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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)

Superoxide (O2-) production by neutrophils stimulated with chemotactic peptides [e.g., formylmethionyl-leucyl-phenylalanine (fMLP)] is transient but increases in rate and duration after pretreatment of the cells with dihydrocytochalasin B (dhCB), suggesting a possible role for the plasma membrane and membrane skeleton in the regulation of the O2- generating system. Analysis of plasma membrane isolated from these cells by isopycnic sucrose density gradient sedimentation showed that there were no significant variation in the distribution of plasma membrane markers between control and dhCB-treated cells, whereas a significant redistribution of plasma membrane markers was observed in dhCB + fMLP-treated cells. Instead of sedimenting to 31-35% sucrose, as in the former two groups, plasma membrane markers were broadly distributed over 25-50% sucrose in the dhCB + fMLP-treated cells. In addition, approximately 80% degranulation was achieved in these cells, whereas little granule release (< 5%) was observed in control and dhCB-treated cells. Analysis of the gradient fractions for membrane skeletal (actin and fodrin) and NADPH oxidase (cytochrome b and p47-phox) components in dhCB + fMLP-treated cells demonstrated that the distribution of fodrin, actin, cytochrome b, and p47-phox followed the broad distribution of plasma membrane markers, with an overall eightfold increase in membrane-associated actin. Despite the broad redistribution of plasma membrane markers, the distribution of O2- generating activity remained confined to a narrower peak at approximately 50% sucrose. These results demonstrate that a heterogeneous surface membrane of higher density with a differential distribution of proteins and O2- generating activity are created after dhCB + fMLP treatment; however, domain structure is conserved in the new membrane, with only a subfraction of the reorganized plasma membrane containing all of the components necessary for active O2- generation. Our results support a role for plasma membrane lateral organization and participation of the membrane skeleton in the regulation of the O2- generating system.
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PMID:Remodeling of the plasma membrane after stimulation of neutrophils with f-Met-Leu-Phe and dihydrocytochalasin B: identification of membrane subdomains containing NADPH oxidase activity. 819 93

Neutrophils possess a multicomponent NADPH-oxidase that produces large quantities of superoxide, which can in turn generate other reactive oxygen intermediates. Superoxide and its dismutation product, hydrogen peroxide, are powerful oxidants. Because the activity of certain tyrosine kinases and phosphatases can be affected by their redox state, we considered the possibility that endogenously generated reactive oxygen intermediates (ROI) may alter phosphotyrosine formation and thereby function as intra- or intercellular messengers in neutrophils. Exposure of human neutrophils to exogenous oxidants such as diamide induced marked tyrosine phosphorylation of several cellular proteins. More importantly, activation of the NADPH oxidase in permeabilized neutrophils, by direct stimulation of GTP-binding proteins, also resulted in enhanced tyrosine phosphorylation. The latter was NADPH-dependent, paralleled by production of superoxide, and was inhibited by diphenylene iodonium, an inhibitor of the flavoprotein component of the oxidase. Neutrophils, from a patient with chronic granulomatous disease, which are deficient in the production of ROI, demonstrated no such phosphotyrosine accumulation. We conclude that ROI produced by the NADPH oxidase can regulate tyrosine phosphorylation in granulocytes, possibly by effects of oxidation-sensitive tyrosine kinases and/or phosphatases.
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PMID:Regulation of tyrosine phosphorylation in neutrophils by the NADPH oxidase. Role of reactive oxygen intermediates. 834 2

Hyperosmolarity in the renal medulla inhibits host defenses against bacterial pyelonephritis. Urea and NaCl contribute most to high osmolarity in the renal medulla. We therefore examined the inhibitory mechanism of urea on superoxide generation by human polymorphonuclear leukocytes. Superoxide production was inhibited by high concentration of urea. This inhibition was found to be direct and immediate. In addition, direct inactivation of NADPH oxidase, the key enzyme complex of superoxide generation, was shown by an NADPH oxidase activity assay using cell lysates of polymorphonuclear leukocytes stimulated by phorbol myristate acetate. The inhibitory effect of urea on NADPH oxidase was reversed by washing urea out of the assay system of cell lysates. Kinetic analysis of the inhibition of NADPH oxidase activity by urea showed decreased Vmax and Km, suggesting uncompetitive inhibition. These findings suggested that urea inactivated polymorphonuclear leukocyte superoxide production through a direct and uncompetitive inhibition of NADPH oxidase.
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PMID:Direct inactivation of human polymorphonuclear leukocyte by hyperosmotic urea comparable to the renal medulla. 838 Nov 92

Low-density lipoprotein (LDL) oxidation induced by superoxide radicals generated in a cell-free system could not stimulate the subsequent development of high-uptake LDL during incubation in a medium normally permissive for cell-mediated oxidation. Similarly, LDL oxidative modification by macrophages was not accelerated when extracellular superoxide generation was increased 5-10-fold by stimulation of NADPH oxidase. The NADPH oxidase inhibitor, diphenylene iodonium, did inhibit macrophage-mediated modification of LDL, but its effects do not appear to involve superoxide generation. Superoxide dismutase (SOD) was shown to be inappropriate as a test for the involvement of superoxide radicals in cell-mediated oxidation due to its metal-chelating properties and to the development of a pro-oxidant activity by heat inactivation. We conclude that there is presently no secure evidence for the involvement of superoxide radical in macrophage-mediated oxidative modification of LDL.
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PMID:Does superoxide radical have a role in macrophage-mediated oxidative modification of LDL? 838 55

Rac1 and Rac2 are closely related, low molecular weight GTP-binding proteins that have both been implicated in regulation of phagocyte NADPH oxidase. This enzyme system is composed of multiple membrane-bound and cytosolic subunits and when activated catalyzes the one-electron reduction of oxygen to superoxide. Superoxide and its highly reactive derivatives are essential for killing microorganisms. Rac proteins undergo posttranslational processing, primarily the addition of an isoprenyl group to a carboxyl-terminal cysteine residue. We directly compared recombinant Rac1 and Rac2 in a human neutrophil cell-free NADPH oxidase system in which cytosol was replaced by purified recombinant cytosolic components (p47-phox and p67-phox). Processed Rac1 and Rac2 were both highly active in this system and supported comparable rates of superoxide production. Under different cell-free conditions, however, in which suboptimal amounts of cytosol were present in the assay mixture, processed Rac2 worked much better than Rac1 at all but the lowest concentrations. This suggests that a factor in the cytosol may suppress the activity of Rac1 but not of Rac2. Unprocessed Rac proteins were only weakly able to support superoxide generation in either system, but preloading of Rac1 or Rac2 with guanosine 5'-O-(3-thio-triphosphate) (GTP gamma S) restored activity. These results indicate that processing is required for nucleotide exchange but not for interaction with oxidase components.
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PMID:Requirement for posttranslational processing of Rac GTP-binding proteins for activation of human neutrophil NADPH oxidase. 838 55

The effect of sulfite on the oxidative metabolism of human neutrophils was studied in vitro. Superoxide anion production of PMN was determined using superoxide dismutase-inhibitable lucigenin-dependent CL. The addition of sulfite in concentrations of 0.01 mM-1 mM results in an up to 6-fold increase in CL of nonstimulated neutrophils at 37 degrees C and pH 7. Neutrophils stimulated with zymosan or PMA have an additional 2-fold stimulation when sulfite is added. Higher sulfite concentrations (2 mM-10 mM) decrease the CL of both nonstimulated and stimulated cells. The activity of NADPH oxidase, responsible for O2.- production, is significantly increased in neutrophils incubated with 1 mM sulfite. Neutrophils from patients with chronic granulomatous disease, which are cytochrome b558 negative or have p47phox deficiency, exhibit no significant NADPH oxidase activity and show no increase in CL by sulfite. Inhibitors of protein kinase C, H7, and calphostin C, as well as inhibitors of Ca(2+)- and calmodulin-dependent processes, W7, and R 24 571, completely inhibited the increased CL of sulfite-treated neutrophils. These findings indicate that sulfite in low concentrations stimulates neutrophils to produce superoxide anions by activation of NADPH oxidase through a signal transduction pathway involving protein kinase C and Ca2+/calmodulin.
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PMID:Sulfite stimulates NADPH oxidase of human neutrophils to produce active oxygen radicals via protein kinase C and Ca2+/calmodulin pathways. 839 22

Superoxide is produced by phagocytic cells at rates sufficient to have cytocidal effects. A wide variety of receptor-dependent and -independent agonists triggers this respiratory burst, including immunoglobin aggregates, complement fragments, and leukotriene B4. Lower rates of O2-. production are triggered by addition of specific cytokines into B-lymphocytes, endothelial cells, fibroblasts, and kidney mesangial cells; low concentration of radicals may act as signals for proliferation or other changes. The NADPH oxidase of phagocytes, characterized by the presence of FAD and a low potential cytochrome b, is organized to transfer electrons electrogenically across the plasma membrane from NADPH to O2. A proton channel permits movement of compensating H+.
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PMID:The mechanism of the production of superoxide by phagocytes. 839 50

Superoxide production by phagocytic white blood cells requires the assembly of an NADPH oxidase from membrane and cytosolic proteins. Recombinant cytosolic proteins p47phox and p67phox and neutrophil membranes were used to purify a third cytosolic component that is necessary and sufficient for cell-free reconstitution of NADPH oxidase. The component was isolated as a complex of rho-GDP dissociation inhibitor (rho-GDI) and two members of the rho subfamily of ras-related guanine nucleotide binding proteins, rac2 and CDC42Hs. Oxidase reconstitution with these pure cytosolic proteins was unaffected by GTP gamma S but was inhibited by GDP beta S, suggesting that the active complex contained endogenous bound GTP. Direct binding of rho-GDI to the GTP gamma S-bound forms of these G-proteins was demonstrated by gel filtration following exchange with radiolabeled guanine nucleotide. rho-GDI was shown to be nonessential for cell-free oxidase reconstitution in experiments that compared the activities of pure recombinant forms of these G-proteins. Recombinant rac augmented superoxide production, while recombinant CDC42Hs, which shares 70% amino acid sequence identity with rac, did not. Three highly conserved regions of rac1 and rac2 were noted as markedly divergent in CDC42Hs. It is proposed that one or more of these regions of rac may be involved in the specific interaction of rac with the other NADPH oxidase protein(s).
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PMID:Regulation of the human neutrophil NADPH oxidase by rho-related G-proteins. 850 89

We examined the effects of okadaic acid, a protein phosphatase 1 and 2A inhibitor, on superoxide generation in human neutrophils. Superoxide generation induced by fMLP was inhibited by low-dose okadaic acid (10-100 nM), but it had no effect on superoxide synthesis by PMA, and the fMLP-induced rise of the intracellular Ca2+ concentration was not affected by low-dose okadaic acid. These findings suggested that the inhibitory mechanism of okadaic acid might involve PKC-independent and Ca(2+)-independent pathways in fMLP induced NADPH oxidase activation. Both fMLP-stimulated phosphorylation of serine residues in p47phox and its translocation to the plasma membrane were suppressed by low-dose okadaic acid. On the other hand, PMA-induced phosphorylation and translocation of p47phox were not affected by such a low dose of okadaic acid. These findings suggested that fMLP induced phosphorylation of serine residues in p47phox was regulated by protein phosphatase 2A, and its phosphorylation was necessary for translocation and superoxide generation in fMLP-activated human neutrophils.
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PMID:Involvement of protein phosphatase 2A in PKC-independent pathway of neutrophil superoxide generation by fMLP. 865 38

Phagocytic cells possess an electron-transport system which accepts electrons from NADPH in the cytosol to reduce oxygen to the superoxide radical in the vacuolar lumen. The superoxide is instrumental in killing ingested microorganisms. Patients suffering from chronic granulomatous disease (CGD), in which this system is failing, are abnormally susceptible to infectious diseases. Studying CGD patients' neutrophils has been enormously helpful in identifying the components of the superoxide-generating system, known as the NADPH oxidase. This review will describe the components of the electron-transport chain involved in the oxidase and the factors needed for its regulation.
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PMID:NADPH oxidase and the respiratory burst. 874 43


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