EC:2.7.12.2 - FACTA Search

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypoxia induces the stress protein heme oxygenase-1 (HO-1), which participates in cellular adaptation. The molecular pathways that regulate ho-1 gene expression under hypoxia may involve mitogen activated protein kinase (MAPK) signaling and reactive oxygen. Hypoxia (8 h) increased HO-1 mRNA in rat pulmonary aortic endothelial cells (PAEC), and also activated both extracellular signal-regulated kinase 1 (ERK1)/ERK2 and p38 MAPK pathways. The role of these kinases in hypoxia-induced ho-1 gene expression was examined using chemical inhibitors of these pathways. Surprisingly, SB203580, an inhibitor of p38 MAPK, and PD98059, an inhibitor of mitogen-activated protein kinase kinase (MEK1), strongly enhanced hypoxia-induced HO-1 mRNA expression in PAEC. UO126, a MEK1/2 inhibitor, enhanced HO-1 expression in PAEC under normoxia, but not hypoxia. Diphenylene iodonium, an inhibitor of NADPH oxidase, also induced the expression of HO-1 in PAEC under both normoxia and hypoxia. Similar results were observed in aortic vascular smooth muscle cells. Furthermore, hypoxia induced activator protein (AP-1) DNA-binding activity in PAEC. Pretreatment with SB203580 and PD98059 enhanced AP-1 binding activity under hypoxia in PAEC; UO126 stimulated AP-1 binding under normoxia, whereas diphenylene iodonium stimulated AP-1 binding under normoxia and hypoxia. These results suggest a relationship between MAPK and hypoxic regulation of ho-1 in vascular cells, involving AP-1.
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PMID:Mitogen activated protein kinase (MAPK) pathway regulates heme oxygenase-1 gene expression by hypoxia in vascular cells. 1223 Aug 70

Hyperoxia increases reactive oxygen species (ROS) production in vascular endothelium; however, the mechanisms involved in ROS generation are not well characterized. We determined the role and regulation of NAD(P)H oxidase in hyperoxia-induced ROS formation in human pulmonary artery endothelial cells (HPAECs). Exposure of HPAECs to hyperoxia for 1, 3, and 12 h increased the generation of superoxide anion, which was blocked by diphenyleneiodonium but not by rotenone or oxypurinol. Furthermore, hyperoxia enhanced NADPH- and NADH-dependent and superoxide dismutase- or diphenyleneiodonium-inhibitable ROS production in HPAECs. Immunohistocytochemistry and Western blotting revealed the presence of gp91, p67 phox, p22 phox, and p47 phox subcomponents of NADPH oxidase in HPAECs. Transfection of HPAECs with p22 phox antisense plasmid inhibited hyperoxia-induced ROS production. Exposure of HPAECs to hyperoxia activated p38 MAPK and ERK, and inhibition of p38 MAPK and MEK1/2 attenuated the hyperoxia-induced ROS generation. These results suggest a role for MAPK in regulating hyperoxia-induced NAD(P)H oxidase activation in HPAECs.
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PMID:Hyperoxia-induced NAD(P)H oxidase activation and regulation by MAP kinases in human lung endothelial cells. 1247 Oct 12

This study examines the effects of an increase in passive stretch in endothelium-removed bovine coronary artery on oxidant-induced changes in force generation. Increasing passive stretch on the arterial segments from 5 to 20 g for 20 minutes caused a subsequent increase (P<0.05) in force generation to 30 mmol/L KCl or 0.1 micromol/L serotonin compared with the prestretch control response. Also associated with the passive stretch were increases in superoxide detection by lucigenin and a selective increase in extracellular signal-regulated kinase (ERK) mitogen-activated protein (MAP) kinase phosphorylation measured by Western analysis. The stretch-induced increase in force generation was eliminated by inhibition of the ERK pathway by the MEK inhibitor PD98059 but not by inhibitors of the p38 MAP kinase pathway (SB202190) or c-Jun N-terminal protein kinase pathway (SP200169). Additionally, stretch-induced increases in both ERK phosphorylation and force generation were attenuated by inhibition of tyrosine kinases (genistein), src (PP2), and specific sites on the epidermal growth factor receptor (EGFR) (AG1478). Probes for oxidant signaling, including NAD(P)H oxidase inhibitors (diphenyliodonium and apocynin) or enhancement of peroxide consumption (ebselen) but not inhibition of xanthine oxidase (allopurinol), attenuated the effects of stretch on both ERK phosphorylation and force generation. Furthermore, stretch caused an increase in EGFR phosphorylation and cytosolic to membrane translocation of the p47phox NAD(P)H oxidase subunit. Hydrogen peroxide also elicited contraction through EGFR phosphorylation and ERK. In summary, stretch seems to enhance force generation via ERK signaling through an EGFR/src-dependent mechanism activated by peroxide derived from a stretch-mediated activation of the NAD(P)H oxidase, a response that may contribute to hypertensive alterations in vascular reactivity.
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PMID:Stretch enhances contraction of bovine coronary arteries via an NAD(P)H oxidase-mediated activation of the extracellular signal-regulated kinase mitogen-activated protein kinase cascade. 1252 17

Therapy with high oxygen concentrations (hyperoxia) is often necessary to treat patients with respiratory failure. However, hyperoxia may exacerbate the development of acute lung injury, perhaps by increasing lung epithelial cell death. Therefore, interrupting lung epithelial cell death is an important protective and therapeutic strategy. In the present study, hyperoxia (95% O(2)) results in murine lung epithelium cell death by DNA-laddering, terminal deoxynucleotidyltransferase dUTP nick end labeling, and Annexin V-fluorescein isothiocyanate flow cytometry assay. We show that hyperoxia increases superoxide production, as assessed by nicotinamide adenine dinucleotide phosphate reduced (NADPH) oxidase activity and flow cytometric assay, and increases phospho-extracellular signal-regulated kinase (ERK)1/2 by Western blot analysis. These processes are inhibited by a reactive oxygen species inhibitor, diphenylene iodonium (DPI), and by an inhibitor of the mitogen-activated protein (MAP) or ERK kinase (MEK)/ERK1/2 pathway, PD98059. ERK1/2 activation in hyperoxia is also inhibited by DPI. Hyperoxia-induced cell death is associated with cytochrome c release, subsequent caspase 9 and 3 activation, and poly (ADP-ribosyl) polymerase cleavage, which can all be suppressed by DPI and PD98059. However, the broad caspase inhibitor z-VAD-FMK protects cells from death without affecting superoxide generation and ERK1/2 activation. Taken together, our data suggest that hyperoxia, by virtue of activating NADPH oxidase, generates reactive oxygen species (ROS), which mediates cell death of lung epithelium via ERK1/2 MAPK activation, and functions upstream of caspase activation in lung epithelial cells.
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PMID:Reactive oxygen species and extracellular signal-regulated kinase 1/2 mitogen-activated protein kinase mediate hyperoxia-induced cell death in lung epithelium. 1259 56

Endothelial cells exhibit an autonomous proliferative response to hypoxia, independent of paracrine effectors. In cultured endothelial cells of porcine aorta, we analyzed the signaling of this response, with a focus on the roles of redox signaling and the MEK/ERK pathway. Transient hypoxia (1 hour) stimulated proliferation by 61+/-4% (n=16; P<0.05 versus control), quantified after 24 hours normoxic postincubation. Hypoxia induced an activation of ERK2 and of NAD(P)H oxidase and a burst of reactive oxygen species (ROS), determined by DCF fluorescence. To inhibit the MEK/ERK pathway, we used PD 98059 (PD, 20 micromol/L); to downregulate NAD(P)H oxidase, we applied p22phox antisense oligonucleotides; and to inhibit mitochondrial ROS generation, we used the ubiquinone derivate mitoQ (MQ, 10 micromol/L). All three inhibitions suppressed the proliferative response: PD inhibited NAD(P)H oxidase activation; p22phox antisense transfection did not inhibit ERK2 activation, but suppressed ROS production; and MQ inhibited ERK2 activation and ROS production. The autonomous proliferative response depends on the MEK/ERK pathway and redox signaling steps upstream and downstream of ERK. Located upstream is ROS generation by mitochondria, downstream is NAD(P)H oxidase.
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PMID:Role of redox signaling in the autonomous proliferative response of endothelial cells to hypoxia. 1269 38

p67(PHOX), a cytosolic component of the NADPH oxidase complex, is phosphorylated during neutrophil activation by several agonists. The intracellular signaling pathways leading to its phosphorylation in neutrophils may involve a PKC-dependent pathway and a PKC-independent pathway. Here, we analyzed p67(PHOX) phosphorylation by ERK2 and p38MAPK. Both ERK2 and p38MAPK phosphorylated p67(PHOX) in vitro, with similar K(m) values (10 and 9 microM, respectively). Phosphopeptide mapping indicated that ERK2 and p38MAPK phosphorylate different subgroups of peptides. Using truncated forms of p67(PHOX), we found that the major phosphorylation target site of ERK2 was located in the N-terminal fragment (1-243), while the major phosphorylation target sites of p38MAPK were located in the C-terminal fragment (244-526). Furthermore, an additional peptide, which was not phosphorylated in the intact protein, appeared to be phosphorylated in the isolated C-terminal fragment (aa 244-526). This site may not thus be accessible in the intact protein. Indeed, incubation of the C-terminal fragment (244-526) with different N-terminal fragments (1-243, 1-210, or 1-199) containing the tetratricopeptide-rich region prevented phosphorylation of this C-terminal fragment. ERK1/2 and p38MAPK are also involved in p67(PHOX) phosphorylation in intact neutrophils. Indeed, PD98059 and SB203580, two selective inhibitors of MEK1/2 and p38MAPK, respectively, inhibited p67(PHOX) phosphorylation in fMLP- and PMA-stimulated neutrophils, with additive effects, thus suggesting that they also target different sites in vivo. Furthermore, the major peptides phosphorylated by ERK2 and p38MAPK in vitro were also phosphorylated in fMLP-stimulated neutrophils. Taken together, these results suggest not only that p67(PHOX) is phosphorylated by ERK2 and p38MAPK in vitro and in intact neutrophils on several selective sites but also that a C-terminal phosphorylation site may become accessible after a conformational change of the protein.
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PMID:Phosphorylation of the NADPH oxidase component p67(PHOX) by ERK2 and P38MAPK: selectivity of phosphorylated sites and existence of an intramolecular regulatory domain in the tetratricopeptide-rich region. 1269 48

In the present study we have examined the effects of hydrocarbons on the formation of reactive oxygen species (ROS) in human neutrophil granulocytes in vitro. We found that hydrocarbons induce ROS formation in a concentration-dependent manner and that the ROS-inducing potency increases with increasing number of carbon atoms in the structure. In general, aromatic hydrocarbons were less potent inducers of ROS than aliphatic and cyclic hydrocarbons. The most potent compound in each group, t-butylcyclohexane, n-decane, and n-butylbenzene, were chosen for mechanistic studies. ROS formation was inhibited by the MEK1/2 inhibitor U0126, the tyrosine kinase inhibitor erbstatin-A, and the phosphatidylinositol-3 kinase inhibitor wortmannin. The involvement of the ERK1/2 pathway was confirmed by Western blot analysis of phosphorylated ERK1/2. The study revealed only small differences in the mechanisms involved for the three compounds. The responses were not affected by Pertussis toxin, indicating that Gi-protein coupled receptors are not involved in neutrophil activation after hydrocarbon exposure. Based on these findings we propose a mechanism involving tyrosine kinases, PI3 kinase, and the ERK1/2 pathway, leading to activation of the NADPH oxidase and production of ROS in neutrophils stimulated by organic solvents.
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PMID:Involvement of the extracellular signal regulated kinase pathway in hydrocarbon-induced reactive oxygen species formation in human neutrophil granulocytes. 1287 40

The mitogen-activated protein (MAP) kinases are a large family of proline-directed, serine/threonine kinases that require tyrosine and threonine phosphorylation of a TxY motif in the activation loop for activation through a phosphorylation cascade involving a MAPKKK, MAPKK and MAPK, often referred to as the MAP kinase module. Three separate such modules have been identified, based on the TxY motif of the MAP kinase and the dual-specificity kinases that strictly phosphorylate their specific TxY sequence. They are the extracellular signal regulated kinases (ERKs), c-jun N-terminal kinases (JNKs) and p38 MAPKs. The ERKs are mainly associated with proliferation and differentiation while the JNKs and p38MAP kinases regulate responses to cellular stresses. Redox homeostasis is critical for proper cellular function. While reactive oxygen species (ROS) and oxidative stress have been implicated in injury, a rapidly growing literature suggests that a transient increase in ROS levels is an important mediator of proliferation and results in activation of various signaling molecules and pathways, among which the MAP kinases. This review will summarize the role of ROS in MAP kinase activation in various systems, including in macrophages, cells of myeloid origin that play an essential role in inflammation and express a multi-component NADPH oxidase that catalyzes the receptor-regulated production of ROS.
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PMID:Redox signaling and the MAP kinase pathways. 1289 50

Cellular insulin stimulation generates a burst of H(2)O(2) that modulates protein-tyrosine phosphorylation in the insulin action pathway, in part by the inhibition of redox-sensitive protein-tyrosine phosphatases [J. Biol. Chem. 276 (2001) 21938]. Blocking the insulin-induced rise in H(2)O(2) with the NADPH oxidase inhibitor diphenyleneiodonium (DPI) strongly attenuated the activation of phosphatidylinositol 3' (PI 3')-kinase, Akt and GLUT4 translocation by insulin in 3T3-L1 adipocytes; however, under identical conditions, we observed a paradoxical increase in the activation of p42/p44 mitogen-activated protein (MAP) kinase. DPI inhibited the insulin-stimulated tyrosine phosphorylation of the insulin receptor and IRS-1/2, and also reduced the association of Grb2 with IRS-1, suggesting that the effect of DPI on MAP kinase activation occurred downstream of the IR and IRS proteins. DPI increased the insulin-stimulated phosphorylation of p42/p44 MAP kinase with no change in basal, and increased insulin-stimulated MAP kinase kinase (MEK) activity by a similar degree. DPI enhanced basal Grb2-Sos binding and reduced the effect of insulin to potentiate the dissociation of the Grb2-Sos complex, suggesting that the effect of DPI was mediated upstream of Raf-1. Cell treatment with dibutyryl cAMP significantly reduced the enhancement of MAP kinase activation in the presence of DPI. However, forskolin, acting in a PKA-independent manner, increased the insulin stimulation of MAP kinase and MEK, but fully abrogated the effect of DPI to enhance these insulin responses. PLCgamma inhibition with U73122 blocked the insulin stimulation of MAP kinase and MEK as well as the enhancing effect of DPI on these responses. PKC activation strongly stimulated MAP kinase and MEK activation, even in the presence of U73122, consistent with PKC acting downstream of PLCgamma. These data show that the insulin-stimulated oxidant signal differentially affects the two major downstream components of the insulin signaling pathway, PI 3'-kinase and MAP kinase, and cross-talk between insulin action, PLCgamma and, to a lesser extent, PKA modulates the net cellular effects of insulin-stimulated cellular H(2)O(2).
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PMID:Integration of multiple downstream signals determines the net effect of insulin on MAP kinase vs. PI 3'-kinase activation: potential role of insulin-stimulated H(2)O(2). 1468 62

We investigated in IMR90 cells the effects of N-formyl-Met-Leu-Phe (N-fMLP) and WKYMVm (W peptide) on activation of the NADPH oxidase-like enzyme. In serum-deprived human fibroblasts, exposure to 100 microM N-fMLP or 10 microM peptide W for 1 min induced both p47phox translocation and NADPH-dependent superoxide generation. These effects were in large part mediated by prevention of the rapid activation of extracellular signal-regulated kinases (ERKs) by preincubation with the MEK1 inhibitor PD098059. Furthermore, responses to N-fMLP or W peptide were inhibited by pertussis toxin, suggesting the involvement of a seven-transmembrane G protein-coupled receptor(s) for peptides. RT-PCR experiments demonstrated the expression in these cells of the low-affinity receptor FPRL1, but not the high-affinity receptor FPR. Incubation with radiolabeled WKYMVm, which had a higher efficiency on FPRL1, revealed that human fibroblasts express binding sites for 125I-WKYMVm that are specifically displaced by increasing concentrations of unlabeled ligand. Analysis of the binding data predicted a Kd of 155.99 nM and a receptor density of about 16,200 molecules/cell. HEK293 cells, which express a NADPH oxidase-like enzyme but not formyl peptide receptors, transiently transfected with FPRL1 cDNA produced superoxide on stimulation with N-fMLP or W peptide, demonstrating that this receptor is biologically functional.
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PMID:Low-affinity receptor-mediated induction of superoxide by N-formyl-methionyl-leucyl-phenylalanine and WKYMVm in IMR90 human fibroblasts. 1474 31

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