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)

Activation of the phagocyte NADPH oxidase requires participation of membrane-bound cytochrome b558 and cytosol proteins of 47 kDa (p47) and 67 kDa (p67). We examined the sequence of participation of p47 and p67 in activation of the oxidase using an arachidonate-activated cell-free superoxidase (O2-) generating assay requiring phagocyte membrane and cytosol. Neutrophil cytosol from patients with certain forms of autosomal recessive chronic granulomatous disease (CGD) lack either p47 or p67. Initial incubation of membrane and arachidonate with CGD cytosol deficient in either p47 or p67 fails to generate superoxide in the cell-free assay until addition of complementary cytosol. CGD cytosol was incubated with arachidonate and membrane for 5-15 min and the lag time of O2- generation was measured after addition of complementary CGD cytosol. The lag time is shortened when p47, but not p67, is present in the initial incubation. We have previously shown that the peptide, RGVHFIF, corresponding to a cytoplasmic carboxyl-terminal domain of the large subunit of cytochrome b558, inhibits activation of NADPH oxidase in the cell-free assay, but does not affect the enzyme activity of fully assembled oxidase. Experiments with sequential addition of complementary CGD cytosols were performed as above, except that RGVHFIF was added after the initial incubation. The peptide failed to inhibit when added after initial incubation if p47 was present during that incubation. In contrast, the peptide markedly inhibited oxidase activity if p47 was absent during the initial incubation. These results suggest that p47, but not p67, is a participant with membrane and/or other cytosol components in early arachidonate-dependent reactions. In the absence of p67, these reactions culminate in the irreversible formation of a metastable activation intermediate that is insensitive to inhibition by RGVHFIF. After addition of p67, this activation intermediate subsequently reacts to form the active NADPH oxidase.
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PMID:The phagocyte 47-kilodalton cytosolic oxidase protein is an early reactant in activation of the respiratory burst. 216 17

Differentiation of myeloid cells is associated with the gradual acquisition of functional capacity to produce a respiratory burst. In our study HL-60 cells were differentiated to the monocyte phenotype with IFN-gamma or 1,25-dihydroxyvitamin D3, or to the neutrophil phenotype with retinoic acid or DMSO to compare the time-course of expression of membrane and cytosolic oxidase components, and to correlate this with the appearance of a functional oxidase. Over a 6-day period of induction the rank order of the ability of these agents to induce expression of PMA-stimulated superoxide production was: IFN-gamma greater than 1,25(OH)2D3 greater than retinoic acid greater than DMSO. Immunoblot analysis of HL-60 membranes and cytosol was used to assess the amount of specific phagocyte oxidase factors (91 and 22 kDa subunits of membrane cytochrome b558 (gp91 and p22), and 47 and 67 kDa cytosol oxidase factors (p47 and p67)). HL-60 cell membranes or cytosol were tested in a cell-free assay of superoxide production by mixing with normal neutrophil cytosol or membranes, respectively. p47 was first detected at 16 h of differentiation, increasing similarly thereafter with all induction regimens and reaching a maximum by 3 to 4 days. The earliest detection of p67 varied from 2 to 6 days depending on the inducing agent and appeared to be the limiting cytosol component. Small amounts of both subunits of cytochrome b558 were detected in uninduced HL-60 membranes, but were sufficient to support substantial superoxide production when combined with normal neutrophil cytosol. Both cytochrome b558 subunit proteins and membrane oxidase activity increased during differentiation in parallel. We conclude that membrane and cytosol components of the NADPH oxidase complex appear at different times and increase differently during HL-60 differentiation. The production of p67 is the major factor limiting the respiratory burst during HL-60 differentiation.
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PMID:Induction of the respiratory burst in HL-60 cells. Correlation of function and protein expression. 217 May 20

The development of cytochrome b558 (Cyt b) as determined spectrophotometrically, was investigated in human polymorphonuclear neutrophils (PMN), monocytes (MN) and during differentiation of HL-60 and U 937 cells induced by retinoic acid (RA) alone or in combination with IFN gamma. O2- release in response to a panel of stimulating agents, ie latex particles, opsonised zymosan, PMA, Con A and fMLP, was monitored by lucigenin-amplified chemiluminescence (CL). In parallel the expression of myeloperoxidase (MPO) was investigated and its catalytic activity on H2O2 related to luminol-amplified CL responses. In mature PMN and MN phagocytes, regardless of the stimulating agent, the O2- production is closely related to Cyt b but not to MPO specific contents. In differentiated HL-60 and U 937 cells, the oxidative metabolism increases in parallel with Cyt b specific contents, both being enhanced by the addition of IFN gamma to the RA treatment. However, marked differences in the O2- production intensities are observed depending on the stimulating agent tested and the state of differentiation considered. The PMA-stimulated O2- production is rather low ie 100 and 20 times less in granulocytic HL-60 and monocyto-macrophagic U 937 cells than in PMN and MN respectively. Latex, zymosan and Con A stimulated responses are close to those of MN, in monocyte-macrophagic U 937 cells. In conclusion, these data show that during differentiation; 1), Cyt b plays a critical role in O2- production; 2), the pathways leading to NADPH oxidase activation are diversely modulated following phagocyte differentiation with IFN gamma and/or with RA.
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PMID:Development of cytochrome b558 and oxidative metabolism in human granulocytes, monocytes and during differentiation of HL-60 and U 937 cells. 217 7

Activation of the phagocytic cell superoxide-generating NADPH oxidase requires interaction of cytosolic and membrane-associated components. With most stimuli activation of the oxidase is accompanied by multisite phosphorylation of the 47-kDa cytosolic oxidase factor (p47) which translocates from cytosol to membranes. Native p47 is a highly basic protein that undergoes stepwise charge shifts with successive phosphorylation events. Phosphorylation of p47 was studied by immunoprecipitation from neutrophil cytosol and membrane fractions followed by two-dimensional gel electrophoresis and autoradiography. In the resting cell p47 was not phosphorylated. In the cytosol of phorbol myristate acetate-activated neutrophils eight distinct p47 phosphoproteins were present. The membrane fraction from these activated cells contained a family of p47 phosphoproteins of electrophoretic mobilities identical to those seen in cytosol plus an additional, more acidic p47 phosphoprotein not present in cytosol. Very early after activation (30 s) only the four most acidic p47 phosphoproteins were present in the membrane fraction. Only at later times (5-15 min) was the full spectrum of p47 phosphoproteins present in the membrane fraction. In contrast, the full spectrum of p47 phosphoproteins was present in the cytosol over the entire time course we studied. In neutrophils from patients with cytochrome b558-deficient chronic granulomatous disease p47 phosphorylation was incomplete and p47 translocation to membrane did not occur. These studies demonstrated that the cytochrome was essential for formation of the three most acidic p47 phosphoproteins and greatly augmented formation of the fourth most acidic p47 phosphoprotein found in normal neutrophils. The temporal correlation between specific p47 phosphorylation events and p47 translocation to membrane is consistent with a model of oxidase activation in which a series of p47 phosphorylation events which occurs in cytosol precedes and may be required for p47 interaction with membrane.
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PMID:Phosphorylation of neutrophil 47-kDa cytosolic oxidase factor. Translocation to membrane is associated with distinct phosphorylation events. 224 68

Chronic granulomatous disease (CGD) is a heterogeneous group of inherited disorders of impaired superoxide production in phagocytes. The most common X-linked recessive form involves the CYBB locus in band Xp21.1 that encodes the membrane-bound beta subunit of the cytochrome b558 complex. Two autosomal recessive forms of CGD result from defects in cytosolic components of the phagocyte NADPH oxidase system, p47phox (NCF1) and p67phox (NCF2). By using human cDNA probes we have mapped the genes for these proteins to chromosomal sites. The combined data from Southern analysis of somatic cell hybrid lines and chromosomal in situ hybridization localize NCF1 to 7q11.23 and NCF2 to band 1q25. The NCF1 localization corrects an erroneous preliminary assignment to chromosome 10. In the mouse, the locus corresponding to NCF2 (Ncf-2) was mapped with somatic cell hybrid panels and recombinant inbred strains to mouse chromosome 1 near Xmv-21 within a region of conserved homology with human chromosome 1 region q21-q32. A second site, probably a processed pseudogene, was identified on mouse chromosome 13.
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PMID:Genes for two autosomal recessive forms of chronic granulomatous disease assigned to 1q25 (NCF2) and 7q11.23 (NCF1). 239 22

The formation of oxygen-derived free radicals by the phagocytes (neutrophils, eosinophils, monocytes and macrophages) is catalysed by a membrane-bound NADPH oxidase which is dormant in resting cells and becomes activated during phagocytosis or following interaction of the cells with suitable soluble stimulants. This enzyme is under investigation in many laboratories but its molecular structure remains to be clarified. Possible components such as flavoproteins, cytochrome b558, and quinones have been proposed on the basis of enzyme purification studies, effects of inhibitors, kinetic properties and analysis of genetic defects of the oxidase. An extensive discussion of the evidence for the participation of these constituents is reported. On the basis of the available information on the structure and the catalytic properties of the NADPH oxidase, a series of possible models of the electron-transport chain from NADPH to O2 is presented. Finally, the triggering mechanism of the respiratory burst is discussed, with particular reference to the stimulus-response coupling and the final modification(s) of the oxidase (phosphorylation, assembly, change of lipid environment, etc.) which are involved in its activation.
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PMID:The superoxide-forming enzymatic system of phagocytes. 283 75

Phosphatidic acid (PA), a molecule that is rapidly produced by the stimulated turnover of phospholipids in a variety of cells including blood neutrophils, elicited NADPH-dependent superoxide anion (O2-) production in detergent extracts from membranes of resting pig neutrophils. The stimulatory effect of PA was independent of cytosolic factors, differing from arachidonic acid and sodium dodecyl sulfate which, on the contrary, absolutely required the presence of cytosol to elicit the same result. The O2(-)-forming activity of the detergent extract activable by PA, as that by sodium dodecyl sulfate and arachidonic acid plus cytosol, was found in the chromatographic fractions containing cytochrome b558 and presented a chromatographic profile identical to that of the activated NADPH oxidase, which was obtained from neutrophils prestimulated with phorbol 12-myristate 13-acetate. The PA-induced NADPH-dependent O2(-)-forming activity showed kinetic properties and sensitivity to the inhibitors similar to the classical ones of the activated neutrophil NADPH oxidase. The data suggest that, in this cell-free system, PA may stimulate O2- formation by direct interaction with latent NADPH oxidase of neutrophils or with some of its regulatory components.
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PMID:Activation of NADPH-dependent superoxide production in plasma membrane extracts of pig neutrophils by phosphatidic acid. 283 19

Heterocyclic nitrogenous bases, such as pyridine and imidazole which bind to heme-iron in cytochromes, inhibited the respiratory burst in intact neutrophils and NADPH-dependent oxygen consumption in lysed cells. Inhibition was accompanied by a spectral change in reduced cytochrome b558 as judged by low-temperature spectroscopy at 77 K. The position and shape of the alpha-band of the cytochrome were significantly altered upon exposure to pyridine or some other bases. Both inhibition and spectral changes were reversible. The results are consistent with the view that cytochrome b558 is involved in the NADPH oxidase system in neutrophils.
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PMID:Pyridine and imidazole reversibly inhibit the respiratory burst in porcine and human neutrophils: evidence for the involvement of cytochrome b558 in the reaction. 383 71

Chronic granulomatous disease (CGD) can result from any of four single gene defects involving components of the superoxide (O2-.)-generating phagocyte NADPH oxidase (phox). The phox transmembrane flavocytochrome b558 is composed of two peptides, gp91phox and p22phox. Mutations of gp91phox cause X-linked CGD, whereas mutations of p22phox cause one of the three autosomal recessive forms of CGD. We used the Maloney leukemia virus-based MFG retrovirus vector to produce replication defective retroviruses encoding gp91phox or p22phox. To maximize viral titer MFG retroviruses do not contain internal promoter or resistance elements. Epstein-Barr virus transformed B-lymphocyte cell lines (EBV-B) derived from normal individuals contain phox components and produce O2-., whereas those derived from CGD patients show the CGD defect. Transduction of gp91phox or p22phox-deficient CGD EBV-B lines resulted in correction of O2-. production from a barely detectable baseline to an average 7.2% and 13.8% of normal control, respectively, without any selective regimen to enrich for transduced cells. CD34+ hematopoietic progenitor cells, the therapeutic target for gene therapy of CGD, were isolated from peripheral blood of CGD patients, transduced with MFG-phox retroviruses, and differentiated in culture to mature phagocytes. Transduction of progenitors corrected the gp91phox (seven patients) and p22phox (two patients) CGD phagocyte oxidase defect to 2.5% and 4.9% of normal O2-. production, respectively, representing an 87-fold and 161-fold increase. These studies show correction of flavocytochrome b558-deficient CGD in primary hematopoietic progenitors, providing a basis for development of gene therapy for the X-linked gp91phox and autosomal p22phox-deficient forms of CGD.
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PMID:CD34+ peripheral blood progenitors as a target for genetic correction of the two flavocytochrome b558 defective forms of chronic granulomatous disease. 751 18

Tumor necrosis factor (TNF) triggers cell spreading, release of granule constituents, and production of toxic oxygen derivatives in human neutrophils adherent to fibrinogen. This response requires cytoskeleton reorganization and is dependent on expression of beta 2 integrins. We analyzed distribution of distinct proteins in Triton X-100-soluble and insoluble fractions in neutrophils adherent to fibrinogen. We found that stimulation of adherent neutrophils with TNF causes the redistribution to a Triton-insoluble fraction of alpha-actinin, beta 2 integrins, and the four components whose assembly constitutes an active NADPH oxidase: the gp91-phox, p22-phox, p47-phox, and p67-phox proteins. Redistribution of these different proteins to a Triton-insoluble fraction took relatively long times and was maximal after about 30 min of stimulation with TNF. Prevention of actin polymerization with cytochalasin B hampered the TNF-induced redistribution of these proteins from a Triton-soluble to an insoluble fraction. In addition, tyrosine phosphorylated proteins and the protein tyrosine kinase p58fgr were recovered in this Triton-insoluble fraction. These findings show that stimulated, beta 2 integrin-dependent adhesion of neutrophils to fibrinogen is accompanied by redistribution to cytoskeletal structures of (1) beta 2 integrins, that is, neutrophil receptors for fibrinogen; (2) proteins involved in neutrophil effector functions, that is, components of NADPH oxidase; and (3) tyrosine phosphorylated proteins and the protein tyrosine kinase p58fgr, molecules that are potentially involved in the formation of a submembranous signaling complex.
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PMID:Tumor necrosis factor triggers redistribution to a Triton X-100-insoluble, cytoskeletal fraction of beta 2 integrins, NADPH oxidase components, tyrosine phosphorylated proteins, and the protein tyrosine kinase p58fgr in human neutrophils adherent to fibrinogen. 759 62


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