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)

Reactive oxygen species (ROS) play an important role in cell signaling pathway. Previously, we found that silica induced immediate ROS generation and sequential cellular responses such as kinase activation in Rat2 cells as well as an increase of intracellular calcium concentration in A549 cells. However, the detailed mechanism underlying the immediate ROS generation induced by silica in fibroblast cells remains to be elucidated. Therefore, in the present study, we investigated the mechanism of ROS generation by silica within Rat2 fibroblast cells by examining the effects of a diverse group of inhibitors for the enzymes related with signal transduction events. Inhibitors for protein tyrosine kinase (PTK), phospholipase C (PLC), protein kinase C (PKC) and calmodulin (CaM) kinase II effectively suppressed ROS generation in silica-stimulated Rat2 cells, whereas those for protein kinase A and phospholipase A(2) did not. Diphenyleneiodonium chloride (DPI), an inhibitor for NADPH oxidase was also found to be effective in inhibiting silica-induced ROS generation. These results suggest that PTK, PLC, PKC, CaM kinase II, and NADPH oxidase are all involved in signal transduction pathways for ROS generation in silica-stimulated Rat2 cells.
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PMID:Mechanism of silica-induced ROS generation in Rat2 fibroblast cells. 1227 Jun 76

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

To investigate a potential molecular basis for a link between diabetes and atherosclerosis, experiments were performed to determine the role of NADPH oxidase in the enhanced proliferative capacity of vascular smooth muscle cells (VSMC) from OLETF rat, an animal model of type 2 diabetes. An enhanced proliferative response to 10% fetal bovine serum with an increased cell cycle progression from G1 to S phase as well as an augmented superoxide generation with an increased NADPH oxidase activity were observed in diabetic versus control VSMC. Both the enhanced proliferation and superoxide generation in diabetic VSMC were significantly attenuated not only by diphenyleneiodonium (10 microM) and apocynin (100 microM), NADPH oxidase inhibitors but also by protein tyrosine kinase inhibitors such as genistein (100 microM) and AG 112 (100 microM). Furthermore, the enhanced NADPH oxidase activity in diabetic VSMC was significantly attenuated by genistein and AG112, but not by daidzein (100 microM), a genistein analogue devoid of protein tyrosine kinase inhibitory properties. Based on these results, it is suggested that the enhanced proliferative capacity of diabetic VSMC is closely related to the activation of NADPH oxidase that is induced through activation of protein tyrosine kinase.
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PMID:Tyrosine kinase-mediated activation of NADPH oxidase enhances proliferative capacity of diabetic vascular smooth muscle cells. 1569 53

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

Cyclooxygenase-2 (Cox-2) metabolites produced by endothelial cells, particularly prostacyclin and prostaglandin E(2), profoundly affect vascular tone, regional blood flow, and angiogenesis. We have previously shown that reactive oxygen species induce Cox-2 expression in human endothelial cells (HUVEC), either on their own or as components of the signaling pathway triggered by TNFalpha, the prototypical inflammatory cytokine. Here we investigated the role of Cox-2 induced by hydrogen peroxide (H(2)O(2)), either exogenous or endogenously generated by TNFalpha, in the repair of a mechanically wounded HUVEC monolayer and probed the sources of H(2)O(2) that are involved in TNFalpha signaling and the pathways through which H(2)O(2) modulates Cox-2 expression. Results indicate that H(2)O(2)-induced Cox-2 activity participates in the repair of wounded monolayers. Both NADPH oxidase and the mitochondrial electron transport chain are involved in H(2)O(2) generation. Signaling triggered by H(2)O(2) for Cox-2 induction acts by increasing the protein tyrosine kinase phosphorylation that follows inhibition of protein phosphatase activity. The activation of p38 MAPK and its interaction in the inhibition of serine/threonine phosphatase activity are both critical steps in this event. We conclude that Cox-2 induced by H(2)O(2) plays an important role in promoting endothelial wound repair after injury, so that the cardioprotective effect of Cox-2 is due at least in part to its power of healing damaged endothelium.
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PMID:Cyclooxygenase-2 mediates hydrogen peroxide-induced wound repair in human endothelial cells. 1926 18

The objective of this study was to examine the interplay between osmotic and oxidative stress as well as to determine mechanisms by which osmotic stress increases superoxide generation in spermatozoa of horses. Superoxide production, as measured by dihydroethidium (DHE), increased when spermatozoa of horses were incubated under either hyperosmotic or hyposmotic conditions. This increase in superoxide production was inhibited by the MAP kinase p38 inhibitor, SB203580, and by the superoxide scavenger, tiron. Incubation of spermatozoa under hyperosmotic conditions increased overall protein tyrosine phosphorylation as measured by western blotting techniques; however, a similar increase was not detected when spermatozoa were incubated under hyposmotic conditions. The general protein kinase C (PKC) and protein tyrosine kinase (PTK) inhibitor staurosporine inhibited (P<0.05) tyrosine phosphorylation in samples from cells under hyperosmotic conditions. In addition, the NADPH oxidase inhibitor diphenyleneiodonium (DPI) also inhibited (P<0.05) protein tyrosine phosphorylation in cells under hyperosmotic conditions. In summary, these data indicate that incubation of equine spermatozoa under both hyposmotic and hyperosmotic conditions can increase superoxide anion generation. Under hyperosmotic conditions, this increased generation of superoxide anion was accompanied by increased protein tyrosine phosphorylation.
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PMID:Osmotic stress stimulates generation of superoxide anion by spermatozoa in horses. 1955 37

Neutrophils play a key role in host defense and inflammation through the production of superoxide anion and other reactive oxygen species (ROS) by the enzyme complex NADPH oxidase. The cytosolic NADPH oxidase component, p67phox, has been shown to be phosphorylated in human neutrophils but the pathways involved in this process are largely unknown. In this study, we show that p67phox is constitutively phosphorylated in resting human neutrophils and that neutrophil stimulation with PMA further enhanced this phosphorylation. Inhibition of the constitutively active serine/threonine phosphatases type 1 and type 2A (PP1/2A) by calyculin A resulted in the enhancement of p67phox phosphorylation. Constitutive and calyculin A-induced phosphorylation of p67phox was completely inhibited by the protein tyrosine kinase inhibitor genistein and partially inhibited by the MEK1/2 inhibitor PD98059, but was unaffected by GF109203X, wortmannin and SB203580, inhibitors of PKC, PI3K and p38MAP kinase, respectively. Two-dimensional phosphopeptide mapping revealed that constitutive and calyculin A-induced p67phox phosphorylation occurred on the same major sites. Interestingly, calyculin A enhanced formyl-Met-Leu-Phe (fMLP)-induced superoxide production, while genistein inhibited this process. Taken together, these results suggest that (i) p67phox undergoes a continual cycle of phosphorylation/dephosphorylation in resting cells; (ii) p67phox phosphorylation is controlled by MEK1/2 and an upstream tyrosine kinase; (iii) PP1/2A directly or indirectly antagonize this process. Thus, these pathways could play a role in regulating ROS production by human neutrophils at inflammatory sites.
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PMID:The NADPH oxidase cytosolic component p67phox is constitutively phosphorylated in human neutrophils: Regulation by a protein tyrosine kinase, MEK1/2 and phosphatases 1/2A. 2178 60

Superoxide anion production by the neutrophil NADPH oxidase plays a key role in host defense; however, excessive superoxide production is believed to participate to inflammatory reactions. Neutrophils express several TLR that recognize a variety of microbial motifs or agonists. The interaction between TLR and their agonists is believed to help neutrophils to recognize and eliminate the pathogen. However, the effects of some TLR agonists on the NADPH oxidase activation and the mechanisms controlling these effects have not been elucidated. In this study, we show that the TLR7/8 agonist CL097 by itself did not induce NADPH oxidase activation in human neutrophils, but induced a dramatic increase of fMLF-stimulated activation. Interestingly, CL097 induced cytochrome b558 translocation to the plasma membrane and the phosphorylation of the NADPH oxidase cytosolic component p47phox on Ser(345), Ser(328), and Ser(315). Phosphorylation of Ser(328) and Ser(315) was significantly increased in CL097-primed and fMLF-stimulated neutrophils. Phosphorylation of Ser(345), Ser(328), and Ser(315) was decreased by inhibitors of p38 MAPK and the ERK1/2 pathway. Phosphorylation of Ser(328) was decreased by a protein kinase C inhibitor. Genistein, a broad-range protein tyrosine kinase inhibitor, inhibited the phosphorylation of these serines. Our results also show that CL097 induced proline isomerase 1 (Pin1) activation and that juglone, a Pin1 inhibitor, inhibited CL097-mediated priming of fMLF-induced p47phox phosphorylation and superoxide production. These results show that the TLR7/8 agonist CL097 induces hyperactivation of the NADPH oxidase by stimulating the phosphorylation of p47phox on selective sites in human neutrophils and suggest that p38 MAPK, ERK1/2, protein kinase C, and Pin1 control this process.
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PMID:The TLR7/8 agonist CL097 primes N-formyl-methionyl-leucyl-phenylalanine-stimulated NADPH oxidase activation in human neutrophils: critical role of p47phox phosphorylation and the proline isomerase Pin1. 2300 36

Reactive oxygen species (ROS) production by the neutrophil NADPH oxidase plays a key role in host defense against pathogens, such as bacteria and fungi. Zymosan a cell-wall preparation from Saccharomyces cerevisiae is largely used to activate neutrophils in its opsonized form. In this study, we show that non-opsonized zymosan alone induced ROS production by human neutrophils. Zymosan-induced ROS production is higher than the formyl-methionyl-leucyl-phenylalanine (fMLF)- or the phorbol myristate acetate (PMA)-induced ROS production but is lower than the one induced by opsonized zymosan. Most of the zymosan-induced ROS production is intracellular. Interestingly, zymosan induced the phosphorylation of the NADPH oxidase cytosolic component p47phox on several sites which are Ser315, Ser328 and Ser345. Zymosan induced also the activation of the small G-protein Rac2. Phosphorylation of the p47phox as well as Rac2 activation were inhibited by genistein a broad range protein tyrosine kinase inhibitor and by wortmannin a PI3Kinase inhibitor. GF109203X a PKC inhibitor inhibited phosphorylation of p47phox on Ser315 and Ser328. SB203580 and UO126, inhibitors of p38MAPK and ERK1/2-pathway, respectively, inhibited phosphorylation of p47phox on Ser345. Zymosan-induced ROS production was completely inhibited by genistein and wortmannin and partially inhibited by SB203580, UO126 and GF109203X. These results show that zymosan alone is able to activate NADPH oxidase in human neutrophils via the phosphorylation of p47phox and Rac2 activation and that a protein tyrosine kinase, PI3Kinase, p38MAPK, ERK1/2 and PKC are involved in this process. These pathways could be potential pharmacological targets to treat zymosan- and S. cerevisiae-induced inflammation.
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PMID:Zymosan induces NADPH oxidase activation in human neutrophils by inducing the phosphorylation of p47phox and the activation of Rac2: involvement of protein tyrosine kinases, PI3Kinase, PKC, ERK1/2 and p38MAPkinase. 2308 66

We used the patch-clamp technique to examine the effect of angiotensin II (ANG II) on the basolateral K channels in the thick ascending limb (TAL) of the rat kidney. Application of ANG II increased the channel activity and the current amplitude of the basolateral 50-pS K channel. The stimulatory effect of ANG II on the K channels was completely abolished by losartan, an inhibitor of type 1 angiotensin receptor (AT1R), but not by PD123319, an AT2R antagonist. Moreover, inhibition of phospholipase C (PLC) and protein kinase C (PKC) also abrogated the stimulatory effect of ANG II on the basolateral K channels in the TAL. This suggests that the stimulatory effect of ANG II on the K channels was induced by activating PLC and PKC pathways. Western blotting demonstrated that ANG II increased the phosphorylation of c-Src at tyrosine residue 416, an indication of c-Src activation. This effect was mimicked by PKC stimulator but abolished by calphostin C. Moreover, inhibition of NADPH oxidase (NOX) also blocked the effect of ANG II on c-Src tyrosine phosphorylation. The role of Src-family protein tyrosine kinase (SFK) in mediating the effect of ANG II on the basolateral K channel was further suggested by the experiments in which inhibition of SFK abrogated the stimulatory effect of ANG II on the basolateral 50-pS K channel. We conclude that ANG II increases basolateral 50-pS K channel activity via AT1R and that activation of AT1R stimulates SFK by a PLC-PKC-NOX-dependent mechanism.
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PMID:Angiotensin II stimulates basolateral 50-pS K channels in the thick ascending limb. 2437 May 94


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