Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The superoxide-generating NADPH oxidase of neutrophils can be activated in a cell-free system consisting of cell membranes, cytosol and an activating detergent (e.g. arachidonate or SDS). It has previously been reported [Aviram and Sharabani (1989) Biochem. Biophys. Res. Commun. 161, 712-719] that a mixture of phosphoinositides (PPIs), as well as the individual inositol lipids, interfere with the activation process. In the present study it is shown that exposure of the cytosol to PPI results in a progressive (t1/2 = 30 s) loss of its oxidase-supporting activity and that Mg2+ ions eliminate this inactivation. Neomycin, previously described as an inhibitor of cell-free activation, counteracted the effect of PPI and vice versa. Fractionation experiments implicated the p67-phox cytosolic component of the oxidase in the association with PPI. PPI blocked activity of recombinant p67-phox also and quenched the fluorescence intensity of its tryptophan residues. It is suggested that PPIs may mediate the interaction of the oxidase with the cytoskeleton and/or with the membrane.
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PMID:The interaction of cytosolic components of neutrophil NADPH oxidase with phosphoinositides. 824 Feb 58

Cell stimulation of blood phagocytes activates the superoxide-producing NADPH oxidase. Cytochrome b558, one of the two oxidase redox components, comprises a light (alpha) and a heavy glycosylated (beta) subunit. The other redox component, a flavoprotein, is now thought to be the heavy subunit, on the basis of amino acid sequence comparisons and of reconstitution experiments with purified components. We published that pyridoxal-5'-diphospho-5'-adenosine is an inactivating affinity label for the NADPH-binding site of particulate oxidase from activated neutrophils. We have now radiolabeled the inactivated oxidase by reducing with Na[3H]BH4 the Schiff base formed between proteins and the reagent. Upon SDS-PAGE, the NADPH-inhibitable incorporation is found at the same position as the immunodetectable cytochrome heavy subunit, before and after deglycosylation. Membranes from either activated cells of a cytochrome-deficient X-linked granulomatous disease patient or normal resting cells show no incorporation at this position. Our results provide experimental evidence for the existence on the cytochrome b558 heavy chain of an NADPH-binding site which can only be affinity-labeled by PLP-AMP when the oxidase is active. This suggests the occurrence of a conformational change in the cofactor binding site upon enzyme activation.
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PMID:Affinity-labeling of an NADPH-binding site on the heavy subunit of flavocytochrome b558 in particulate NADPH oxidase from activated human neutrophils. 824 Mar 26

Previous studies from this laboratory described the kinetic characteristics of the inhibition by tosylphenylalanine chloromethane (TosPheCH2Cl) on superoxide anion production by human neutrophils (PMN) stimulated with a phorbol ester (PMA). In this study we present further evidence concerning the potential role of the chloromethane target in the normal cellular activation of NADPH oxidase. When PMN are treated with TosPheCH2Cl and subsequently PMA, or with the two reagents in the reverse order, the inhibition of superoxide production by the intact cells is still present in a particulate NADPH oxidase fraction prepared from these cells. Nevertheless, when cells incubated only with the chloromethane and not with PMA are disrupted, both their cytosolic and membrane fractions are fully competent in the cell-free activation assay. Thus, the chloromethane target has a role in NADPH oxidase activation exclusively at the cellular level. This observation constitutes additional evidence in favour of the idea that activation in the cell-free system reflects only partially the events which occur in the cells. When cells are activated with PMA, their cytosol displays a loss of activating capacity in the cell-free activation assay in the presence of arachidonate, as was shown before with SDS as activator [Ambruso, D. R., Bolsher, B. G. J. M., Stockman, P. M., Verhoeven, A. J. & Roos, D. (1990) J. Biol. Chem. 265, 924-930]. This phenomenon was shown to arise most probably from the translocation of cytosolic factors to the membrane, resulting in a depleted cytosol. When superoxide production was inhibited by cell treatment with TosPheCH2Cl, either before or after activation with PMA, the cytosol from inhibited cells showed a recovery of activation capacity in the cell-free system. This effect probably results from TosPheCH2Cl inhibiting the translocation of the cytosolic factors when added before PMA. This results in an insufficient activation at the membrane level, which was previously considered as an inhibition. The effect of TosPheCH2Cl, when added after PMA, can best be explained again as an inhibition of translocation in the frame of the continuous replenishment-deactivation hypothesis proposed by Akard et al. [Akard, L. P., English, D. & Gabig, T. G. (1988) Blood 72, 322-327]. Thus, TosPheCH2Cl is apparently a promising new tool for studying the activation of NADPH oxidase at the cellular level.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Aminoacyl chloromethanes as tools to study the requirements of NADPH oxidase activation in human neutrophils. 824 79

To further define the role played by protein kinase C (PKC) in the activation of the neutrophil NADPH oxidase, we have utilized a pseudosubstrate of PKC which was myristoylated at the N terminus. In electropermeabilized neutrophils, the myristoylated pseudosubstrate Phe-Ala-Arg-Lys-Gly-Ala-Leu-Arg-Gln (myr-psi PKC) inhibited PMA-induced protein phosphorylations and activation of the NADPH oxidase, induced either by PMA or by the receptor agonist formyl-methionyl-leucyl-phenylalanine. Both the pseudosubstrate lacking the N-terminal myristate (psi PKC) and a myristoylated control peptide (Phe-Ala-Glu-Asp-Gly-Ala-Leu-Glu-Gln, myr-CP) were without effect on these responses. The myristoylated pseudosubstrate was also tested in a cell-free system, in which NADPH oxidase activation can be achieved by addition of SDS and guanosine 5'-3-O-(thio)triphosphate in a staurosporine-insensitive manner. Myr-psi PKC, but not psi PKC or myr-CP, proved to be a potent inhibitor of NADPH oxidase activity in the cell-free system, indicating that the inhibition observed in permeabilized neutrophils may have been caused by an effect other than PKC inhibition. In the presence of myr-psi PKC, translocation in the cell-free system of the cytosolic oxidase components p47-phox and p67-phox to the plasma membrane was inhibited. From these results we conclude that myristoylation profoundly increases the ability of pseudosubstrates of PKC to inhibit not only PKC-mediated phosphorylations, but also NADPH oxidase activation. The latter effect, however, is most probably not related to PKC inhibition but may indicate a critical role of the membrane surface charge in the translocation of the cytosolic oxidase components p47-phox and p67-phox.
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PMID:Inhibition of neutrophil NADPH oxidase assembly by a myristoylated pseudosubstrate of protein kinase C. 836 Jan 54

The presumed NADPH dehydrogenase function of the heterodimeric cytochrome b558 in the neutrophil oxidase complex has been investigated by combined photoaffinity labeling and immunoblot analysis of membrane proteins from bovine neutrophils. The photoaffinity probe was a radiolabeled analog of NADPH, [4-[N-(4-azido-2-nitrophenyl)[3H]amino]butyryl]NADPH ([3H]azido-NADPH), and the antibodies were directed against the C-terminal regions of the two subunits of cytochrome b558. Plasma membrane vesicles obtained by differential centrifugation of bovine neutrophil homogenates were routinely used as a source of NADPH oxidase. They were permeabilized by sodium deoxycholate to facilitate the access of NADPH or its azido analog to the totality of the specific binding sites. In the absence of light, azido-NADPH behaved as a competitive inhibitor of NADPH oxidase with a Ki of 6 microM, and was able to bind to high-affinity specific binding sites with a Kd of 5-6 microM, indicating a higher affinity of the oxidase for the photoprobe than for the substrate NADPH (KM = 30-40 microM). Upon photolabeling, the oxidase was fully inactivated. Following resolution of the membrane proteins by SDS-PAGE, a predominant photolabeled protein band of 80-100 kDa was revealed, which coincided with the large subunit (beta) of cytochrome b558 identified by immunoblot in a parallel gel. The enzymatic deglycosylation of photolabeled neutrophil membranes shifted the masses of both the photolabeled band and the immunoreactive beta subunit from 80-100 to 55-65 kDa in accordance with the glycoprotein nature of the beta subunit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Critical assessment of the presence of an NADPH binding site on neutrophil cytochrome b558 by photoaffinity and immunochemical labeling. 836 34

Spermine, a cellular polyamine, down-regulates O2- generation in human neutrophils stimulated by receptor-linked agonist [Ogata, Tamura and Takeshita (1992) Biochem. Biophys. Res. Commun. 182, 20-26]. In this study, to elucidate the mechanism for the inhibition, the effect of spermine on cell-free activation of the O2- generating enzyme (NADPH oxidase) was examined. Spermine suppressed the SDS-induced activation of NADPH oxidase in a dose-dependent manner with an IC50 of 18 microM. The inhibition was specific for spermine over its precursor amines, spermidine and putrescine. Spermine did not alter the Km for NADPH or the optimal concentration of SDS for activation. The amine was inhibitory only when added before activation, indicating that it affects the activation process rather than the enzyme's activity. An increased concentration of cytosol partly prevented the inhibition by spermine. In semi-recombinant cell-free system, spermine inhibited the activation of NADPH oxidase as effectively as in the cell-free system (IC50 = 13 microM). Pretreatment of each recombinant cytosolic component with spermine revealed that they (especially p67phox) are sensitive to spermine. These results suggest that spermine interacts with cytosolic component(s) and impairs the assembly of NADPH oxidase.
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PMID:Spermine suppresses the activation of human neutrophil NADPH oxidase in cell-free and semi-recombinant systems. 857 91

Flavocytochrome b558, the membrane-spanning component of the NADPH oxidase system of phagocytic cells, is composed of two subunits, p22phox and gp91phox (where phox stands for phagocyte oxidase). The stoichiometry of the subunits has been determined for purified flavocytochrome b556 by: (1) densitometry of Coomassie Blue-stained proteins separated by SDS/PAGE, (2) aromatic absorbance at 280 mm by the subunits after separation by gel filtration under denaturing conditions, (3) crosslinking studies with bis[sulphosuccinimidyl]suberate, where the molecular mass of the cross-linked complex was determined by Western blotting, and (4) radiolabelling of pure flavocytochrome b556 on lysine residues with 125I-labelled Bolton-Hunter reagent (N-succinimidyl-3-(4-hydroxy-5-[125I]iodophenyl)propionate), followed by SDS/PAGE and determination of the radioactivity on each subunit. The ratio of p22phox to gp91phox in the purified flavocytochrome b556 was related back to that in the neutrophil membrane by quantitative Western and dot-blotting to ensure that the stoichiometry was maintained during purification. These measurements showed that the two subunits were present in neutrophil membranes in a molar ratio of 1:1.
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PMID:Stoichiometry of the subunits of flavocytochrome b558 of the NADPH oxidase of phagocytes. 894 64

Phagocyte NADPH oxidase, dormant in resting cells, is activated upon cell stimulation to produce superoxide anion, a precursor of microbicidal oxidants. Active NADPH oxidase is found on the membrane as an enzyme complex, composed of membrane-integrated cytochrome b558 (gp91phox and p22phox subunits) and two cytosolic factors (p47phox and p67phox), each of the latter containing two src homology 3 (SH3) domains. Recently, we radioactively identified a third cytosolic factor, p40phox, as a molecule that associates with p67phox in human neutrophils. Although it has been found that this p40phox protein is defective in patients with chronic granulomatous disease (CGD) who lack p67phox, evidence to functionally relate it to the NADPH oxidase system has hitherto been lacking. In this study, we raised separate antibodies against both the COOH- and NH2-terminal polypeptides of p40phox as well as against the COOH-terminal polypeptide of p67phox to examine the mode of interaction between p40phox and p67phox in a complex. The antibody against the COOH terminus of p67phox was able to communoprecipitate p40phox in conjunction with p67phox itself as was expected. Very interestingly, however, the antibody against the COOH terminus of p40phox completely dissociated the p67phox molecule from the p40phox-p67phox complex unit without any detectable coimmunoprecipitation of p67phox, despite their tight association, whereas that against the NH2 terminus of p40phox had absolutely no dissociation effect. Similar results were found regarding their effects on the O2-generating ability of cytosol in a cell-free activation system, i.e., inhibition was noted with the COOH terminus antibody but not with that for the NH2 terminus of p40phox. However, this dissociation did not affect the translocation of the cytosolic components including p47phox to the membrane. Once the NADPH oxidase was activated, the antibody for the COOH terminus did not show any inhibitory effect on catalysis by the activated enzyme. The stimulators of NADPH oxidase, MA and SDS, did not dissociate the p40phox-p67phox complex. These results provide the first demonstration that p40phox is practically involved in the activation of NADPH oxidase through the association of its COOH-terminal, but not its NH2-terminal, with p67phox.
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PMID:Involvement of p40phox in activation of phagocyte NADPH oxidase through association of its carboxyl-terminal, but not its amino-terminal, with p67phox. 906 49

The leukocyte iodonitrotetrazolium violet (INT) reductase activity of disrupted bovine polymorphonuclear neutrophils is closely associated with the activation of the O2(-)-generating NADPH oxidase in a cell-free system. It is dependent upon NADPH, cytosolic factors, and amphiphiles (such as arachidonate), the same factors required for O2- generation. Both O2- generation and INT reductase activity are inhibited by phenylarsine oxide, an inhibitor of the activation of the NADPH oxidase [Li, J., & Guillory, R. J. (1997) J. Biochem. Mol. Biol. Biophys. (in press)]. In this report, the INT diaphorase activity of disrupted bovine polymorphonuclear neutrophils is shown to be resolved by DEAE-Sepharose chromatography into two fractions: an NADPH-cytochrome c reductase-containing fraction and a cytochrome b558-associated fraction. The diaphorase activity in the NADPH-cytochrome c reductase-containing portion is not dependent upon the presence of an amphiphile or phospholipid and is not associated with O2- generation. Upon incorporation into liposomes, the cytochrome b558-containing fraction demonstrates high O2- and INT reductase activities in the presence of cytosolic factors. Both O2- generation and INT reductase activities are SDS and FAD dependent and further stimulated by GTPgammaS. Phenylarsine oxide inhibits both O2- generation and INT reductase activities when added prior to activation by SDS. With the cytochrome b-containing liposomes, the Km values (O2- formation) for NADPH and NADH are 27.2 microM and 810 microM, and for INT reductase the Km values are 27.5 microM and 1017 microM, respectively. Under anaerobic conditions and thus in the absence of O2- formation, the NADPH-dependent INT reductase activity does not change, indicating that the dye reduction is not due to its direct reduction by O2 anion but is an intrinsic property of the superoxide-generating NADPH oxidase. Cytochrome b558 is the essential component of the NADPH oxidase and contains all the redox centers necessary for electron flow between NADPH and oxygen. The correlation of the activation and inhibition patterns for O2- generation and INT reduction by cytochrome b558 incorporated into artificial liposomes strongly indicates that the two activities are associated with the same membrane protein, cytochrome b558.
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PMID:Purified leukocyte cytochrome b558 incorporated into liposomes catalyzes a cytosolic factor dependent diaphorase activity. 915 36

Activation of the neutrophil NADPH oxidase requires translocation of cytosolic proteins p47(phox), p67(phox), and Rac to the plasma membrane or phagosomal membrane, where they assemble with membrane-bound flavocytochrome b. During this process, it appears that p47(phox) undergoes conformational changes, resulting in the exposure of binding sites involved in assembly and activation of the oxidase. In the present study, we have directly evaluated activation-induced conformational changes in p47(phox) using tryptophan fluorescence and circular dichroism spectroscopy. Treatment of p47(phox) with amphiphilic agents known to activate the NADPH oxidase (SDS and arachidonic acid) caused a dose-dependent quenching in the intrinsic tryptophan fluorescence of p47(phox), whereas treatment with a number of other amphiphilic agents that failed to activate the oxidase had no effect on p47(phox) fluorescence. In addition, the concentration range of activating agents required to induce changes in fluorescence correlated with the concentration range of these agents that induced maximal NADPH oxidase activity in a cell-free assay system. We next determined if activation by phosphorylation caused the same type of conformational changes in p47(phox). Protein kinase C phosphorylation of p47(phox) in vitro resulted in comparable quenching of fluorescence, which also correlated directly with NADPH oxidase activity. Finally, the circular dichroism (CD) spectrum of p47(phox) was significantly changed by the addition of SDS, whereas treatment with a non-activating detergent had no effect on the CD spectrum. These results support the conclusion that activation by amphiphilic agents results in changes in the secondary structure of p47(phox). Thus, our studies provide direct evidence linking conformational changes in p47(phox) to the NADPH oxidase activation/assembly process and also further support the hypothesis that amphiphile-mediated activation of the NADPH oxidase induces changes in p47(phox) that are similar to those mediated by phosphorylation in vivo.
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PMID:Analysis of activation-induced conformational changes in p47phox using tryptophan fluorescence spectroscopy. 936 11


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