EC:1.6.99.6 - FACTA Search

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Query: EC:1.6.99.6 (NADPH oxidase)
10,295 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The plasma membrane fraction from porcine thyroid is known to exhibit an NADPH-dependent production of hydrogen peroxide (H2O2), which is utilized for the oxidative biosynthesis of thyroid hormones catalyzed by thyroid peroxidase. The H2O2 formation is cyanide-insensitive, ATP-activatable, and Ca2+-dependent (Nakamura, Y., Ogihara, S., and Ohtaki, S. (1987) J. Biochem. (Tokyo) 102, 1121-1132). It remains unknown, however, whether H2O2 is produced directly from molecular oxygen (O2) or formed via dismutation of superoxide anion (O2-). We therefore attempted to analyze the mechanism of H2O2 formation by utilizing a new method for the simultaneous measurement of O2- and H2O2, in which diacetyldeuteroheme-substituted horseradish peroxidase was employed as the trapping agent for both oxygen metabolites. When NADPH was incubated with the membrane fraction in the presence of the heme-substituted peroxidase, a massive O2 consumption was observed together with the formation of compound III, and O2- adduct of the peroxidase. The amounts of compound III formed and O2 consumed were stoichiometric with each other, while formation of compound II, an indicative of H2O2, was not observed during the reaction. On the other hand, when an excess amount of superoxide dismutase was included in the reaction mixture, compound II was produced with complete suppression of the compound III formation. NADH minimally supported both O2 consumption and formation of compound III or II. These results indicate that the NADPH oxidase in the plasma membrane of thyroid produces O2- as the primary metabolite of O2 and hence that H2O2 required for the thyroid hormone synthesis provided through the dismutation of O2-.
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PMID:Superoxide anion is the initial product in the hydrogen peroxide formation catalyzed by NADPH oxidase in porcine thyroid plasma membrane. 253 59

Whereas the chemotactic peptide, N-formyl-L-methionyl-L-leucyl-L-phenylalanine (fMet-Leu-Phe), induced NADPH-oxidase-catalyzed superoxide (O2-) formation in human neutrophils, purine and pyrimidine nucleotides per se did not stimulate NADPH oxidase but enhanced O2- formation induced by submaximally and maximally stimulatory concentrations of fMet-Leu-Phe up to fivefold. On the other hand, FMet-Leu-Phe primed neutrophils to generate O2- upon exposure to nucleotides. At a concentration of 100 microM, purine nucleotides enhanced O2- formation in the effectiveness order adenosine 5'-O-[3-thio]triphosphate (ATP[gamma S]) greater than ITP greater than guanosine 5'-O-[3-thio]triphosphate (GTP[gamma S]) greater than ATP = adenosine 5'-O-[2-thio]triphosphate (Sp-diastereomer) = GTP = guanosine 5'-O-[2-thio]diphosphate (GDP[beta S] = ADP greater than adenosine 5'-[beta, gamma-imido]triphosphate = adenosine 5'-O-[2-thio]triphosphate] (Rp-diastereomer). Pyrimidine nucleotides stimulated fMet-Leu-Phe-induced O2- formation in the effectiveness order uridine 5'-O-[3-thio]triphosphate (UTP[gamma S]) = UTP greater than CTP. Uracil (UDP[beta S]) = uridine 5'-O[2-thio]triphosphate (Rp-diastereomer) (Rp)-UTP[beta S]) = UTP greater than CTP. Uracil nucleotides were similarly effective potentiators of O2- formation as the corresponding adenine nucleotides. GDP[beta S] and UDP[beta S] synergistically enhanced the stimulatory effects of ATP[gamma S], GTP[gamma S] and UTP[gamma S]. Purine and pyrimidine nucleotides did not induce degranulation in neutrophils but potentiated fMet-Leu-Phe-induced release of beta-glucuronidase with similar nucleotide specificities as for O2- formation. In contrast, nucleotides per se induced aggregation of neutrophils. Treatment with pertussis toxin prevented aggregation induced by both nucleotides and fMet-Leu-Phe. Our results suggest that purine and pyrimidine nucleotides act via nucleotide receptors, the nucleotide specificity of which is different from nucleotide receptors in other cell types. Neutrophil nucleotide receptors are coupled to guanine-nucleotide-binding proteins. As nucleotides are released from cells under physiological and pathological conditions, they may play roles as intercellular signal molecules in neutrophil activation.
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PMID:Purine and pyrimidine nucleotides potentiate activation of NADPH oxidase and degranulation by chemotactic peptides and induce aggregation of human neutrophils via G proteins. 254 Sep 69

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) induces parkinsonisms in humans, monkeys, and some animals. MPTP is metabolized to 1-methyl-4-phenylpyridine (MPP+), which is a primary neurotoxin, by monoamine oxidase B. MPP+ destroys nigro-striatal dopaminergic neurons, but the mechanism of the neurotoxic effects of MPP+ is not known. In this study, the effects of MPP+ on O2- generation by neutrophils was examined. Neutrophils possess several functional and antigenic similarities to glial cells. Therefore, the O2- generating system of neutrophils might be useful in studying the mechanism of MPP+ neurotoxicity related to active oxygen species. 1) MPP+ did not affect myristic acid (MA), and elaidic acid stimulated O2- generation and H2O2 generation by the glucose-glucose oxidase system, suggesting that MPP+ did not react with O2- or H2O2 itself. 2) When fatty acid-activated neutrophils were treated with a neutral detergent, Renex 30, and then NADPH was added, the O2- generation by these permeabilized cells was inhibited by MPP+. 3) Kinetic study revealed that MPP+ was a noncompetitive inhibitor of the NADPH oxidase in plasma membranes isolated from MA-activated pig neutrophils. These results did not support the hypothesis that the action of MPP+ is related to active oxygen species. The results suggest that MPP+ does not penetrate through the plasma membrane, and interacts with the inner domain of NADPH oxidase in the neutrophil plasma membranes.
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PMID:[The effects of 1-methyl-4-phenylpyridine (MPP+) on O2- generation by neutrophils]. 254 94

Linoleic acid hydroperoxide (LOOH) is a naturally occurring product of lipid peroxidation. Incubation of rat alveolar macrophages with LOOH produced alterations of membrane properties and function at concentrations of LOOH as low as 0.1 microM. These included phorbol myristate acetate (PMA)-stimulated superoxide production, mitochondrial membrane potential, and plasma membrane potentials. These effects were clearly separated from gross loss of structural integrity as measured by lactate dehydrogenase release, in terms of both time of incubation and concentration of LOOH. PMA-stimulated superoxide production measured 15 min after addition of 10 microM LOOH was inhibited approximately 50%; however, addition of this concentration of the hydroperoxide after PMA stimulation was without effect. Superoxide production was also measured in a cell-free system produced by incubation of alveolar macrophages with sodium dodecyl sulfate. Prior incubation of alveolar macrophages with LOOH, H2O2, or t-butyl hydroperoxide, under conditions that significantly inhibited superoxide production by the intact cells, did not produce inhibition of the NADPH-dependent superoxide generating system in the cell-free preparation. These results suggest that the effect of LOOH was upon signal transduction involved in the stimulation of superoxide production rather than on the NADPH oxidase itself. Measurements of membrane potential changes were made using the lipophilic ions, 3,3'-dipentyloxacarbocyanine (DiOC5(3] and bis(3-phenyl-5-oxoisoxazol-4-yl)pentamethineoxonol (oxonol V). On the basis of their charge, DiOC5(3) fluorescence primarily reports mitochondrial potential and oxonol V absorbance reports plasma membrane potential. With 10 microM LOOH, depolarization of the plasma and mitochondrial membranes appeared to occur within seconds. As prior depolarization depresses superoxide production, these hydroperoxide-induced changes in membrane potential may be responsible for decreased PMA-stimulated superoxide production.
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PMID:Inhibition by linoleic acid hydroperoxide of alveolar macrophage superoxide production: effects upon mitochondrial and plasma membrane potentials. 255 24

A superoxide-generating NADPH oxidase was solubilized from phorbol 12-myristate 13-acetate-activated human neutrophils with a mixture of sodium deoxycholate (0.125%, w/v) and Lubrol-PX (0.125%, v/v). The solubilized preparation contained FAD (577 pmol/mg of protein) and cytochrome b-245 (479 pmol/mg of protein) and produced 11.61 mol of O2-./s per mol of cytochrome b (340 nmol of O2-./min per mg of protein). On addition of NADPH, the cytochrome b-245 was reduced by 7.9% and the FAD by 38% in the aerobic steady state; NADH addition caused little steady-state reduction of cytochrome b and FAD. In this preparation, and several others, the measured rate of O2-. production correlated with the turnover of cytochrome b calculated from the extent of cytochrome b-245 reduction under aerobic conditions. Addition of diphenyleneiodonium abolished the reduction of both the FAD and cytochrome b-245 components and inhibited O2-. production. The haem ligand imidazole inhibited O2-. generation and cytochrome b reduction while permitting FAD reduction. These results support the suggestion that the human neutrophil NADPH oxidase has the electron-transport sequence: NADPH----FAD----cytochrome b-245----O2.
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PMID:Studies on the electron-transfer mechanism of the human neutrophil NADPH oxidase. 255 3

Studies were performed to examine the lateral organization of the NADPH oxidase system in the plasma membrane of human neutrophils. Analysis of the subcellular fractionation of human neutrophils by isopycnic sedimentation of cavitated cell lysates suggested that there may be more than one population of plasma membrane vesicles formed upon cell disruption. One population (30-32% sucrose) contained surface accessible wheat germ agglutinin binding sites, alkaline phosphatase activity, and cytochrome b. Another population (34-36% sucrose) contained membrane-bound flavin and, when the cells were prestimulated with phorbol myristate acetate (PMA), NADPH-dependent superoxide generating activity. Approximately 25% of the neutrophil cytochrome b cosedimented with the heavy population, confirming our previous hypothesis (Parkos et al. (1985) J. Biol. Chem. 260, 6541-6547) that only a fraction of the total cellular cytochrome b is involved in superoxide production. The heavy plasma membrane fraction was also enriched in membrane associated actin and fodrin as detected by Western blot analysis. After extraction of the plasma membrane vesicles with detergent cocktails, the majority of superoxide generating activity remained associated with the detergent insoluble pellet. Western blot analysis demonstrated that the pellets were also enriched in actin. Further analysis of these pellets using rate-zonal detergent-containing sucrose density gradients indicated that the superoxide generating complex had an approximate sedimentation coefficient of 80 S, suggesting that the neutrophil superoxide generating system may form a complex on the plasma membrane which is associated with or somehow organized by the membrane skeletal matrix. This organization may be of functional relevance not only to the actual production of superoxide, but also to the targeting of microbicidal oxidants.
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PMID:The lateral organization of components of the membrane skeleton and superoxide generation in the plasma membrane of stimulated human neutrophils. 255 84

A factor in medium conditioned by mouse tumor cells was shown previously to suppress the capacity of mouse peritoneal macrophages to undergo a respiratory burst and to kill protozoal pathogens (macrophage deactivation factor, MDF). Recently, pure transforming growth factor-beta (TGF-beta) proved to be a potent macrophage deactivator as well. Two lines of evidence suggest that MDF is not identical with TGF-beta. First, rabbit anti-TGF-beta IgG neutralized the respiratory burst-suppressing activity of TGF-beta without affecting the bioactivity of MDF, even when the latter was treated with acid to activate potentially latent TGF-beta. Second, in contrast to MDF, which decreases the affinity of the NADPH oxidase for NADPH, permeabilized macrophages that had been deactivated with TGF-beta displayed the same Km and Vmax of the oxidase as activated macrophages. As with MDF, TGF-beta had no effect on two other potential control points over the secretion of respiratory burst products, namely, hydrogen peroxide catabolism or glucose uptake. Finally, neither MDF nor TGF-beta affected the extent or affinity of binding of phorbol diesters to macrophages, the activity or cofactor requirements for protein kinase C, or the ability of protein kinase C to translocate quantitatively from cytosol to membrane fractions in response to phorbol diesters. Thus, 1) MDF is not identical with TGF-beta, and 2) in contrast to the activation or deactivation of macrophages by numerous other agents, TGF-beta regulates macrophage respiratory burst capacity at a level other than the apparent affinity of the oxidase for its substrate.
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PMID:Comparison of transforming growth factor-beta and a macrophage- deactivating polypeptide from tumor cells. Differences in antigenicity and mechanism of action. 271 32

The NADPH-dependent superoxide production induced by sodium dodecyl sulfate (SDS) in the sonicates of unstimulated pig neutrophils required both membrane fraction and two components of cytosol fraction. The potency of the cytosol fraction in the activation of the superoxide production could be reconstituted dose dependently by mixing two protein components with relative molecular masses of 300 kDa and 50 kDa. Another low-molecular-mass component (1.3 kDa) could substitute the 50-kDa component. In the cell-free system consisting of the 300- and 50-kDa components and the membrane fraction, the superoxide production was markedly enhanced by FAD with a required concentration for half-maximal effect of 0.16 microM and inhibited by divalent cations such as Ca2+, Ba2+, Co2+, Zn2+ and Mn2+ and not Mg2+. ATP was not necessary for the activation, indicating that protein kinases such as protein kinase C are not involved in the SDS-dependent activation of NADPH oxidase. The NADPH oxidase activated by SDS in the cell-free system was recovered in the membrane fraction, and the superoxide formation by the SDS-activated membrane exhibited a Km value for NADPH of 46 microM and optimum pH at 7.0. The formation did not require the addition of SDS and FAD to the reaction mixture and was scarcely inhibited by the divalent cations.
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PMID:Characterization of the NADPH-dependent superoxide production activated by sodium dodecyl sulfate in a cell-free system of pig neutrophils. 282 May 10

1. The effect of N-ethylmaleimide (MalNEt) modification on O2- production by guinea-pig eosinophils mediated by different soluble stimuli was studied. 2. MalNEt pretreatment inhibited the O2- production stimulated by concanavalin A (Con A), cytochalasin E or digitonin, but not A23187 or sodium fluoride. 3. Particulate fractions from MalNEt-pretreated eosinophils before exposure to the stimulus showed the inhibition of the enhancement of NADPH-dependent O2- production induced by Con A, cytochalasin E or digitonin, but not A23187. 4. Treatment of eosinophils with MalNEt after stimulation had no effect on the NADPH oxidase activity. 5. These findings suggest that at least two pathways exist for the activation of the O2(-)-generating enzyme system, probably the NADPH oxidase system, in guinea-pig eosinophils.
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PMID:Comparative study on effect of N-ethylmaleimide on the superoxide-generating system of guinea-pig eosinophils stimulated by soluble stimuli. 282 49

Sodium dodecyl sulfate (SDS) was shown to elicit NADPH-dependent superoxide (O2-) production by a cell-free system derived from sonically disrupted resting guinea pig macrophages (Bromberg, Y., and Pick, E. (1985) J. Biol. Chem. 260, 13539-13545). O2- production was absolutely dependent on the cooperation between a membrane-associated component, sedimenting with the 48,000 X g pellet and a cytosolic factor, nonsedimentable at 265,000 X g. The present report describes the solubilization and characterization of the membrane-associated component of the SDS-activable O2(-)-forming NADPH oxidase (operationally termed pi). Treatment of the 48,000 X g pellet with 30 mM octyl glucoside resulted in complete transfer of pi to the soluble fraction. The solubilized pellet produced an average of 0.92 mumol of O2-/mg of protein/min upon reduction of octyl glucoside content below the critical micellar concentration and in the presence of cytosol, 100 microM SDS, and 0.2 mM NADPH. The activity of solubilized pellet-cytosol combinations was also expressed as NADPH-dependent, azide-resistant oxygen consumption and hydrogen peroxide production. pi was inactivated by the sulfhydryl reagent p-chloromercuribenzoate. Solubilized pellet contained spectroscopically detectable cytochrome b559 (225.6 +/- 15.0 pmol/mg mg protein). Both pi and cytochrome b559 were bound by Cibacron Blue Sepharose and could be eluted by a gradient of octyl glucoside (0-30 mM) in the presence of 1 M KCl. On high performance gel filtration on Superose 12, both pi and cytochrome b559 eluted in the excluded volume; when 25 mM octyl glucoside was present in the elution buffer, pi was partially dissociated from cytochrome b559. Sequential purification of pi on Blue Sepharose followed by gel filtration on Superose 12 in the presence of 25 mM octyl glucoside lead to complete resolution of pi from cytochrome b559 (pi was found in the Mr = 28,000 - 11,000 range while the bulk of cytochrome b559 eluted in the Mr = 113,000 - 71,000 range). We propose that pi is distinct from cytochrome b559 and represents a membrane-associated component in an amphiphile-activated electron transport chain from NADPH to oxygen.
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PMID:Activation of the superoxide forming NADPH oxidase in a cell-free system by sodium dodecyl sulfate. Characterization of the membrane-associated component. 282 96

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