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)

Polymorphonuclear leukocytes (PMNL) release superoxide anions formed by a membrane-bound NADPH oxidase induced by stimulations. Properties of the inducers and their antagonists indicate that Ca2+, GTP-binding protein (G-protein), phospholipase C and Ca2+, phospholipid-dependent protein kinase (C-kinase) are mainly associated with the stimulation of receptors. Low concentrations of ATP induce the oxidase accompanied by the increase in the intracellular Ca2+ due to the flux from the medium and the storage site. ATP-gamma-S, UTP and ITP are effective but mononucleotides, dinucleotides, GTP and CTP are not. Leukotriene B4 (LTB4) which acts as a chemotactic agent and the inducer of the NADPH oxidase is catabolized. It is hydroxylated by a specific cytochrome P450 and then oxidized to a carboxy derivative by a cytosolic alcohol dehydrogenase and a microsomal aldehyde dehydrogenase in PMNL. Active NADPH oxidase was obtained by incubating membrane and cytosolic components of resting PMNL in the presence of sodium dodecyl sulfate (SDS). Two cytosolic components were obtained by an affinity chromatography on 2',5'-ADP Sepharose. One component is active in the presence of GTP or GTP-gamma-S and the other component in the presence of another cytosolic fraction.
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PMID:Metabolism of stimulated polymorphonuclear leukocytes. 254 77

The cytosolic component of macrophage-derived superoxide generating NADPH oxidase was partially purified by affinity chromatography on 2',5'-ADP-agarose. Elution was nonspecific by elevated phosphate molarity. A single step attains at least 40-fold enrichment of specific activity, the recovery being over 20%. Elution with various ligands in the concentration range 2-3.5 mM was also tested. The most effective ligands were: ATP, dATP, GTP, NADPH and 2',5'-ADP. Ineffective were AMP, 2'-AMP, FMN, FAD and NADH. ADP was of medium potency. On the basis of the above and other results, we infer that the molecule (or complex) purified by us may contain the enzymatic NADPH binding site. This component is fully retained by a 100 kDa cutoff membrane and is labile at room temperature, the lability being cancelled by 2-mercaptoethanol.
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PMID:Macrophage-derived superoxide-generating NADPH oxidase in an amphiphile-activated, cell-free system; partial purification of the cytosolic component and evidence that it may contain the NADPH binding site. 282 78

The vast majority of extracellular signals alters cell function by activating cell surface receptors. The transmembranous signalling process initiated by an activated receptor leads to the generation of an intracellular signal and eventually to a cellular response. In contrast to receptors that are permanently coupled to an enzyme or an ion channel representing the effector, a large number of surface receptors for hormones, neurotransmitters and receptors for exogenous chemical or physical stimuli reversibly interacts with membranous signal transduction components which, in turn, regulate intracellular messenger-generating effectors. The transducer molecules isolated so far form a family of guanine nucleotide-binding proteins (G- or N-proteins). All isolated G-proteins are composed of three different subunits (alpha, beta, gamma). The alpha-subunit, which is specific for the individual G-protein, binds and hydrolyzes GTP and is target of ADP-ribosylating bacterial toxins. Hormone-induced activation of a receptor causes interaction with the alpha-subunit of a G-protein and the exchange of bound GDP with GTP. The GTP-bound form of the alpha-subunit represents the active form of the G-protein, which is capable of stimulating or inhibiting the respective effector. The active state of the alpha-subunit is terminated by its inherent GTPase activity causing hydrolysis of bound GTP. The beta gamma-complexes of G-proteins are structurally very similar and functionally interchangeable; they appear to dissociate from the alpha-subunits during receptor activation of the G-protein. Possible functions of the beta gamma-complex are to anchor the non-activated G-protein in the membrane, to facilitate G-protein-receptor interaction, and to promote the inactive state of the alpha-subunit. G-protein-regulated effectors include enzymes, ion channels and probably transporters. The best studied G-protein-regulated enzyme is the retinal cyclic GMP-phosphodiesterase which is activated by bleached rhodopsin via the tissue-specific G-protein, termed transducin. The ubiquitously occurring membrane-bound adenylate cyclase is under dual control by families of stimulatory and inhibitory receptors, acting via G-proteins called Gs and Gi, respectively. Moreover, the receptor control of phospholipases A2 and C and probably of phospholipase D most likely involves G-proteins which have not yet been identified. Finally, the activity of NADPH oxidase of neutrophils and that of cyclic AMP phosphodiesterases in liver and fat cells may be regulated via G-proteins. Modulations of non-enzymatic effectors are reviewed elsewhere.
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PMID:[Guanidine nucleotide binding proteins as membrane signal transduction components and regulators of enzymatic effectors]. 284 11

A membrane-bound NADPH-cytochrome c reductase, which is capable of forming the superoxide anion (O2-) in the presence of menadione, was highly purified from membrane fractions of disrupted guinea pig polymorphonuclear leukocytes by solubilization with 0.2% Triton X-100 and chromatographies on Sephacryl S-300 and 2',5'-ADP-agarose. The overall purification from the membrane fraction was over 110-fold, with a yield of about 6%. The purified preparation did not contain two other pyridine nucleotide-oxidizing enzymes: NADH- and NAD(P)H-oxidizing enzymes (J. Biochem. 94, 931-936, 1983). Besides cytochrome c, the purified enzyme was able to reduce menadione, Nitroblue tetrazolium (NBT) and 2,6-dichlorophenolindophenol. The reduction of menadione alone resulted in the formation of O2-. The purified enzyme preparation contained FAD. When assayed by measuring O2--generation in the presence of menadione, the enzyme showed an optimum pH at 7.0-7.4, and Km values for NADPH, NADH, and menadione were 25, 230, and 5.3 microM, respectively. The enzyme activity was not inhibited by NaN3 or dicumarol, but was by N-ethylmaleimide, EDTA, and quercetin; these inhibition profiles agree with those observed for the NADPH oxidase in the membrane fraction of phorbol-myristate acetate-stimulated leukocytes. Furthermore, when compared by means of the NBT-staining method combined with disc gel electrophoresis, the purified enzyme was electrophoretically indistinguishable from the NADPH-NBT reductase in the plasma membrane as well as phagosomes of the leukocytes. These results suggest that the purified NADPH-cytochrome c reductase is the putative flavoprotein of the NADPH oxidase system responsible for the respiratory burst.
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PMID:Purification and characterization of a membrane-bound NADPH-cytochrome c reductase capable of catalyzing menadione-dependent O2- formation in guinea pig polymorphonuclear leukocytes. 609 21

Superoxide generation, assessed as the rate of acetylated cytochrome c reduction inhibited by superoxide dismutase, by purified NADPH cytochrome P-450 reductase or intact rat liver microsomes was found to account for only a small fraction of their respective NADPH oxidase activities. DTPA-Fe3+ and EDTA-FE3+ greatly stimulated NADPH oxidation, acetylated cytochrome c reduction, and O(2) production by the reductase and intact microsomes. In contrast, all ferric chelates tested caused modest inhibition of acetylated cytochrome c reduction and O(2) generation by xanthine oxidase. Although both EDTA-Fe3+ and DTPA-Fe3+ were directly reduced by the reductase under anaerobic conditions, ADP-Fe3+ was not reduced by the reductase under aerobic or anaerobic conditions. Desferrioxamine-Fe3+ was unique among the chelates tested in that it was a relatively inert iron chelate in these assays, having only minor effects on NADPH oxidation and/or O(2) generation by the purified reductase, intact microsomes, or xanthine oxidase. Desferrioxamine inhibited microsomal lipid peroxidation promoted by ADP-Fe3+ in a concentration-dependent fashion, with complete inhibition occurring at a concentration equal to that of exogenously added ferric iron. The participation of O(2) generated by the reductase in NADPH-dependent lipid peroxidation was also investigated and compared with results obtained with a xanthine oxidase-dependent lipid peroxidation system. NADPH-dependent peroxidation of either phospholipid liposomes or rat liver microsomes in the presence of ADP-Fe3+ was demonstrated to be independent of O(2) generation by the reductase.
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PMID:Superoxide generation by NADPH-cytochrome P-450 reductase: the effect of iron chelators and the role of superoxide in microsomal lipid peroxidation. 633 20

Poly(ADPR) polymerase (PARP; EC 2.4.2.30) is a nuclear enzyme, which, when activated by oxygen- and nitrogen-radical-induced DNA strand breaks, transfers ADP ribose units to nuclear proteins and initiates apoptosis by depletion of cellular NAD and ATP pools. The present study investigates whether the oxidative stress-dependent activation of PARP plays a role in the etiopathogenesis of arthritis. The antiarthritic reactivity of the biogenic PARP inhibitor nicotinamide was tested in DBA/1 x B10A(4R) mice suffering from potassium peroxochromate-induced arthritis. Daily doses of 4 mmol/kg of NA suppressed the arthritis by 35% and inhibited the phagocytic generation of reactive oxygen species, which increases sixfold during the development of arthritis. The onset, progression, and remission of arthritis correlated positively to the phorbolester-activated respiratory burst of neutrophils and monocytes, and a dose-dependent inhibition of NADPH oxidase activity was determined with human phagocytes. Our data support the hypothesis that oxidative stress-induced alterations in cellular signal transduction pathways play a pivotal role in the development of arthritis, which can be suppressed by the simultaneous inhibition of poly(ADPR) polymerase and NADPH oxidase.
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PMID:Modulation of inflammatory arthritis by inhibition of poly(ADP ribose) polymerase. 762 65

Neutrophil-membrane-associated NADPH-cytochrome c reductase and cytochrome b558 were separately eluted and highly purified by a combination of ion-exchange Sepharose, N-amino-octylagarose, 2',5'-ADP-Sepharose and heparin-Sepharose column chromatographies. The purified cytochrome c reductase with an apparent molecular mass of 68 kDa contained FMN and FAD (FMN/FAD approx. 1). Cytochrome b558 prepared in the presence of phospholipids and FAD showed marked O2-.-producing activity (Vmax., 8.53 mumol of O2-./min per mg of cytochrome; Km for NADPH 58.8 microM) in a cell-free assay system consisting of cytosol, arachidonate and GTP[S]. However, when it was obtained without FAD added to the purification process, it had negligible FAD and little or no O2-.-forming activity in the reconstituted system. The NADPH oxidase activity was not markedly stimulated on incubation of the purified reductase with either flavinated or flavin-depleted cytochrome b558 in the cell-free system, suggesting that the reductase is not likely to be involved in neutrophil O2-. generation. The purified reductase cross-reacted with polyclonal antibodies against both hepatic NADPH-cytochrome P-450 reductase and a synthetic peptide, ILVGPGTGIAPFRSF, which indicates residues 529-543 located in the glycine-rich NADPH-binding domain of the P-450 reductase, but cytochrome b558 did not produce any immunoreactive bands to these antibodies. These antibodies also produced a positive reaction with a 76 kDa protein from dimethyl sulphoxide-induced HL-60-cell microsomes. After solubilization of the microsomal membranes, the 76 kDa protein was readily converted into a partially proteolysed form (68 kDa) even in the presence of antiproteases. In addition, the microsomal fraction shows a CO difference spectrum with a peak at about 454 nm and a trough at 476 nm in the presence of dithionite, indicating the presence of a cytochrome P-450-like haemoprotein.
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PMID:NADPH-cytochrome c reductase from human neutrophil membranes: purification, characterization and localization. 811 Jan 98

We characterized the cell-free activating system of the superoxide (O2-)-producing NADPH oxidase of pig neutrophils. Activation of the oxidase required both the membrane and cytosolic fractions in the presence of sodium dodecyl sulfate. Chromatography on 2',5'-ADP-Sepharose resulted in separation of the cytosolic fraction into two fractions, the flow-through and bound fractions, which synergistically supported the O2- production with the membrane fraction in the absence of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), whereas only the bound fraction besides the membrane fraction was required for the activation in the presence of GTP gamma S. The effective factors in the bound fraction were further purified by gel filtration on Superdex G-200 and anion exchange chromatography on Mono Q and found to be p47-phox and p63-phox. The purified recombinant p47-phox and p65-phox replaced corresponding native factors for the activation. These results suggest that the membrane fraction from pig neutrophils contains the GTP-binding protein responsible for the activation. Furthermore, the presence of the GTP-binding protein for the activation in the flow-through fraction from 2',5'-ADP-Sepharose was also shown on the basis of the findings that extensive dialysis of the flow-through fraction resulted in complete loss of the ability to activate the oxidase with the recombinant factors and the washed membrane of human neutrophils which contained no GTP-binding protein for the activation and the lost ability was recovered by the addition of GTP gamma S. Thus, activation of the oxidase in the cell-free system of pig neutrophils absolutely requires the GTP-binding protein which localizes in the membrane fraction or in the cytosolic fraction.
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PMID:Characterization of the GTP-dependent activation of the superoxide-producing NADPH oxidase in a cell-free system of pig neutrophils. 839 79

We studied the effects of glucosylation of RhoA, Rac1, and Cdc42 at threonine-35 and -37 by Clostridium difficile toxin B on nucleotide binding, GTPase activity, and effector coupling and compared these results with the ADP ribosylation of RhoA at asparagine-41 catalyzed by Clostridium botulinum C3 transferase. Whereas glucosylation and ADP ribosylation had no major effects on GDP release from RhoA, Rac1, and Cdc42, the rate of GTPgammaS release from Rho proteins was increased 3-6-fold by glucosylation. ADP ribosylation decreased the rate of GTPgammaS release by about 50%. Glucosylation reduced the intrinsic activities of the GTPases by 3-7-fold and completely blocked GTPase stimulation by Rho-GAP. In contrast, ADP ribosylation slightly increased GTPase activity ( approximately 2-fold) and had no major effect on GAP stimulation of GTPase. Whereas ADP ribosylation did not affect the interaction of RhoA with the binding domain of protein kinase N, glucosylation inhibited this interaction. Glucosylation of Rac1 markedly diminished its ability to support the activation of the superoxide-generating NADPH oxidase of phagocytes. Glucosylated Rac1 did not interfere with NADPH oxidase activation by unmodified Rac1, even when present in marked molar excess, indicating that it was incapable of competing for a common effector. The data indicate that the functional inactivation of small GTPases by glucosylation is mainly caused by inhibition of GTPase-effector protein interaction.
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PMID:Glucosylation and ADP ribosylation of rho proteins: effects on nucleotide binding, GTPase activity, and effector coupling. 954 61

Reactive oxygen species (ROS) are implicated in the mechanism of biological aging and exercise-induced oxidative damage. The present study examined the effect of an acute bout of exercise on intracellular ROS production, lipid and protein peroxidation, and GSH status in the skeletal muscle of young adult (8 mo, n = 24) and old (24 mo, n = 24) female Fischer 344 rats. Young rats ran on a treadmill at 25 m/min and 5% grade until exhaustion (55.4 +/- 2.7 min), whereas old rats ran at 15 m/min and 5% grade until exhaustion (58.0 +/- 2.7 min). Rate of dichlorofluorescin (DCFH) oxidation, an indication of ROS and other intracellular oxidants production in the homogenate of deep vastus lateralis, was 77% (P < 0.01) higher in rested old vs. young rats. Exercise increased DCFH oxidation by 38% (P < 0.09) and 50% (P < 0.01) in the young and old rats, respectively. DCFH oxidation in isolated deep vastus lateralis mitochondria with site 1 substrates was elevated by 57% (P < 0.01) in old vs. young rats but was unaltered with exercise. Significantly higher DCFH oxidation rate was also found in aged-muscle mitochondria (P < 0.01), but not in homogenates, when ADP, NADPH, and Fe(3+) were included in the assay medium without substrates. Lipid peroxidation in muscle measured by malondialdehyde content showed no age effect, but was increased by 20% (P < 0.05) with exercise in both young and old rats. Muscle protein carbonyl formation was unaffected by either age or exercise. Mitochondrial GSH/ GSSG ratio was significantly higher in aged vs. young rats (P < 0.05), whereas exercise increased GSSG content and decreased GSH/GSSG in both age groups (P < 0.05). These data provided direct evidence that oxidant production in skeletal muscle is increased in old age and during prolonged exercise, with both mitochondrial respiratory chain and NADPH oxidase as potential sources. The alterations of muscle lipid peroxidation and mitochondrial GSH status were consistent with these conclusions.
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PMID:Aging and acute exercise enhance free radical generation in rat skeletal muscle. 1040 9


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