EC:1.6.99.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

C1q, a plasma glycoprotein and the recognition component of the classical complement pathway, interacts with specific cells of the immune system resulting in the enhancement of cell function. For example, interaction of C1q with its cell-surface receptor on neutrophils induces the activation of the respiratory burst, a finding previously documented using a chemiluminescent assay to detect oxygen radical formation. In an alternative approach we have now used a modified cytochrome c reduction assay to characterize C1q-mediated production of superoxide anion (O2-) in more detail. C1q coated to microtiter wells induced O2- release, which occurred microtiter wells induced O2- release, which occurred after a lag period of 10 to 20 min, and was then sustained over approximately 1 h. O2- production could be triggered by the purified pepsin-resistant, collagen-like fragment of C1q, but not by mannose-binding protein and pulmonary surfactant protein A, proteins that also contain collagen-like domains. Concentrations of C1q which promoted a vigorous O2- generation did not induce release of neutrophil primary granules and caused little or no secondary granule release. Investigation of the biochemical events mediating C1q stimulated O2- production by neutrophils revealed that the response invoked two biochemical pathways with distinct sensitivities to previously described inhibitors. A role for Ca2+ in initiation of the response was suggested by the inhibitory effect of EGTA, the calmodulin antagonist W7, and the intracellular Ca2+ chelator BAPTA. The protein kinase inhibitor staurosporine did not inhibit the induction of the response, but did block that component of the response occurring after approximately 30 min. Neither phase of C1q-mediated O2- production was inhibited by pertussis toxin, a strong inhibitor of the G-protein-coupled FMLP-mediated response. In summary, C1q-triggered O2- production is relatively unique both in terms of the kinetics of the response and the biochemical pathways evoked. These data support the hypothesis that more than one biochemical pathway induced by ligand-receptor interaction can activate the neutrophil NADPH oxidase.
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PMID:Signal transduction mechanisms of C1q-mediated superoxide production. Evidence for the involvement of temporally distinct staurosporine-insensitive and sensitive pathways. 131 35

Brain nitric oxide synthase is a Ca2+/calmodulin-regulated enzyme which converts L-arginine into NO. Enzymatic activity of this enzyme essentially depends on NADPH and is stimulated by tetrahydrobiopterin (H4biopterin). We found that purified NO synthase contains enzyme-bound H4biopterin, explaining the enzymatic activity observed in the absence of added cofactor. Together with the finding that H4biopterin was effective at substoichiometrical concentrations, these results indicate that NO synthase essentially depends on H4biopterin as a cofactor which is recycled during enzymatic NO formation. We found that the purified enzyme also contains FAD, FMN and non-heme iron in equimolar amounts and exhibits striking activities, including a Ca2+/calmodulin-dependent NADPH oxidase activity, leading to the formation of hydrogen peroxide at suboptimal concentrations of L-arginine or H4biopterin.
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PMID:Brain nitric oxide synthase is a biopterin- and flavin-containing multi-functional oxido-reductase. 171 90

A comprehensive model of cellular activation and proliferation is developed. The model has arachidonic acid (ARA) produced mainly from PLA2 on both sides of the membrane, and superoxide and other activated oxygen species (AOS) formed from O2 by electrons passing out through membrane NANPH and NADH oxidases, as the immediate stimulants of solute permeability. Both ARA and AOS interact with the various solute channel proteins especially their external thiols and disulfides, to increase influx of metabolic substrates, Na, Ca and O2. PLA2 and NADPH oxidase are turned on by growth factors at their receptors acting through tyrosine kinase phosphorylations of messenger proteins GP and ras p-21, stimulated proteases, and by Ca-calmodulin. The adenylate cyclase system has opposite, deactivating character as it increases efflux of Ca and desensitizes growth factor receptors by phosphorylation to shut down the increased solute permeability. Most cancer types are due to carcinogen binding to cell membrane channel and mitochondrial sites for increased solute influx with excessive AOS production inside the cell from mitochondria and other vesicles. High Ca, Na and AOS stimulate proliferation with extra high levels causing transformation to the autogenic, more embryonic-type cancer cell.
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PMID:Unitary model of cell activation, growth control, cancer and other diseases: 1. Activated oxygen species and arachidonic acid modulation of solute permeabilities, internal Ca, Na and AOS levels and DNA transcription and synthesis. 192 75

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

We previously reported a specific stimulation of polymorphonuclear leukocyte (PMN) tubulin tyrosinolation as induced by the peptide chemoattractant N-formyl-methionyl-leucyl-phenylalanine (fmet-leu-phe) and the Ca2+ ionophore A23187 that is coupled to the NADPH oxidase-mediated stimulation of the PMN respiratory burst. The present study demonstrates that the presence of extracellular Ca2+ is necessary for fmet-leu-phe- and A23187-induced stimulation of PMN tubulin tyrosinolation, as indicated by the complete inhibition of the response by the addition of 1 mM EGTA to the extracellular medium. Methoxyverapamil (10(-5) M), a putative calcium channel blocker, completely inhibited the fmet-leu-phe-induced stimulation of tubulin tyrosinolation in PMN, but did not inhibit the A23187-induced response. Moreover, the calmodulin-binding drugs, trifluoperazine, fluphenazine, or chlorpromazine, at concentrations of 1 to 10 microM, caused significant inhibition of fmet-leu-phe- or A23187-induced stimulation of tubulin tyrosinolation. In related studies, enzymatic [14C]-tyrosinolation in isolated subcellular fractions of PMN revealed the presence of native tubulin in PMN fractions that were enriched in plasma membranes, the specific granules, or the azurophil granules. Most interestingly, tubulin tyrosine ligase (ligase), primarily a cytoplasmic enzyme, was detected in association with the PMN azurophil granule-rich fraction. Immunoautoradiography with the alpha-tubulin antibody YL 1/2 of isolated PMN subcellular fractions demonstrated a preferential stimulation of tyrosinolation of tubulin associated with the plasma membrane-rich fraction of fmet-leu-phe-stimulated cells. A significant stimulation was also observed in the cytoplasmic tubulin fraction. Consistent with the findings of in vitro tyrosinolation studies with PMN subcellular fractions, tyrosinolated tubulin was detected in the azurophil granule-enriched fractions isolated from both resting and fmet-leu-phe-stimulated cells. The antibody YL 1/2, which reacts with tyrosinolated alpha-tubulin and not with the detyrosinolated form, showed significant cross-reaction with several nontubulin PMN proteins.
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PMID:Ionic requirements and subcellular localization of tubulin tyrosinolation in human polymorphonuclear leukocytes. 241 18

The effects of various protein kinase C (PKC) inhibitors on NADPH oxidase (NO) activation by the phorbol ester PMA and by the chemotactic peptide FMLP were studied. H-7 reduced the effects of both stimuli in human neutrophils (HN) and HL-60 cells by 13-63%. Polymyxin B did not inhibit NO activation by PMA and FMLP in HN and reduced the effects of both stimuli in HL-60 cells by 27-55%. Retinal and retinoic acid enhanced the effects of PMA and FMLP in HL-60 cells and of FMLP in HN up to 4.5-fold. In contrast, retinoic acid inhibited the effect of PMA in HN. In the presence of cytochalasin B, retinal inhibited the effect of FMLP in HN, whereas retinoic acid inhibited NO activation by FMLP in both cell types. The dual PKC/calmodulin inhibitors trifluoperazine and W-7 abolished NO activation by PMA and FMLP in HN and HL-60 cells. Thus, the effects of PKC inhibitors on NO activation exhibit (1) cell type specificity, (2) stimulus dependency and (3) no correlation with in vitro inhibition of PKC. Our results suggest that studies with PKC inhibitors presently available cannot clarify the role of PKC in NO activation.
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PMID:Studies with protein kinase C inhibitors presently available cannot elucidate the role of protein kinase C in the activation of NADPH oxidase. 283 37

The effect of calcium and/or magnesium on O2- production by guinea-pig eosinophils stimulated by the calcium ionophore A23187 was studied in comparison to neutrophils. In the absence of calcium, A23187 did not stimulate O2- production in resting eosinophils and neutrophils, regardless of the presence of extracellular magnesium. The A23187-induced O2- production by both cells increased linearly with extracellular Ca2+ concentrations. However, the concentration of Ca2+ required for maximum O2- production in eosinophils was about 10-times lower than that required of neutrophils. The addition of Mg2+ strongly inhibited O2- production, especially in eosinophils at low Ca2+ concentrations. The intracellular Ca2+ concentration was lower in eosinophils than in neutrophils in the resting state, and the enhancement of the intracellular Ca2+ concentration in response to A23187 was much lower in eosinophils than in neutrophils. The activation of the NADPH-dependent O2(-)-forming enzyme (NADPH oxidase) in eosinophils depended on extracellular calcium, as observed in O2- production. However, the NADPH oxidase activity in the particulate fraction from A23187-stimulated eosinophils was only slightly affected by the addition of divalent cations or EDTA. The compound W-7 (N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride), a calmodulin antagonist, significantly inhibited O2- production by both cells. On the other hand, the compound H-7 (1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride), a protein kinase C antagonist, was less effective on O2- production than was W-7. H-7 had little effect on O2- production of eosinophils. These findings suggest that NADPH oxidase might be activated by a smaller Ca2+ concentration through the calmodulin-dependent reaction. This was not observed with protein kinase C, at least in eosinophils.
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PMID:Comparative study on the stimulation of superoxide production in guinea-pig eosinophils by the calcium ionophore A23187. 302 95

The NADPH oxidase of human neutrophils is highly sensitive to calcium concentration and is inhibited in intact cells and cell-free preparations by various phenothiazine drugs. Addition of calmodulin to preparations of NADPH oxidase stimulates enzymatic rates from 1.4-2.5-fold. Addition of calmodulin and calcium, but not calcium alone, to NADPH oxidase preparations which have been inactivated by EDTA results in the restoration of activity. No activation is observed when membrane preparations containing latent NADPH oxidase are exposed to calcium and calmodulin. These studies suggest a role for calmodulin in the control of NADPH oxidase but that calmodulin alone is not sufficient for activation.
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PMID:Calmodulin-dependent stimulation of the NADPH oxidase of human neutrophils. 612 8

NADPH oxidase from stimulated guinea pig granulocytes was extracted with deoxycholate. The solubilized enzyme was stable in 20% glycerol. Solubilized enzyme was free of myeloperoxidase activity. The properties of the deoxycholate solubilized enzyme indicated that it is a high molecular weight complex with a flavoprotein, calmodulin and cytochrome b possibly forming part of the complex. Maximum activity was between pH 7.0 and 7.5. The Km value was 15.8 microM for NADPH and 434 microM for NADH indicating that NADPH is the preferential substrate.
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PMID:The NADPH oxidase of guinea pig polymorphonuclear leucocytes. Properties of the deoxycholate extracted enzyme. 686 30

Research over the past year has revealed several interesting advances in the biosynthesis of the superoxide anion and nitric oxide. Highlights include the demonstration that the G protein Rac 2 is required for NADPH oxidase activation, the finding that nitric oxide is a feedback inhibitor of nitric oxide synthase isoforms, and the discovery that the continuous catalytic activity of the immune/inflammatory nitric oxide synthase is due to strong calmodulin binding, which is independent of elevated calcium levels. Interferon-gamma primes neutrophils and macrophages for both O2- and nitric oxide synthesis. However, NADPH oxidase and immune/inflammatory nitric oxide synthase are differentially regulated such that their activities are not simultaneously induced.
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PMID:Assembly and regulation of NADPH oxidase and nitric oxide synthase. 751 23

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