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)

A human homolog of the yeast Ssk2 and Ssk22 mitogen-activated protein kinase kinase kinases (MAPKKK) was cloned by functional complementation of the osmosensitivity of the yeast ssk2delta ssk22delta sho1delta triple mutant. This kinase, termed MTK1 (MAP Three Kinase 1), is 1607 amino acids long and is structurally highly similar to the yeast Ssk2 and Ssk22 MAPKKKs. In mammalian cells (COS-7 and HeLa), MTK1 overexpression stimulated both the p38 and JNK MAP kinase pathways, but not the ERK pathway. MTK1 overexpression also activated the MKK3, MKK6 and SEK1 MAPKKs, but not the MEK1 MAPKK. Furthermore, MTK1 phosphorylated and activated MKK6 and SEK1 in vitro. Overexpression of a dominant-negative MTK1 mutant [MTK1(K/R)] strongly inhibited the activation of the p38 pathway by environmental stresses (osmotic shock, UV and anisomycin), but not the p38 activation by the cytokine TNF-alpha. The dominant-negative MTK1(K/R) had no effect on the activation of the JNK pathway or the ERK pathway. These results indicate that MTK1 is a major mediator of environmental stresses that activate the p38 MAPK pathway, and is also a minor mediator of the JNK pathway.
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PMID:A human homolog of the yeast Ssk2/Ssk22 MAP kinase kinase kinases, MTK1, mediates stress-induced activation of the p38 and JNK pathways. 930 39

The MAP kinase pathway is a major regulator of both normal and oncogenic growth. We report that activation of the MAP kinase ERK2 by serum or purified growth factors is strongly dependent on cell adhesion to extracellular matrix proteins. This effect is specific to soluble growth factors, since suspended cells still activate ERK2 in response to plating on fibronectin, and is reversible. Analysis of endogenous Ras and Raf show that these proteins are still activated by serum in suspended cells, whereas MEK activity is inhibited. Conversely, activation of ERK2 by activated mutants of Ras and Raf is still adhesion-dependent but activation by MEK is not. Consistent with these results, activated MEK enhances growth of ras-transformed cells in suspension but not when adherent. These results identify a novel synergism between cell adhesion- and growth factor-regulated pathways, and explain how oncogenic activation of MAP kinases induces both serum- and anchorage-independent growth.
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PMID:Growth factor activation of MAP kinase requires cell adhesion. 931 18

The signaling mechanisms leading to phorbol ester myristate (PMA)-induced differentiation of HL-60 cells to the macrophagelike phenotype were investigated by using different protein kinase inhibitors. The protein kinase C inhibitor Ro 31-8220 specifically blocks PMA-induced differentiation, activation of the p42/44ERK- and p38RK-MAP kinase cascades and Hsp27-phosphorylation in HL-60 cells. Because Ro 31-8220 does not inhibit activation of the MAP kinase cascades by protein kinase C (PKC)-independent signals such as epidermal growth factor (EGF), heat shock, or anisomycin in these cells, only PMA-induced activation of the MAP kinases can be downstream of PKC. The MEK1 inhibitor PD 098059 and the p38RK inhibitor SB 203580 also were used to analyze whether the PMA-induced PKC-dependent activation of MAP kinases is involved in the differentiation process. Under certain conditions, PD 098059 can completely block the PMA-induced activation of the p42ERK as monitored by immunoprecipitation kinase assay by using the substrate myelin basic protein. SB 203580 specifically inhibits activation of p38RK as judged by MAPKAP kinase 2 activity against the substrate Hsp27 and also blocks Hsp27 phosphorylation in the cells. In contrast, neither PD 098059 nor SB 203580 nor both inhibitors together prevent PMA-induced differentiation of the HL-60 cells to the macrophagelike phenotype. The results suggest the existence of a diversification of PMA-induced signaling in HL-60 cells downstream of PKC, leading to activation of MAP kinases that are not essential for differentiation and to phosphorylation of other, so far unidentified, targets responsible for differentiation.
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PMID:PMA-induced activation of the p42/44ERK- and p38RK-MAP kinase cascades in HL-60 cells is PKC dependent but not essential for differentiation to the macrophage-like phenotype. 936 43

The ERK, JNK/SAPK and p38/RK MAP kinase subtypes are differentially activated by physiological, pharmacological and stress stimuli; all three subtypes are implicated in immediate-early (IE) gene induction by these agents. Here, we have asked whether inhibition of a single MAP kinase subtype under these conditions would generally alter induction of several IE genes in a similar way or whether this would differentially up- and down-regulate particular IE genes, an issue which bears on the question of whether individual MAP kinases are strictly targeted to specific IE genes, or whether they might catalyse phosphorylation events that affect several IE genes in the same way. SB 203580, an inhibitor of p38/RK, has been used to analyse the role of this kinase in the induction of five IE genes (c-fos, fosB, c-jun, junB and junD) under diverse conditions of stimulation. In C3H 10T1/2 cells, p38/RK and its downstream kinase MAPKAP K-2 are activated by all stimuli used with the exception of TPA. The specificity of SB 203580 as a p38/RK inhibitor in these cells is demonstrated; it does not affect ERKs or JNK/SAPKs but does result in a small increase in the activity of the upstream kinase MKK6, the principal p38/RK activator in these cells. We find that inhibition of p38/RK under these conditions produces general effects on all five IE genes as a group in three ways. First, induction of all five genes in response to okadaic acid or tumour necrosis factor-alpha (TNF-alpha) is not significantly altered by SB 203580. Second, in cells stimulated with anisomycin or U.V. radiation, SB 203580 potently inhibits all of the induced IE genes. Finally, SB 203580 enhances induction of all five IE genes in EGF-treated cells; these enhanced mRNA levels are not due to stabilisation of labile mRNA transcripts. The significance of these results to current thinking on the relationship between distinct MAP kinase subtypes and specific IE genes is discussed.
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PMID:Effects of the inhibition of p38/RK MAP kinase on induction of five fos and jun genes by diverse stimuli. 939 76

The binding of insulin to its receptor initiates multiple signal transduction pathways regulating such diverse processes as proliferation, differentiation, glucose transport, and glycogen metabolism. The STAT-family of transcription factors has been demonstrated to play a critical role in gene induction by a variety of hemopoietic cytokines and hormones. Furthermore, constitutive activation of STATs is observed in transformed cells. Here we describe activation of a transcriptional complex binding to a consensus STAT-transcriptional element in response to insulin challenge. This complex is induced rapidly after tyrosine autophosphorylation of the insulin receptor, and is sustained for several hours. Supershift analysis of the insulin-induced complex reveals that it specifically contains the transcription factor Stat3. DAN binding of this complex is inhibited by pre-incubation with tyrosine, but not serine/threonine protein kinase inhibitors, whereas transcriptional activation is inhibited by both. Utilising a dominant negative mutant of p21ras we demonstrate that both insulin-induced Stat3 DNA-binding and also transactivation do not require p21ras. Furthermore, although previous studies have suggested a role for MAP kinases (ERKs) and PI-3K in STAT activation, utilising the specific MEK inhibitor PD098059 and the PI-3K inhibitor wortmannin, we demonstrate that activation of ERKs or PI-3K are not required for insulin induced Stat3 phosphorylation or transactivation.
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PMID:Insulin activates Stat3 independently of p21ras-ERK and PI-3K signal transduction. 939 41

Insulin stimulation of adipocytes results in serine phosphorylation/activation of phosphodiesterase 3B (PDE 3B) and activation of a kinase that phosphorylates PDE 3B in vitro, key events in the antilipolytic action of this hormone. We have investigated the role for p70 S6 kinase, mitogen-activated protein kinases (MAP kinases), and protein kinase B (PKB) in the insulin signaling pathway leading to phosphorylation/activation of PDE 3B in adipocytes. Insulin stimulation of adipocytes resulted in increased activity of p70 S6 kinase, which was completely blocked by pretreatment with rapamycin. However, rapamycin had no effect on the insulin-induced phosphorylation/activation of PDE 3B or the activation of the kinase that phosphorylates PDE 3B. Stimulation of adipocytes with insulin or phorbol myristate acetate induced activation of MAP kinases. Pretreatment of adipocytes with the MAP kinase kinase inhibitor PD 98059 was without effect on the insulin-induced activation of PDE 3B. Furthermore, phorbol myristate acetate stimulation did not result in phosphorylation/activation of PDE 3B or activation of the kinase that phosphorylates PDE 3B. Using Mono Q and Superdex chromatography, the kinase that phosphorylates PDE 3B was found to co-elute with PKB, but not with p70 S6 kinase or MAP kinases. Furthermore, both PKB and the kinase that phosphorylates PDE 3B were found to translocate to membranes in response to peroxovanadate stimulation of adipocytes in a wortmannin-sensitive way. Whereas these results suggest that p70 S6 kinase and MAP kinases are not involved in the insulin-induced phosphorylation/activation of PDE 3B in rat adipocytes, they are consistent with PKB being the kinase that phosphorylates PDE 3B.
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PMID:Insulin-induced phosphorylation and activation of phosphodiesterase 3B in rat adipocytes: possible role for protein kinase B but not mitogen-activated protein kinase or p70 S6 kinase. 942 18

Vascular endothelial growth factor (VEGF) stimulated a time- and concentration-dependent increase in PGI2 synthesis in human umbilical vein endothelial cells with a mean maximum increase of 2-fold above basal levels at 25 ng/ml after 60 min. VEGF also rapidly stimulated the release of arachidonic acid and phosphorylation and activation of cytosolic phospholipase A2 (cPLA2). The VEGF-related factor, placenta growth factor (PIGF), had little effect on PGI2 synthesis, arachidonic acid release or cPLA2 activation. PD98059, a selective inhibitor of MAP kinase kinase, caused complete inhibition of VEGF-stimulated MAP kinase activity, PGI2 synthesis and cPLA2 gel retardation, but had no effect on VEGF-induced vWF secretion. These findings provide the first evidence that VEGF can stimulate PGI2 synthesis via cPLA2-mediated arachidonic acid release and indicate that VEGF stimulation of this biosynthetic pathway may occur, at least in part, via activation of p42/p44 MAP kinases.
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PMID:Vascular endothelial growth factor stimulates prostacyclin production and activation of cytosolic phospholipase A2 in endothelial cells via p42/p44 mitogen-activated protein kinase. 945 May 44

Cell cycle re-entry requires the growth factor-stimulation of at least two distinct classes of protein kinases: (i) the p42/p44 MAP kinases activated by the Ras > Raf > MKK cascade and (ii) the G1 cyclin-dependent protein kinases (CDKs). Specific inactivation of either class of kinase arrests fibroblasts in G1. Growth factors promote nuclear translocation and persistent activation of p42/p44 MAP kinases during the entire G0/G1 period. Here, we demonstrate that induction of cyclin D1, and therefore cdk4/6 activity associated with, is positively controlled by the p42/p44 MAP kinase cascade whereas the parallel cytokines/stress-activated p38MAP kinase cascade is antagonistic. Finally, using an antisense approach we demonstrate that p27Kip1 plays a key role in setting the growth factor-dependency of the G0 state.
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PMID:A temporal and biochemical link between growth factor-activated MAP kinases, cyclin D1 induction and cell cycle entry. 955 82

Hydrogen peroxide (H2O2) is a potent stimulator of signal-responsive phospholipase A2 (PLA2) in vascular smooth muscle and cultured endothelial cells. We investigated whether H2O2 plays a similar regulatory role in neurons. H2O2 did not stimulate a release of arachidonic acid from cultured neurons when applied alone but strongly enhanced the liberation of arachidonic acid evoked by maximally effective concentrations of either glutamate, the glutamate receptor agonist N-methyl-D-aspartate (NMDA), the muscarinic receptor agonist carbachol, the Na+-channel opener veratridine, or the Ca2+-ionophore ionomycin. The potentiating effects of H2O2 were strongly inhibited in the presence of the PLA2 inhibitor mepacrine, suggesting that the site of action was within the signal responsive arachidonic acid cascade. The enhancing effect of H2O2 was not reversed by protein kinase C inhibitors (chelerythrine chloride or GF 109203X) nor was it mimicked by phorbol ester treatment. H2O2 alone strongly enhanced the levels of immunodetectable activated mitogen-activated protein kinase (activated MAP kinases ERK1 and ERK2) in a Ca2+-dependent manner and this effect was additive with increases in the levels of activated MAP kinase evoked by glutamate. The enhanced release of arachidonic acid, however, was not clearly reversed by the MAP kinase kinase (MEK) inhibitor PD 98059, although this treatment effectively abolished H2O2 activation of MAP kinase. Thus, MAP kinase activation and Ca2+-dependent arachidonic acid release are regulated by oxidative stress in cultured striatal neurons.
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PMID:Hydrogen peroxide enhances signal-responsive arachidonic acid release from neurons: role of mitogen-activated protein kinase. 957 94

Apoptosis Signal-regulating Kinase (ASK) 1 was identified that activated two different subgroup of MAP kinase kinase (MAPKK), SEK1 (or MKK4), and MKK3/MAPKK6 (or MKK6), which in turn activated stress-activated protein kinase (SAPK, also known as JNK: c-Jun amino-terminal kinase) and p38 subgroup of MAP kinases, respectively. It was suggested that ASK1 contributed to cytokine-induced apoptosis in some cell lines. In this report, for further investigation about roles of ASK1 in mammal, initial characterization of mouse ASK1 was done. The mouse cDNA encoding ASK1 was isolated from the mouse kidney cDNA library and the overall amino acid sequence similarity between the mouse and the human ASK1 was 91.9%. A database search revealed that the kinase domain of ASK1 is evolutionally well-concervedover species among nematode, fly, mouse, and human. Northern blot analysis identified a 6-kb transcript of ASK1 which is expressed in the various mouse adult tissues. Immunohistochemical analysis of mouse embryos (17 days post coitum) revealed a localized expression of ASK1 in developing skin, cartilage, and bone, suggesting a possible role of ASK1 in tissue development during embryogenesis as well as cytokine-induced apoptosis.
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PMID:[Characterization of mouse apoptosis signal-regulating kinase 1]. 958 20

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