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)

Low-temperature electron paramagnetic resonance (EPR) spectrometry on granulocytes prepared from pig blood was carried out with concentrated cellular and subcellular fractions to characterize EPR signals of cytochrome b-558 (cyt b-558). A thick cell suspension (approximately 2 x 10(9) cells/ml), containing mostly neutrophils, showed typical high-spin EPR signals due to myeloperoxidase (MPO) and a low spin signal at a g value of around 3.2. A similar thick granulocyte suspension containing eosinophils showed not only these signals but also low spin heme signals at g values of 2.86, 2.13, and 1.66, which have been reported to be of cyt b-558 (Ueno et al. 1991, FEBS Lett. 281, 130-132). MPO and eosinophil peroxidase (EPO) were released from the membrane fractions with 50 mM phosphate buffer (pH 7.0) containing 1 M NaCl, and then were highly concentrated, in which no cyt b-558 was detected by absorption spectra. The signal at a g value of 2.86 was found only in the EPO fraction, suggesting that this signal is derived from a low-spin form of an EPO-complex, but neither from MPO nor cyt b-558. The O2(-)-forming NADPH oxidase associated in the membranes was solubilized with heptyl-thio-glucoside at 0 degree C and concentrated up to 45 microM cyt b-558 with no modification of the heme moiety confirmed by its O2(-)-generating activity and lack of carbon monoxide-binding capacity. Cyt b-558 showed an anisotropic signal at a g value of 3.2 +/- 0.05, which was cyanide-insensitive and reducible with reductants. The signal intensity was concentration dependent, suggesting that the g = 3.2 signal is characteristic of the low-spin heme iron in cyt b-558.
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PMID:Electron paramagnetic resonance studies on cytochrome b-558 and peroxidases of pig blood granulocytes. 132 37

Nitric oxide provokes vasodilation and inhibits platelet aggregation. We examined the effect of nitric oxide on superoxide anion production by three sources: activated intact neutrophils, xanthine oxidase/hypoxanthine, and the NADPH oxidase. Nitric oxide significantly inhibited the generation of superoxide anion by neutrophils exposed to either FMLP (10(-7)M) or PMA (150 ng/ml) (IC50 = 30 microM). To determine whether the effect of nitric oxide on the respiratory burst was due to simple scavenging of O2+, kinetic studies that compared effects on neutrophils and the cell-free xanthine oxidase system were performed. Nitric oxide inhibited O2+ produced by xanthine oxidase only when added simultaneously with substrate, consistent with the short half-life of NO in oxygenated solution. In contrast, the addition of nitric oxide to neutrophils 20 min before FMLP resulted in the inhibition of O2+ production, which suggests formation of a stable intermediate. The effect of nitric oxide on the cell-free NADPH oxidase superoxide-generating system was also examined: The addition of NO before arachidonate activation (t = -6 min) significantly inhibited superoxide anion production. Nitric oxide did not inhibit O2+ when added at NADPH initiation (t = 0). Treatment of the membrane but not cytosolic component of the oxidase was sufficient to inhibit O2+ generation. The data suggest that nitric oxide inhibits neutrophil O2+ production via direct effects on membrane components of the NADPH oxidase. This action must occur before the assembly of the activated complex.
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PMID:Nitric oxide, an endothelial cell relaxation factor, inhibits neutrophil superoxide anion production via a direct action on the NADPH oxidase. 132 92

Cytochrome b558 of pig blood neutrophils was purified from the membranes of resting cells to examine its ability to reconstitute superoxide (O2-)-forming NADPH oxidase activity in a cell-free assay system containing cytosol and fatty acid. The membrane-associated cytochrome b558 was solubilized with a detergent, n-heptyl beta-thioglucoside, and purified by DEAE-Sepharose, heparin-Sepharose, and Mono Q column chromatography. The final preparation of cytochrome containing 11.5 nmol of protoheme/mg of protein gave bands of the large and small subunits on immunoblotted gel. The cell-free system with the purified cytochrome alone as a membrane component showed little O2(-)-generating activity in the absence of exogenous FAD. However, the system showed high O2(-)-generating activity of 31.8 mol/s/mol of cytochrome b558 (52.5% of the original O2(-)-generating activity of the solubilized membranes) in the presence of a nitro blue tetrazolium (NBT) reductase fraction that was separated from the cytochrome b fraction by heparin-Sepharose chromatography. Heat treatment of the NBT reductase fraction resulted in loss of the O2(-)-generating activity in the reconstituted system. The O2(-)-forming activity of the reconstituted system was markedly decreased by removal of FAD from the NBT reductase fraction and was restored by readdition of FAD to the FAD-depleted reductase. The reconstituted system containing purified cytochrome b558 plus the NBT reductase showed approximately 100 times higher O2(-)-generating activity than a system containing rabbit liver NADPH-cytochrome P-450 reductase instead. These results suggest that both the FAD-dependent NBT reductase and cytochrome b558 are required as membrane redox components for O2(-)-forming NADPH oxidase activity. The present data are discussed in comparison with previously reported results on reconstituted systems containing added free FAD.
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PMID:Reconstitution of superoxide-forming NADPH oxidase activity with cytochrome b558 purified from porcine neutrophils. Requirement of a membrane-bound flavin enzyme for reconstitution of activity. 132 33

To further understand the mechanisms involved in phagocyte activation in general and in NADPH oxidase activation in particular, a polyclonal antibody was raised in rabbit against a partially purified oxidase preparation. The enzyme was solubilized from zymosan-activated human neutrophils and resting cells and separated by preparative isoelectric focusing electrophoresis. A polyclonal antibody was raised in rabbit against the pI 5.0 fraction, which had the maximum superoxide-producing capacity. Analysis of the polyclonal antibody revealed marked differences between activated and resting neutrophils. The antibody recognized in particular an 8-kDa protein (p8) in resting human neutrophil cytosol and in the membrane of zymosan-activated cells. A polyclonal antibody (anti-p8) was raised against the pure cytosolic p8 protein. This anti-p8 reacted not only with p8, but also with cytosolic proteins of 14 kDa and 6 kDa. N-terminal amino acid sequence analysis of p8 revealed homology with the calcium-binding myeloid related protein (MRP-8). Upon neutrophil activation, translocation of the 8- and 14-kDa proteins to the membrane was observed with stimuli known to depend on extracellular calcium. In calcium-depleted medium, the absence of translocation correlated with a depression of superoxide production, supporting a role for the calcium-binding protein in cellular activation.
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PMID:Translocation of a small cytosolic calcium-binding protein (MRP-8) to plasma membrane correlates with human neutrophil activation. 132 51

Propranolol, a beta-adrenergic receptor antagonist, also inhibits phosphatidate phosphohydrolase, the enzyme that converts phosphatidic acid into diacylglycerol. This latter effect has prompted recent use of propranolol in studies examining the importance of diacylglycerol and phosphatidic acid in cellular signalling events. Here, we show that propranolol is also an inhibitor of protein kinase C. At concentrations greater than or equal to 20 microM, propranolol reduced [3H]phorbol dibutyrate binding (IC50 = 200 microM) and phorbol myristate acetate-stimulated superoxide anion release (IC50 = 130 microM) in human neutrophils. Scatchard analysis showed that propranolol lowers the number of phorbol diester binding sites without significantly affecting their affinity. In vitro kinetic analysis, performed in a mixed micellar assay with protein kinase C purified from human neutrophils, suggested a competitive inhibition of propranolol with the cofactor phosphatidylserine. Complex kinetic patterns were observed with respect to diacylglycerol and ATP, approximating competitive and noncompetitive inhibition, respectively. Taken together, these results suggest that the drug interacts at the level of the regulatory domain of the enzyme. Fifty % inhibition occurred at approximately 150 microM propranolol. Similar levels of inhibition were obtained using exogenous (histone) and endogenous (p47-phox, a NADPH oxidase component) substrates. Protein kinase C-alpha and protein kinase C-beta, two protein kinase C isozymes present in human neutrophils, were inhibited by propranolol in a comparable manner. In the range of concentrations tested (30-1000 microM), neither cAMP-dependent protein kinase nor neutrophil protein tyrosine kinases were affected. The racemic form of propranolol and the (+) and the (-) stereoisomers were equally active, and other beta-adrenergic receptor antagonists (pindolol) and agonists (isoproterenol) were inactive. This suggests that the inhibitory action of propranolol on protein kinase C is related to the amphipathic nature of the drug rather than to its beta-adrenergic receptor blocking ability. Analogs of propranolol were synthesized and found to be more potent protein kinase C inhibitors, with IC50 values in the 10-20 microM range. We conclude that the ability of propranolol to inhibit both protein kinase C and PA phosphohydrolase complicates interpretation of results when this drug is used in signal transduction studies. In addition, propranolol may be a useful prototype for the synthesis of new protein kinase C inhibitors.
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PMID:Propranolol, a phosphatidate phosphohydrolase inhibitor, also inhibits protein kinase C. 132

An agonist-activated phospholipase D/phosphatidic acid phosphohydrolase (PAH) pathway was recently demonstrated in human neutrophils, and evidence suggests that phosphatidic acid (PA) and/or diradylglycerol (DG) generated from this pathway participates in activation of the O2(-)-generating respiratory burst. We have used a series of cationic amphiphilic compounds (sphingosine, propranolol, chlorpromazine, and desipramine) and antibiotics (clindamycin, trimethoprim, and roxithromycin) all of which inhibit the respiratory burst, to investigate the role of the phospholipase D/PAH pathway in neutrophil activation. The phosphatidylcholine (PC) pool in intact cells was first labeled using [3H]-1-O-alkyl-lysoPC; released [3H]-PA and [3H]-DG were then quantified after the addition of either chemo-attractant or PMA. Using either agonist, all compounds showed a dose-dependent inhibition of [3H]-DG generation which correlated with inhibition of O2- generation, but compounds failed to inhibit directly the NADPH oxidase in a cell-free system. For either activator, a plot of the ID50 values for O2- generation vs those for DG generation was linear over four orders of magnitude. In many cases, inhibition of [3H]-DG generation corresponded to an increase in [3H]-PA, implicating PAH as the locus of inhibition. Superoxide generation was inhibited under conditions where PA was either elevated or minimally affected. Neither O2- release nor DG generation showed any selectivity for stereoisomers of propranolol, suggesting that this inhibition does not act via a specific binding site on PAH. No evidence was obtained for an effect of the inhibitors on PA mobility as monitored by electron spin resonance studies of spin-labeled PA in a model membrane system. Data are consistent with an effect of the inhibitors at the level of the interaction of PAH with the membrane and/or its substrate. These data imply that DG produced via the phospholipase D/PAH pathway functions in the activation or maintenance of the respiratory burst.
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PMID:Role of phospholipase D-derived diradylglycerol in the activation of the human neutrophil respiratory burst oxidase. Inhibition by phosphatidic acid phosphohydrolase inhibitors. 132 85

The generation of superoxide anion and release of granule contents are essential to the bactericidal function of neutrophils, but may also contribute to host tissue damage during inflammation. In previous studies (J. Immunol. 146:2388), we have demonstrated that the acute phase reactant alpha-1-antichymotrypsin (ACT), a potent inhibitor of the serine protease cathepsin G, also suppresses superoxide anion generation. The inhibitory effect of ACT was not directly linked to its antiproteolytic activity and may reflect interaction at a site other than its reactive loop. To further characterize the mechanism of inhibition, we investigated the direct effects of ACT on the NADPH oxidase enzyme complex and the signaling pathways that regulate motivation of the respiratory burst. We present evidence that ACT does not intefer with agonist-stimulated calcium mobilization or translocation and activity of protein kinase C. ACT was an effective inhibitor of superoxide anion generation in membrane preparations isolated from PMA-activated cells. These results support the notion that ACT is acting on a component of the active assembled NADPH oxidase complex. Thus, ACT may have an important role in regulation of specific aspects of the inflammatory processes and the modulation of toxic oxygen-based host tissue damage.
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PMID:Alpha-1-antichymotrypsin inhibits the NADPH oxidase-enzyme complex in phorbol ester-stimulated neutrophil membranes. 132 90

Subcellular fractionation studies were performed on human neutrophils stimulated with ionomycin (a Ca(2+)-specific ionophore). The results of these studies revealed NADPH-oxidase activity, without any additive, both in the plasma membrane and in the specific granule fractions. After comparing these results with the NADPH oxidase activity induced by the ionophore in intact neutrophils, in differentiated HL-60 cells and in neutrophil cytoplasts, we conclude that ionomycin preferentially activates the NADPH oxidase pool located in the membrane of specific granules. Furthermore, we suggest that incorporation of granule membrane into the plasma membrane makes the associated NADPH oxidase less sensitive to activation induced by a rise in [Ca(2+)]i.
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PMID:Activation of the oxygen-radical-generating system in granules of intact human neutrophils by a calcium ionophore (ionomycin). 132 78

Intraperitoneal administration of tuftsin-M [Thr-Lys-Pro-Arg-NH-(CH2)2-NH-CO-C15H31] to Balb/C mice has been shown to induce a respiratory burst in the peritoneal exudate cells. The macrophages exhibited enhanced levels of O2-, H2O2, NADPH oxidase and myeloperoxidase, but the activities of superoxide dismutase, catalase and glutathione peroxidase remained virtually unchanged. The magnitude of the oxidative burst depended directly on the dose of tuftsin-M; higher activity was observed at higher doses of the peptide. Tuftsin-M enhanced the generation of both O2- and H2O2 under in vitro conditions, as did phorbol myristate acetate. These results suggest that tuftsin-M could enhance non-specific defence against infections by activating the macrophages.
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PMID:Respiratory burst in peritoneal exudate cells in response to a modified tuftsin. 133 Jun 71

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


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