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)

We studied a step where tyrosine phosphorylation is involved in a signaling pathway for the activation of the superoxide (O2-)-generating NADPH oxidase using electropermeabilized human neutrophils. The permeabilized cells produced O2- by the addition of a protein tyrosine phosphatase inhibitor, vanadate, as well as N-formyl-methionyl-leucyl-phenylalanine (fMLP) and protein kinase C (PKC) activators such as phorbol myristate acetate (PMA) and L-alpha-1-oleoyl-2-acetoyl-sn-3-glycerol (OAG). The O2- production by the stimulants was completely inhibited by PKC inhibitors such as calphostin C and staurosporine and was not affected by 1% ethanol, a metabolic modulator of phospholipase D (PLD). Furthermore, the O2- production by vanadate and fMLP, but not by OAG and PMA, was inhibited by both an inhibitor of phospholipase C (PLC), neomycin, and an inhibitor of tyrosine kinase, ST-638. These findings suggest that tyrosine phosphorylation is involved in the activation of the oxidase at a step before diacylglycerol formation by PLC, and that PLD may not be involved in the signaling pathway in permeabilized cells.
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PMID:Tyrosine phosphorylation is involved in the respiratory burst of electropermeabilized human neutrophils at a step before diacylglycerol formation by phospholipase C. 768 14

We have previously shown that vanadate potentiates the activating effect of phorbol ester (TPA) on cellular phospholipase A2 (PLA2) in a pathway dependent on the formation of reactive oxygen species (ROS). Here we evaluate the chain of enzymes (protein kinases and phosphatases) that participate in this process. Treatment of macrophages with vanadate plus TPA led to activation of protein kinase C (PKC) and NADPH oxidase (O2- generation in intact cells), massive cellular protein tyrosine phosphorylation, suppression of protein tyrosine phosphatase (PTP) activity and a sustained activation of protein tyrosine kinase (PTK) and myelin basic protein kinase activity (the latter three enzyme activities were assessed in cell lysates). Inhibition of ROS formation by diphenyleneiodonium (DPI) prevented PTP inhibition, PTK activation and protein tyrosine phosphorylation by vanadate plus TPA. Vanadate plus H2O2 mimicked the effect of vanadate plus TPA on PKC activation, cellular protein tyrosine phosphorylation, PTP and PTK, but their effects were resistant to DPI. Suppression of PKC activity (down-regulation; selective inhibitors) prevented the above-mentioned effects of vanadate plus TPA, but not of vanadate plus H2O2. Collectively, the results show that ROS formation induced by TPA in association with vanadate is essential in the modulation of protein tyrosine phosphorylation and PLA2 activity.
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PMID:Reactive oxygen species mediate phorbol ester-regulated tyrosine phosphorylation and phospholipase A2 activation: potentiation by vanadate. 769 72

In addition to their role in bacterial killing, reactive oxygen intermediates (ROI) produced by the NADPH oxidase may participate in the regulation of intracellular pathways. We have recently demonstrated that ROI produced by the oxidase regulate tyrosine phosphorylation in neutrophils, possibly by alterations in the cellular redox state. The purpose of the present study was to characterize the identities of certain of the redox-sensitive tyrosine-phosphorylated substrates and the significance of the increased phosphorylation. As a prominent 42-44-kDa phosphorylated band was noted in oxidant-treated cells, we investigated the possible phosphorylation and activation of mitogen-activated protein (MAP) kinase under these conditions. Immunoprecipitation of MAP kinase followed by immunoblotting with anti-phosphotyrosine antibodies indicated that a 42-44-kDa polypeptide was tyrosine-phosphorylated in response to treatment of cells, either with the oxidizing agent diamide or with H2O2 in cells where catalase was inhibited. Using an in vitro renaturation assay with myelin basic protein as the substrate, oxidant-induced stimulation of kinase activity of a 42-44-kDa band was observed in both whole cell extracts and in MAP kinase immunoprecipitates. The mechanism of redox-sensitive activation of MAP kinase was examined. First, exposure of cells to oxidants caused a significant increase in the activity of MEK (the putative activator of MAP kinase), as determined by an in vitro kinase assay using recombinant catalytically inactive glutathione S-transferase-MAP kinase as the substrate. Additionally, oxidant treatment of cells resulted in inhibition of the activity of CD45, a protein tyrosine phosphatase known to dephosphorylate and inactivate MAP kinase. We conclude that oxidant treatment of neutrophils can activate MAP kinase by stimulating its tyrosine and (presumably) threonine phosphorylation via MEK activation, a response that may be potentiated by inhibition of MAP kinase dephosphorylation by phosphatases such as CD45.
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PMID:Activation of the mitogen-activated protein kinase signaling pathway in neutrophils. Role of oxidants. 798 67

Previously we have shown that reactive oxygen species (ROS) formation induced by phorbol ester in association with vanadate is essential for protein tyrosine phosphorylation and phospholipase A2 (PLA2) activation. Here we show that the interaction of beta-glucan particles (glucanp) or zymosan with complement receptor type 3 (CR3) leads, when associated with vanadate, to a cascade of reactions culminating in PLA2 activation. Vanadate + zymosan (or glucanp) markedly enhance protein tyrosine phosphorylation in bone marrow derived macrophages (BMMs), whereas neither of the agents alone has any effect. The enhancement was due to both sustained activation of protein tyrosine kinase (PTK) and inactivation of protein tyrosine phosphatase (PTP) as assessed in lysates of treated cells. Zymosan elevates membranal PKC, an effect that is potentiated by vanadate. Activation of both PTK and PKC leads to the activation of NADPH oxidase and to ROS formation. The formed ROS together with vanadate are potent inactivators of PTP leading to amplification of tyrosine phosphorylation and myelin basic protein kinase (MBP-K) activation. The activation of the cascade of protein kinases eventually leads to activation of PLA2. All the activation steps, i.e., activation of PTK, NADPH oxidase, MBP-K,PLA2 and the inactivation of PTP are sensitive to the NADPH oxidase inhibitor diphenyleneiodonium (DPI), to antioxidants and to PKC inhibitors. Thus, ROS formation (in the presence of vanadate) is critical for protein phosphorylation processes constituting the regulatory pathway of PLA2 activation by ligand-CR3 interaction.
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PMID:A role for reactive oxygen species in zymosan and beta-glucan induced protein tyrosine phosphorylation and phospholipase A2 activation in murine macrophages. 803 63

We studied differences between the NADPH oxidase activation pathways triggered by pervanadate, a protein tyrosine phosphatase inhibitor, and phorbol 12-myristate 13-acetate (PMA), a protein kinase C activator, in guinea pig neutrophils. Previously, pervanadate has been shown to activate NADPH oxidase via the tyrosine kinase-dependent pathway (Yamaguchi et al. Arch. Biochem. Biophys. 323, 382-386, 1995). Both pervanadate and PMA induced superoxide anion (O-2) production, translocation of the 47-kDa protein component of the phagocyte oxidase (p47-phox) to the plasma membrane, and phosphorylation of p47-phox in the membrane. A selective protein kinase C inhibitor, GF 109203X, markedly inhibited PMA-induced O-2 production, p47-phox translocation, and p47-phox phosphorylation, but did not inhibit pervanadate-induced O-2 production and only slightly suppressed pervanadate-induced translocation and phosphorylation. These results demonstrate that pervanadate activates NADPH oxidase independently of protein kinase C. Phosphopeptide mapping of p47-phox revealed differences in the mechanism between pervanadate-induced and PMA-induced phosphorylation. Furthermore, some protein kinases which phosphorylate p47-phox-derived peptide are activated by pervanadate. These results suggest the existence of novel protein kinases responsible for the phosphorylation of p47-phox and the activation of these protein kinases by tyrosine kinase.
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PMID:Pervanadate activates NADPH oxidase via protein kinase C-independent phosphorylation of p47-phox. 988 22

Among plant defense responses to pathogen attack, the release of active oxygen species (AOS), termed the oxidative burst, may affect the attacking pathogen and the host plant cells at the infection site, thereby limiting the spread of the pathogen. Plasma membrane-associated NADPH oxidase represents a key enzyme in mediating the oxidative burst. The mechanisms of NADPH oxidase activation, however, remains unclear. Ectopic expression of AK1-6H, an Arabidopsis calmodulin-like domain protein kinase (CDPK) in tomato protoplasts enhanced plasma membrane-associated NADPH oxidase activity. Arabidopsis protein phosphatase 2A abolished this enhancement, whereas Arabidopsis dual-specificity protein tyrosine phosphatase 1 or maize protein phosphatase 1 had no effect tMEK2MUT, a constitutively activated, mitogen-activated protein kinase kinase from tomato, did not enhance NADPH oxidase activity when overexpressed. In a cell-free system, AK1-6H moderately stimulated the NADPH oxidase activity on plasma membrane. AK1-6H, but not tMEK2MUT, also enhanced production of AOS in intact protoplasts. Our results show that ectopic expression of a heterologous CDPK can enhance NADPH oxidase activity and stimulate an oxidative burst in tomato protoplasts.
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PMID:Ectopic expression of an Arabidopsis calmodulin-like domain protein kinase-enhanced NADPH oxidase activity and oxidative burst in tomato protoplasts. 1160 66

NIH3T3 mouse fibroblasts generate reactive oxygen species (ROS) and release taurine following exposure to hypotonic medium and to isotonic medium containing the lipase activator melittin. The swelling-induced taurine release is potentiated by H2O2, the calmodulin antagonist W7, and ATP, but inhibited by the antioxidant butulated hydroxytoluene (BHT), the NAD(P)H oxidase inhibitor diphenylene iodonium (DI), and the iPLA2 inhibitor bromoenol lactone (BEL). The swelling-induced ROS production is also inhibited by BHT and BEL. H2O2 does not affect the volume set point for activation of the volume-sensitive taurine efflux. The 5-lipoxygenase (5-LO) inhibitor ETH 615-139 impairs the swelling-induced taurine efflux in the absence as well as in the presence of H2O2. The melittin-induced taurine release is, in analogy with the swelling-induced taurine release, potentiated by H2O2 and inhibited by BHT, DI, BEL, ETH 615-139 and anion channel blockers. Thus, swelling- and melittin-induced cell signalling and taurine release involve joint elements. The swelling-induced taurine efflux is potentiated by the protein tyrosine phosphatase inhibitor vanadate, and the potentiating effect of H2O2 and vanadate is impaired in the presence of protein tyrosine kinase inhibitor genistein. It is suggested that (i) iPLA2 and 5-LO activity is required for the swelling-induced activation of taurine efflux from NIH3T3 cells, (ii) ROS are produced subsequent to the PLA2 activation by the NAD(P)H oxidase complex, and (iii) ROS inhibit a protein tyrosine phosphatase (PTP1B) causing a potentiation of the swelling-induced taurine release.
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PMID:Reactive oxygen species regulate swelling-induced taurine efflux in NIH3T3 mouse fibroblasts. 1264 31

Reactive oxygen species (ROS) contribute to the pathogenesis of cardiovascular diseases including hypertension, atherosclerosis, cardiac hypertrophy, heart failure and diabetes mellitus. Oxidative stress is resulted from excessive generation of ROS that outstrips the antioxidant system. Various agonists, pathological conditions and therapeutic interventions lead to modulated expression and function of oxidant and antioxidant enzymes, including NAD(P)H oxidase, endothelial nitric oxide synthase, xanthine oxidase, myeloperoxidase, superoxide dismutases, catalase and glutathione peroxidase. ROS formed in vascular wall target a wide range of signaling molecules and cellular pathways in both endothelium and vascular smooth muscle, such as transcription factors, protein tyrosine phosphatase, protein tyrosine kinase, mitogen-activated protein kinase, Ca(2+)-transporting system and protein modification. ROS also have distinct physiological and pathophysiological impacts on vascular cells. ROS contribute to vascular dysfunction and remodeling through oxidative damage by (1) reducing the bioavailability of NO, (2) impairing endothelium-dependent vasodilatation and endothelial cell growth, (3) causing apoptosis or anoikis, (4) stimulating endothelial cell migration, and (5) activating adhesion molecules and inflammatory reaction, leading to endothelial dysfunction, an initial episode progressing toward hypertension and atherosclerosis. Cellular events underlying these processes involve changes in vascular smooth muscle cell growth, apoptosis/anoikis, cell migration, inflammation, and vasoconstriction. The present communication focuses on the biology of ROS signaling in vascular cells, discusses how oxidative stress contributes to vascular damage, and the therapeutic strategies/biotic factors that can prevent or treat ROS-associated cardiovascular disorders.
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PMID:Reactive oxygen species in vascular wall. 1672 32

Hypoxia-inducible factor (HIF)-1 activation in response to hypoxia requires mitochondrial generation of reactive oxygen species (ROS). In contrast, the requirement of ROS for HIF-1 activation by growth factors like insulin remains unexplored. To explore that, insulin-sensitive hepatic cell HepG2 or cardiac muscle cell H9c2 cells were pretreated with NADPH oxidase inhibitor diphenyleneiodonium chloride (DPI) or apocynin and HIF-1 activation was tested by electrophoretic mobility shift and reporter gene assay. Antioxidants DPI or apocynin completely blocked insulin-stimulated HIF-1 activation. The restoration of HIF-1 activation by H(2)O(2) in DPI-pretreated cells not only confirmed the role of ROS but also identified H(2)O(2) as the responsible ROS. The role of NADPH oxidase was further confirmed by greater stimulation of HIF-1 during simultaneous treatment of suboptimal concentration of insulin along with NADPH but not by NADH. The role of oxidant generated by insulin is found to inhibit the protein tyrosine phosphatase as suggested by the following observations. First, tyrosine phosphatase-specific inhibitor sodium vanadate compensates DPI-inhibited HIF-1 activity. Second, sodium vanadate stimulates HIF-1 activation with suboptimal concentration of insulin. Third, DPI and pyrrolidene dithiocarbamate (PDTC) blocks insulin-receptor tyrosine kinase activation. The activity of phosphatidylinositol 3-kinase as evidenced by Akt phosphorylation, involved in HIF-1 activation, is also dependent on ROS generation by insulin. Finally, DPI pretreatment blocked insulin-stimulated expression of genes like VEGF, GLUT1, and ceruloplasmin. Overall, our data provide strong evidence for the essential role of NADPH oxidase-generated ROS in insulin-stimulated activation of HIF-1.
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PMID:Insulin-induced activation of hypoxia-inducible factor-1 requires generation of reactive oxygen species by NADPH oxidase. 1708 41

As we previously reported, cAMP and p38 MAPK instead of protein kinase A were involved in beta-adrenergic receptor (beta-AR)-mediated interleukin-6 (IL-6) production in mouse cardiac fibroblasts. Besides kinases, phosphatases may also be involved in IL-6 gene regulation. To study the role of protein tyrosine phosphatases (PTPs) in beta-AR-mediated IL-6 production, we selected the most widely used PTP inhibitor, phenylarsine oxide (PAO). We found that PAO dose-dependently inhibited the IL-6 release in response to beta-AR agonist isoproterenol (ISO) in mouse cardiac fibroblasts. This effect was probably due to the inhibition of PTPs, resulting in increased tyrosine phosphorylation, since genistein, an inhibitor of protein tyrosine kinases further potentiated ISO-induced IL-6 production and could partially reverse the inhibitory effect of PAO. PAO also significantly inhibited the IL-6 production by forskolin, an adenylyl cyclase (AC) activator. Furthermore, PAO dose-dependently inhibited the increased cAMP accumulation by either ISO or forskolin and suppressed the phosphorylation of CREB, an important transcriptional factor for IL-6 gene expression. But PAO did not affect the activation of p38 MAPK by ISO. Although PAO was also reported to inhibit NADPH oxidase, the inhibition of NADPH oxidase by its specific inhibitor, diphenylene iodonium (DPI) could not suppress beta-AR-mediated IL-6 production, suggesting that NADPH oxidase may not contribute to the inhibitory effect of PAO on IL-6 production. To our knowledge, this is the first report that PAO can inhibit ISO-induced IL-6 expression and CREB phosphorylation, demonstrating that PTPs may negatively regulate beta-AR-mediated IL-6 production. This study may also further our understanding of beta-AR signaling and provide potential therapeutic targets for the treatment of heart diseases.
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PMID:Phenylarsine oxide inhibited beta-adrenergic receptor-mediated IL-6 secretion: inhibition of cAMP accumulation and CREB activation in cardiac fibroblasts. 1714 Nov 99

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