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)

The enzyme 4-hydroxyphenylacetate, NAD(P)H:oxygen oxidoreductase (1-hydroxylating) (EC 1.14.13 ...; 4-hydroxyphenylacetate 1-monooxygenase; referred to here as 4-HPA 1-hydroxylase) was induced in Pseudomonas acidovorans when 4-hydroxyphenylacetate (4-PHA) was utilized as carbon source for growth; homogentisate and maleylacetoacetate were intermediates in the degradation of 4-HPA. A preparation of the hydroxylase that was free from homogentisate dioxygenase and could be stored at 4 C in the presence of dithioerythritol with little loss of activity was obtained by ultracentrifuging cell extracts; but when purified 18-fold by affinity chromatography the enzyme became unstable. Flavin adenine dinucleotide and Mg2+ ions were required for full activity. 4-HPA 1-hydrocylase was inhibited by KCl, which was uncompetitive with 4-HPA. Values of Ki determined for inhibitors competitive with 4-HPA were 17 muM dl-4-hydroxymandelic acid, 43 muM 3,4-dihydroxyphenylacetic acid, 87 muM 4-hydroxy-3-methylphenylacetic acid, and 440 muM 4-hydroxyphenylpropionic acid. Apparent Km values for substrates of 4-HPA 1-hydroxylase were 31 muM 4-HPA, 67 muM oxygen, 95 muM reduced nicotinamide adenine dinucleotide (NADH); AND 250 muM reduced nicotinamide adenine dinucleotide phosphate (NADPH). The same maximum velocity was given by NADH and NADPH. A chemical synthesis is described for 2-deutero-4-hydroxyphenylacetic acid. This compound was enzymatically hydroxylated with retention of half the deuterium in the homogentisic acid formed. Activity as substrate or inhibitor of 4-HPA 1-hydroxylase was shown only by those analogues of 4-HPA that possessed a hydroxyl group substituent at C-4 of the benze nucleus. A mechanism is suggested that accounts for this structural requirement and also for the observation that when 4-hydroxyphenoxyacetic acid was attacked by the enzyme, hydroquinone was formed by release of the side chain, probably as glycolic acid. Only one enantiometer of racemic 4-hydroxyhydratropic acid was attacked by 4-HPA 1-hydroxylase; the product, alpha-methylhomogentisic acid (2-(2,5-dihydroxyphenyl)-propionic acid), exhibited optical activity. This observation suggests that, during its shift from C-1 to C-2 of the nucleus, the side chain of the substrate remains bound to a site on the enzyme while a conformational change of the protein permits the necessary movement of the benzene ring.
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PMID:Metabolic function and properties of 4-hydroxyphenylacetic acid 1-hydroxylase from Pseudomonas acidovorans. 23 37

The membrane fraction and three cytosolic proteins of neutrophils, p47-phox, p67-phox and a G-protein, are involved in the cell-free activation of the O2(-)-generating NADPH oxidase in the presence of SDS, though it has been controversial whether the G-protein is required or just enhancing the activity. We have used the three cytosolic factors, the solubilized membrane fraction, GTP gamma S and SDS, and found that both G-protein and GTP gamma S are essential for the activation of the NADPH oxidase. The effect of GTP gamma S is modified by Mg2+: the cations enhance the O2- generation at low concentrations of GTP gamma S, whereas they attenuate the activity at higher concentrations of GTP gamma S. In presence of 10 microM GTP gamma S, the maximal activity is observed at 0.1 microM Mg2+, which is several-fold higher than that at 1 mM Mg2+. The omission of Mg2+ followed by the chelation with EDTA results in loss of the activation, which is completely restored by the addition of Mg2+. Thus, Mg2+ seems to modulate the activation of the NADPH oxidase at the level of the G-protein.
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PMID:Role of Mg2+ in activation of NADPH oxidase of human neutrophils: evidence that Mg2+ acts through G-protein. 132 9

Human neutrophils and other phagocytes generate superoxide anion (O2-) as a means of destroying ingested microorganisms. O2- is produced by an NADPH-consuming oxidase composed of membrane and cytosolic components. Activation of the NADPH oxidase is absolutely dependent upon GTP, indicating the requirement for a GTP-binding protein in this process. We have utilized a five-step chromatographic procedure to isolate a GTP-binding protein from human neutrophil cytosol which can stimulate NADPH oxidase activity in a cell-free assay. Oxidase enhancing activity was shown to coisolate with this GTP-binding component, which was purified to apparent homogeneity. The GTP-binding protein was identified as Rac 2 by immunological reactivity and amino acid sequencing. Thus, Rac 2 appears to be a third cytosolic component required for human neutrophil NADPH oxidase activation. Recombinant Rac 2 was shown to bind guanine nucleotides in a Mg(2+)-dependent fashion. GDP dissociation rates were determined and shown to be regulated by the free Mg2+ concentration. Rac 2 was found to possess the highest rate of intrinsic GTP hydrolysis of any of the characterized members of the Ras superfamily. The biochemical properties of Rac 2 indicate it is likely to be subject to regulatory cofactors in vivo.
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PMID:Purification and characterization of Rac 2. A cytosolic GTP-binding protein that regulates human neutrophil NADPH oxidase. 133 Oct 90

To determine the role of protein tyrosine phosphorylation in the activation of phospholipase D (PLD), electropermeabilized HL-60 cells labeled in [3H]alkyl-phosphatidylcholine were treated with vanadate derivatives. Micromolar concentrations of vanadyl hydroperoxide (V(4+)-OOH) induced accumulation of tyrosine-phosphorylated proteins. Concomitantly, V(4+)-OOH or a combination of vanadate and NADPH elicited a concentration- and time-dependent accumulation of phosphatidic acid (PtdOH). In the presence of ethanol a sustained formation of phosphatidylethanol was observed, indicating that a type D phospholipase was activated. A good correlation was found to exist between the accumulation of tyrosine-phosphorylated proteins and activation of PLD. The V(4+)-OOH concentration dependence of the two responses was nearly identical, and the time course of activation was similar, with tyrosine phosphorylation preceding PLD activation by approximately 1 min. The ability of V(4+)-OOH to induce both responses was found to be strictly dependent on the presence of ATP and/or Mg2+, suggesting that PLD activation involves phosphotransferase reactions. Accordingly, ST638, a tyrosine kinase inhibitor, reduced concomitantly tyrosine phosphorylation and PLD activation elicited by V(4+)-OOH. The mechanism of action of V(4+)-OOH was investigated. The diacylglycerol kinase inhibitors, dioctanoylethylene glycol and R59022 potentiated PLD stimulation by exogenous diacylglycerol but not by V(4+)-OOH. Moreover, stimulation by V(4+)-OOH and by phorbol esters was synergystic. Therefore, diacylglycerol-induced activation of protein kinase C is unlikely to mediate the effects of V(4+)-OOH. The response of PLD to V(4+)-OOH was larger than that to guanosine 5'-(gamma-thio)triphosphate. Moreover, the effects of GTP gamma S and V(4+)-OOH were additive. Hence, activation of G proteins cannot account for the stimulation of PLD by V(4+)-OOH. V(4+)-OOH also triggers a burst of O2 consumption by the NADPH oxidase. Inhibition of PtdOH accumulation by addition of ethanol or by ST638 abolished this respiratory burst. Together, the results establish a strong correlation between tyrosine phosphorylation, PLD activation, and stimulation of the NADPH oxidase in HL-60 cells, suggesting a causal relationship.
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PMID:Peroxides of vanadate induce activation of phospholipase D in HL-60 cells. Role of tyrosine phosphorylation. 160 60

In this study we seek to elucidate the interaction of capsaicin with the calmodulin mediated signal pathways in macrophages, by comparing its action on macrophage functions with a known calmodulin antagonist, fluphenazine. Kinetics of capsaicin uptake by macrophages (10(3) cells) revealed that a maximum of 200 microM capsaicin was taken up within 10 min. Ca2+ ionophore triggered generation of superoxide anion and hydrogen peroxide by macrophages was inhibited in a dose-dependent manner by fluphenazine (IC50, 20 microM and 12 microM, respectively) and also by capsaicin (IC50, 30 microM and 9 microM, respectively), suggesting an involvement of calmodulin in the regulation of NADPH oxidase. In vitro both fluphenazine and capsaicin inhibited Ca2(+)-Mg2+ ATPase and cAMP-phosphodiesterase from macrophages and this inhibition was reversed by exogenous addition of calmodulin. Fluorescence studies revealed a direct Ca2+ dependent interaction of capsaicin with calmodulin. From these results we suggest that capsaicin acts via calmodulin to inhibit stimulus-induced macrophage oxidative burst and also that calmodulin regulates the oxidative burst in macrophages.
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PMID:Capsaicin inhibits calmodulin-mediated oxidative burst in rat macrophages. 196 91

Electropermeabilization creates small pores in the plasma membrane allowing the introduction of low-molecular-weight modulatory components, such as ions and nucleotides, into the cytosol. The present study investigates fluoride-mediated stimulation of the signal transduction pathway that activates the respiratory burst in electropermeabilized neutrophils. In marked contrast to intact (i.e., non-electropermeabilized) neutrophils, cells permeabilized by this technique demonstrated an immediate and potent stimulation of the superoxide (O2-)-generating NADPH oxidase in response to the addition of fluoride. Furthermore, permeabilization of neutrophils in the presence of exogenously added ATP enhanced the rate of F(-)-mediated O2- production. Fluoride-stimulated O2- production in electropermeabilized neutrophils was antagonized by GDP beta S and dependent upon the presence of Mg2+ in the medium, but was insensitive to pertussis toxin treatment, consistent with the hypothesis that fluoride activates a G protein, probably Gp, by interacting with the nucleotide-binding site on the G alpha subunit. In addition, electropermeabilized neutrophil O2- release triggered by F- was blocked by staurosporine and H-7, indicating that this pathway proceeds largely through protein kinase C activation. However, nucleotide-enhanced O2- production was only partially blocked by these inhibitors, suggesting that under such conditions ATP either competes with the inhibitor-protein kinase interaction or affects the signaling pathway(s) in such a way that protein kinase C may no longer be necessary for the activation of NADPH oxidase.
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PMID:Fluoride-mediated activation of the respiratory burst in electropermeabilized neutrophils. 211 32

Superoxide (.O2-) production by the NADPH oxidase of a membrane fraction derived from rabbit peritoneal neutrophils activated by 4 beta-phorbol 12-myristate 13-acetate (PMA) was studied at 25 degrees C under different conditions, and measured by the superoxide dismutase inhibitable reduction of cytochrome c. Whereas PMA-activated rabbit neutrophils incubated in a glucose-supplemented medium exhibited a substantial rate of production of .O2-, the membranes prepared by sonication of the activated neutrophils were virtually unable to generate .O2- in the presence of NADPH. Instead, they exhibited an NADPH-dependent diaphorase activity, measured by the superoxide-dismutase-insensitive reduction of cytochrome c. Upon addition of arachidonic acid, which is known to elicit oxidase activation, the NADPH diaphorase activity of the rabbit neutrophil membranes vanished and was stoichiometrically replaced by an NADPH oxidase activity. The emerging oxidase activity was fully sensitive to iodonium biphenyl, a potent inhibitor of the respiratory burst, whereas the diaphorase activity was not affected. Addition of 0.1% Triton X-100 or an excess of arachidonic acid, acting as detergent, resulted in the reappearance of the diaphorase activity at the expense of the oxidase activity. These results indicate that the diaphorase-oxidase transition is reversible. When the rabbit neutrophil membranes were supplemented with rabbit neutrophil cytosol, guanosine 5'-[gamma-thio]triphosphate and Mg2+, in addition to arachidonic acid, not only the NADPH diaphorase activity disappeared, but the emerging NADPH oxidase activity was markedly enhanced (about 10 times compared to that of membranes treated with arachidonic acid alone). The diaphorase-oxidase transition was accompanied by a 10-fold increase in the Km for NADPH, suggesting a change of conformation propagated to the NADPH-binding site during the transition. The treatment of PMA-activated rabbit neutrophils with cross-linking reagents, like glutaraldehyde or 1-(3-dimethylaminopropyl)-3-ethyl carbodiimide, prevented the loss of the PMA-elicited oxidase activity upon disruption of the cells by sonication, suggesting that the interactions between the components of the oxidase complex are stabilized by cross-linking.
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PMID:Respiratory burst of rabbit peritoneal neutrophils. Transition from an NADPH diaphorase activity to an .O2(-)-generating oxidase activity. 217 79

Recent studies have shown that, in cell free systems, Mg2+, but not Ca2+, is absolutely required for the generation of reducing equivalents by neutrophil NADPH oxidase. Apparently Mg2+ is required for binding of cytosolic protein(s) to the plasma membrane in forming a functional NADPH oxidase complex. Using intact neutrophils made permeable to Mg2+ and Ca2+ by A23187 it was found that Mg2+ was required for the generation of reducing equivalents by PMA stimulated cells while Ca2+ inhibited cytochrome c reduction. On the other hand, FMLP-induced neutrophils were unable to generate reducing equivalents unless both Ca2+ and Mg2+ were present in the media. Sequential addition of these cations indicated that Ca2+ was required for transduction of the FMLP-receptor generated signal to a point in the pathway where Mg2(+)-dependent synthesis of reducing equivalents occurred. This step, presumably, is the Mg2(+)-dependent completion of the NADPH oxidase complex. Finally, approximately 50% of the neutrophil's 2.19 fmoles (6.32 mM) of Mg2+ was found to be in a readily exchangeable pool and that pretreatment of neutrophils with either FMLP or PMA increased this pool by only 4-5%. This suggests there is an adequate pool of Mg2+ available to support completion of NADPH oxidase complex and that a stimulus-induced rise in free Mg2+ is not required to assist in the formation of the complex.
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PMID:Potential roles of Mg2+ and Ca2+ in NADPH oxidase dependent superoxide anion synthesis by human neutrophils. 217 63

Kinetics of activation of the NADPH oxidase in a fully soluble cell-free system from phorbol myristate acetate (PMA)-stimulated human neutrophils were investigated. In a cell-free system in which Mg2+ and sodium dodecyl sulfate, an anionic detergent required for the activation of NADPH oxidase are contained, cytosol prepared from PMA-stimulated neutrophils failed to activate PMA-stimulated neutrophil oxidase. However, cytosol prepared from resting (control) neutrophils was capable of activating PMA-stimulated neutrophil oxidase in a cell-free system in which its Km for NADPH was almost similar to that of control neutrophil oxidase. Cytosol from PMA-stimulated neutrophils could not activate control neutrophil oxidase, although it did not contain any inhibitors of NADPH oxidase activation. These results suggest that, in PMA-stimulated neutrophils, cytosolic activation factors may be consumed or exhausted, and that the affinity for NADPH of PMA-stimulated neutrophil oxidase may be the same as that of control neutrophil oxidase.
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PMID:Activation of the NADPH oxidase in a cell-free system from human neutrophils stimulated by phorbol myristate acetate. 234

Electropermeabilized human neutrophils were used to investigate the possible role of G-proteins in the respiratory burst elicited by concanavalin A (Con A). The Con A-induced activation of the NADPH oxidase was not inhibited by either pertussis toxin or cholera toxin. However, the burst was inhibited by GDP and GDP beta S providing evidence for the involvement of a G-protein(s). O2 consumption in Con A-stimulated cells was dependent on both ATP and Mg2+. ATP could be substituted by ATP gamma S but not by the non-hydrolyzable analog AMP-PNP, suggesting involvement of phosphotransferase reactions. It is concluded that at least two distinct types of G-proteins are capable of inducing the respiratory burst in neutrophils and that accumulation of phosphorylated intermediates may be essential for activation of the respiratory burst by the lectin.
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PMID:Concanavalin A stimulation of O2 consumption in electropermeabilized neutrophils via a pertussis toxin-insensitive G protein. 250 97

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