory function.
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PMID:Role of the mevalonate pathway of isoprenoid synthesis in IL-8 generation by activated monocytic cells. 819 1

NADPH is a system in phagocytic cells that generates O2- and hydrogen peroxide in the endocytic vacuole, both of which are important for killing of the engulfed microbe. Dysfunction of this oxidase results in the syndrome of chronic granulomatous disease, characterized by a profound predisposition to bacterial and fungal infections. A flavocytochrome b is the site of most of the mutations causing this syndrome. The FAD and NADPH binding sites have been located on the beta subunit of this molecule, the C-terminal half of which showed weak sequence similarity to other reductases, including the ferredoxin-NADP reductase (FNR) of known structure. This enabled us to build a model of the nucleotide binding domains of the flavocytochrome using this structure as a template. The model was built initially using a novel automatic modeling method based on distance-matrix projection and then refined using energy minimization with appropriate side-chain torsional constraints. The resulting model rationalized much of the observed sequence conservation and identified a large insertion as a potential regulatory domain. It confirms the inclusion of the neutrophil flavocytochrome b-245 (Cb-245) as a member of the FNR family of reductases and strongly supports its function as the proximal electron transporting component of the NADPH oxidase.
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PMID:A structural model for the nucleotide binding domains of the flavocytochrome b-245 beta-chain. 825 42

A flavoprotein dehydrogenase assayed for the activity of electron transfer from NADPH to cytochrome c was highly purified from the cytosolic fraction of differentiated human promyelocytic leukemia HL-60 cells. The purified enzyme had an apparent molecular mass of 68 kDa by sodium dodecyl sulfate gel electrophoresis and an equimolar amounts of flavin mononucleotide and flavin-adenine dinucleotide. The purification factor of the enzyme with respect to the cytosolic fraction was close to 1100 and the recovery of activity was approximately 18%. Reduction of cytochrome c by NADPH indicated Michaelis-Menten kinetics with a Km value of 1.50 microM for NADPH. When cytochrome c was the varied substrate, a Km value of 4.10 microM was obtained. NADH was not an effective electron donor for cytochrome c reduction and NADPH-dependent reduction of nitroblue tetrazolium was negligibly small. The purified enzyme alone did not exhibit superoxide production, and NADPH oxidase activity was not markedly stimulated upon incubation of the reductase with cytochrome b558 purified from porcine neutrophils. The purified flavoprotein gave a positive cross-reactivity to polyclonal antibodies raised to microsomal NADPH-cytochrome P450 reductase, indicating structural homology between these enzymes. The catalytic properties of the purified NADPH-cytochrome c reductase have similarities to those of liver NADPH-cytochrome P450 reductase.
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PMID:Characterization of superoxide dismutase-insensitive cytochrome c reductase activity in HL-60 cytosol as NADPH-cytochrome P450 reductase. 848 36

The latent NADPH oxidase activity of purified cytochrome b(558) from rabbit peritoneal neutrophils was expressed in a cell-free system consisting of either gel-filtrated cytosol from resting neutrophils, or a mixture of the three cytosolic activation factors, namely p47, p67 and the G protein Rac1. The cell-free system was supplemented with arachidonic acid and GTPgammaS. With gel-filtrated cytosol, the oxidase activity was relatively high (22 moles O(2)(-)/s/mole heme b in the absence of added FAD), and enhanced by less than one fourth upon addition of FAD. In contrast, with the purified cytosolic activation factors the rate of O(2)(-) production was low (8 moles O(2)(-)/s/mole heme b), and enhanced more than two-fold by a saturating concentration of FAD. The specificity of FAD was demonstrated by the lack of effect of FMN. FAD was determined together with heme b and the oxidase activity in eluates from a Sepharcryl column at the last step of the purification of cytochrome b(558). In the eluted fraction that contained both the maximal inducible oxidase activity and the highest amount of heme b, the molar amount of FAD was 20 times less than that of heme b. It is concluded that cytochrome b(558) is an NADPH-dependent flavocytochrome oxido-reductase (NADPH oxidase) in which one part of FAD is firmly bound and another, loosely attached. On the other hand, there may exist a parallel pathway of electron transfer from NADPH via distinct FAD dehydrogenase(s) to the heme b component of the NADPH oxidase.
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PMID:Assessment of the flavoprotein nature of the redox core of neutrophil NADPH oxidase. 864 81

Plasma membrane preparations from strains of the yeast Saccharomyces cerevisiae gave a reduced minus oxidized spectrum characteristic of a b-type cytochrome and very similar to the spectrum of flavocytochrome b558 of human neutrophils. The magnitude of the signal correlated with the level of ferric reductase activity and the copy number of the FRE1 gene, indicating that the FRE1 protein is a cytochrome b. Sequence similarities with the flavin binding site of flavocytochrome b558 and other members of the ferredoxin-NADP reductase family, together with increased levels of noncovalently bound FAD and iodonitrotetrazolium violet reductase activity in membranes from a yeast strain overexpressing ferric reductase, suggested that the FRE1 protein may also carry a flavin group. Potentiometric titrations indicated that FRE1, like neutrophil NADPH oxidase, has an unusually low redox potential, in the region of -250 mV, and binds CO.
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PMID:The FRE1 ferric reductase of Saccharomyces cerevisiae is a cytochrome b similar to that of NADPH oxidase. 866 73

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