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)

Nitric oxide synthase (NOS) catalyzes the NADPH- and O2-dependent conversion of L-arginine to nitric oxide (NO) and citrulline; three isoforms, the neuronal (nNOS), endothelial, and inducible, have been identified. Because overproduction of NO is known to contribute to several pathophysiological conditions, NOS inhibitors are of interest as potential therapeutic agents. Inhibitors that are potent, mechanism-based, and relatively selective for the NOS isoform causing pathology are of particular interest. In the present studies we report that vinyl-L-NIO (N5-(1-imino-3-butenyl)-L-ornithine; L-VNIO) binds to and inhibits nNOS in competition with L-arginine (Ki = 100 nM); binding is accompanied by a type I optical difference spectrum consistent with binding near the heme cofactor without interaction as a sixth axial heme ligand. Such binding is fully reversible. However, in the presence of NADPH and O2, L-VNIO irreversibly inactivates nNOS (kinact = 0.078 min-1; KI = 90 nM); inactivation is Ca2+/calmodulin-dependent. The cytochrome c reduction activity of the enzyme is not affected by such treatment, but the L-arginine-independent NADPH oxidase activity of nNOS is lost in parallel with the overall activity. Spectral analyses establish that the nNOS heme cofactor is lost or modified by L-VNIO-mediated mechanism-based inactivation of the enzyme. The inducible isoform of NOS is not inactivated by L-VNIO, and the endothelial isoform requires 20-fold higher concentrations to attain approximately 75% of the rate of inactivation seen with nNOS. Among the NOS inactivating L-arginine derivatives, L-VNIO is the most potent and nNOS-selective reported to date.
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PMID:N5-(1-Imino-3-butenyl)-L-ornithine. A neuronal isoform selective mechanism-based inactivator of nitric oxide synthase. 953 69

Recent studies indicate that arsenic may generate reactive oxygen species to exert its toxicity. However, the mechanism is still unclear. In this study, we demonstrate that arsenite is able to induce apoptosis in a concentration- and time-dependent manner; however, arsenate is unable to do so. An increase of intracellular peroxide levels was accompanied with arsenite-induced apoptosis, as demonstrated by flow cytometry using DCFH-DA. N-Acetyl-L-cysteine (a thiol-containing antioxidant), diphenylene iodonium (an inhibitor of NADPH oxidase), 4,5-dihydro-1,3-benzene disulfonic acid (a selective scavenger of O2-), and catalase significantly inhibit arsenite-induced apoptosis and intracellular fluorescence intensity. In contrast, allopurinol (an inhibitor of xanthine oxidase), indomethacin (an inhibitor of cyclooxygenase), superoxide dismutase, or PDTC had no effect on arsenite-induced cell death. Activation of CPP32 activity, PARP (a DNA repair enzyme) degradation, and release of cytochrome c from mitochondria to the cytosol are involved in arsenite-induced apoptosis, and Bcl-2 antagonize arsenite-induced apoptosis by a mechanism that interferes in the activity of CPP32. These results lead to a working hypothesis that arsenite-induced apoptosis is triggered by the generation of hydrogen peroxide through activation of flavoprotein-dependent superoxide-producing enzymes (such as NADPH oxidase), and hydrogen peroxide might play a role as a mediator to induce apoptosis through release of cytochrome c to cytosol, activation of CPP32 protease, and PARP degradation.
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PMID:Involvement of reactive oxygen species and caspase 3 activation in arsenite-induced apoptosis. 976 29

Lactoferrin (LF) is an iron-binding glycoprotein present in various secretions including milk and the specific granules of neutrophils. The main biological properties of this protein are thought to concern the regulation of iron absorption, antimicrobial activity and modulation of neutrophil activity. Copper bound LF (Cu-LF) inhibited the stimulation-dependent reduction of cytochrome c (Cyt. c) in guinea pig peritoneal neutrophils (GPMN) but were without effect on NADPH oxidase activity of the respiratory burst. However, Cu-LF stimulated the stimulation-dependent production of hydrogen peroxide as seen with superoxide dismutase (SOD). Similar but weaker inhibition of Cyt. c reduction than that shown by Cu-LF was observed with manganese-LF (Mn-LF) but not with ferrous-LF (Fe-LF) or apo-LF (Apo-LF). The inhibitory activity was concentration-dependent and the ID50s of Cu-LF and of Mn-LF were 0.1 and 5 microM, respectively. Reactive oxygen species (ROS) detected by luminol chemiluminescence (LCL) of stimulated-GPMN were partially inhibited by Cu-LF. Changes in LCL of stimulated GPMN induced by Cu-LF were similar to those of superoxide dismutase (SOD). Thus, it is concluded that low concentrations of Cu-LF had SOD-like activity and high concentrations of Cu-LF inhibited the stimulation-dependent generation of ROS.
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PMID:Superoxide dismutase-like activity of metal substituted lactoferrin derivatives. 980 32

The present study investigated the ability of gentamicin to catalyze free radical reactions and probed the underlying mechanisms by hydroethidine imaging, oxygen consumption, and reduction of cytochrome c. In Epstein-Barr virus-transformed lymphoblastoid cells, a respiratory burst was induced by phorbol ester and detected by hydroethidine, a fluorescent indicator of superoxide radical. The addition of gentamicin increased the fluorescence two-fold while gentamicin did not produce fluorescence in the absence of phorbol ester. In membrane preparations, gentamicin did not enhance NADPH consumption ruling out a direct activation of NADPH oxidase. The formation of reactive oxygen species by gentamicin was additionally supported by experiments that showed gentamicin increased oxygen consumption two-fold in intact cells and a cell-free system. In addition, generation of superoxide was indicated by the gentamicin-stimulated reduction of cytochrome c. The stimulation by gentamicin depended upon the presence of iron (FeII/FeIII) and of arachidonic acid as an electron donor. These results support the hypothesis that an iron-gentamicin complex can increase reactive oxygen species in nonenzymatic and in biological systems. The requirement for a reductive activation in intact cells (e.g., by a respiratory burst) is interpreted as the conversion of an inactive FeIII-gentamicin to a redox-active FeII-gentamicin complex.
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PMID:Formation of reactive oxygen species following bioactivation of gentamicin. 989 25

Apoptosis is now widely recognized as being a distinct process of importance both in normal physiology and pathology. In the current paradigm for apoptotic cell death, the activity of a family of proteases, caspases, related to interleukin-1 beta-converting enzyme (ICE) orchestrates the multiple downstream events, such as cell shrinkage, membrane blebbing, glutathione (GSH) efflux, and chromatin degradation that constitute apoptosis. Recent studies suggest that mitochondria could be the principle sensor and that the release of mitochondrial factors, such as cytochrome c, is the critical event governing the fate of the cell.--One of the most reproducible inducers of apoptosis is mild oxidative stress, although it is unclear how an oxidative stimulus can activate the caspase cascade. Oxidative modification of proteins and lipids has also been observed in cells undergoing apoptosis in response to nonoxidative stimuli, suggesting that intracellular oxidation may be a general feature of the effector phase of apoptosis. The caspases themselves are cysteine-dependent enzymes and, as such, appear to be redox sensitive. Indeed, our recent work on hydrogen peroxide-mediated apoptosis suggests that prolonged or excessive oxidative stress can actually prevent caspase activation. A physiological example of this is the NADPH oxidase-derived oxidants generated by stimulated neutrophils that prevent caspase activation in these cells. Pursuant to these findings, stimulated neutrophils appear to use a specialized caspase-independent pathway to initiate phosphatidylserine (PS) exposure and subsequent phagocytic clearance. The possible implications of these dual roles for reactive oxygen species in apoptosis, that is, induction and inhibition of caspases, are discussed in the present review.
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PMID:Redox regulation of the caspases during apoptosis. 992 41

Site-directed mutagenesis was used to generate a series of mutants harboring point or multiple substitutions within the hydrophilic, polybasic domain of gp91(phox) encompassed by residues 86-102, which was previously identified as a site of interaction with p47(phox) during phagocyte NADPH oxidase assembly. Recombinant wild-type or mutant gp91(phox) was expressed in a human myeloid leukemia cell line in which the endogenous gp91(phox) gene was disrupted by gene targeting. NADPH oxidase activity was measured in a cytochrome c reduction assay following granulocytic differentiation of cells that expressed recombinant gp91(phox). Expression of a gp91(phox) mutant in which amino acids 89-97 were replaced with nine alternate amino acids abolished NADPH oxidase activity. Expression of gp91(phox) mutants R89T, D95A, D95R, R96A, R96E, or K102T did not significantly affect NADPH oxidase activity. However, mutations of individual or paired arginine residues at positions 91 and 92 had substantial effects on superoxide generation. The R91E/R92E mutation completely abolished both NADPH oxidase activity and membrane-translocation of the cytosolic oxidase proteins p47(phox), p67(phox), Rac1, and Rac2. The phorbol 12-myristate 13-acetate-induced rate of superoxide production was reduced by approximately 75% in cells expressing R91T/R92A, R91E, or R92E gp91(phox) along with an increased lag time to the maximal rates of superoxide production relative to cells expressing wild-type gp91(phox). Taken together, these results demonstrate that Arg91 and Arg92 of gp91(phox) are essential for flavocytochrome b558 function in granulocytes and suggest that these residues participate in the interaction of gp91(phox) with the cytosolic oxidase proteins.
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PMID:Mutagenesis of an arginine- and lysine-rich domain in the gp91(phox) subunit of the phagocyte NADPH-oxidase flavocytochrome b558. 1018 35

The leukocyte NADPH oxidase is an enzyme present in phagocytes and B lymphocytes that when activated catalyzes the production of O-2 from oxygen at the expense of NADPH. A correlation between the activation of the oxidase and the phosphorylation of p47(PHOX), a cytosolic oxidase component, is well recognized in whole cells, and direct evidence for a relationship between the phosphorylation of this oxidase component and the activation of the oxidase has been obtained in a number of cell-free systems containing neutrophil membrane and cytosol. Using superoxide dismutase-inhibitable cytochrome c reduction to quantify O-2 production, we now show that p47(PHOX) phosphorylated by protein kinase C activates the NADPH oxidase not only in a cell-free system containing neutrophil membrane and cytosol, but also in a system in which the cytosol is replaced by the recombinant proteins p67(PHOX), Rac2, and phosphorylated p47(PHOX), suggesting that neutrophil plasma membrane plus those three cytosolic proteins are both necessary and sufficient for oxidase activation. In both the cytosol-containing and recombinant cell-free systems, however, activation by SDS yielded greater rates of O-2 production than activation by protein kinase C-phosphorylated p47(PHOX), indicating that a system that employs protein kinase C-phosphorylated p47(PHOX) as the sole activating agent, although more physiological than the SDS-activated system, is nevertheless incomplete.
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PMID:Activation of the leukocyte NADPH oxidase by protein kinase C in a partially recombinant cell-free system. 1033 47

Substance P (SP), a neurotransmitter of the central and peripheral nervous system, has been implicated as a mediator of the pulmonary inflammatory response through its stimulatory effects on neutrophils. We investigated the role of SP in priming the production of reactive oxygen species by human neutrophils with the cytochrome c reduction assay and by flow cytometry using the intracellular oxidizable probe dichlorofluorescein. We also investigated SP-induced formation of nitrite and nitrate as an index of nitric oxide (NO) production. Our results indicate that SP primes two distinct pathways with respect to the induction of reactive oxygen species in the human neutrophil: the production of superoxide anion and hydrogen peroxide by the calmodulin-dependent NADPH oxidase, and the generation of NO by a constitutive NO synthase. Preincubation of neutrophils with inhibitors of calmodulin and NO synthase diminished the oxidative response in an additive fashion. These results give insight into distinct signal transduction pathways in the SP-primed neutrophil with respect to the formation of superoxide anion, hydrogen peroxide, and NO.
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PMID:Substance P primes the formation of hydrogen peroxide and nitric oxide in human neutrophils. 1038 Sep 7

Alkylamines inhibit NADPH oxidase both in intact neutrophils and in a cell-free system. The aim of this study was to examine the mechanism underlying this inhibitory effect. Among alkylamines with different chain lengths, the C12 compound (laurylamine) showed the greatest inhibitory effect on the cell-free NADPH oxidase activity induced by arachidonic acid (AA) in the presence of GTPgammaS. The inhibition was overcome by further addition of AA, and it was observed irrespective of whether laurylamine was added before or after the enzyme activation by AA. When added prior to the enzyme activation, laurylamine blocked translocation to the membrane of all three cytosolic components (p47-phox, p67-phox and rac) in a cell-free translocation assay. When added after the activation, laurylamine released only rac from the membrane. Laurylamine did not inhibit the reduction of cytochrome c by xanthine oxidase, suggesting that it does not have superoxide-scavenging activity. These results indicate that laurylamine inhibits both the activation process of NADPH oxidase and the activated enzyme itself by blocking the assembly of the oxidase components.
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PMID:Inhibition by alkylamines of NADPH oxidase through blocking the assembly of enzyme components. 1046 69

To examine the effects of chronic hyperinsulinemia on vascular tissues, we examined the production of superoxide anion (O(-2)) in the aortic tissues of control and exogenously hyperinsulinemic rats performed by the implantation of an insulin pellet for 4 wk. O(-2) production by aortic segments from hyperinsulinemic rats was 2. 4-fold (lucigenin chemiluminescence method) and 1.7-fold (cytochrome c method) of that of control rats without any differences in O(-2) degrading activities in aortic tissues, respectively (P < 0.025). The increment was completely abolished in the presence of either 100 micromol/l apocynin (an inhibitor of NADPH oxidase) or 10 micromol/l diphenyleneiodonium (an inhibitor of flavin-containing enzyme) and was exclusively endothelium dependent. Consistently, NAD(P)H oxidase activities in endothelial homogenate in hyperinsulinemic rats were dose dependently stimulated above the values of control rats, although these activities in nonendothelial homogenate were not significantly stimulated by insulin. Furthermore, an insulin effect was also demonstrated 1 h after exposing aortic tissues to insulin. These results indicate that O(-2) production specifically increases in endothelium of aortic tissues in chronic hyperinsulinemic rats through the activation of NAD(P)H oxidase.
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PMID:Endothelium-specific activation of NAD(P)H oxidase in aortas of exogenously hyperinsulinemic rats. 1060 Jul 84


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