EC:2.7.12.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Cot/Tpl2/MAP3K8 is a serine/threonine kinase known to activate the ERK, p38, and JNK kinase pathways. Studies of Tpl2 knock-out mice reveal a clear defect in tumor necrosis factor-alpha production, although very little detail is known about its regulation and the signaling events involved. In the present study we demonstrated that phosphorylation of Cot was required for its maximal activity as phosphatase treatment of Cot decreased its kinase activity. The Cot sequence contains a conserved threonine at position 290 in the activation loop of the kinase domain. We found that mutation of this residue to alanine eliminated its ability to activate MEK/ERK and NF-kappaB pathways, whereas a phosphomimetic mutation to aspartic acid could rescue the ability to activate MEK. Thr-290 was also required for robust autophosphorylation of Cot. Antibody generated to phospho-Thr-290-Cot recognized both wild-type and kinase-dead Cot, suggesting that phosphorylation of Thr-290 did not occur through autophosphorylation but via another kinase. We showed that Cot was constitutively phosphorylated at Thr-290 in transfected human embryonic kidney 293T cells as well as human monocytes as this residue was phosphorylated in unstimulated and lipopolysaccharide-stimulated cells to the same degree. Treatment with herbimycin A inhibited Cot activity in the MEK/ERK pathway but did not inhibit phosphorylation at Thr-290. Together these results showed that phosphorylation of Cot at Thr-290 is necessary but not sufficient for full kinase activity in the MEK/ERK pathway.
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PMID:Phosphorylation of threonine 290 in the activation loop of Tpl2/Cot is necessary but not sufficient for kinase activity. 1546 76

The actions of the corticotropin-releasing factor (CRF) family of peptides are mediated by the seven transmembrane-domain G-protein-coupled receptors, the CRF receptors. CRF receptor type 2beta (CRFR2beta) messenger RNA (mRNA) is expressed primarily in the cardiovascular system, where its levels are decreased by urocortin 1 (Ucn1), a novel peptide in the CRF family. In a previous study, we reported that CRFR2beta mRNA levels were partially down-regulated via the cAMP-protein kinase A pathway. This study focused on the involvement of the intracellular mitogen-activated protein (MAP) kinase pathway in the modulation of CRFR2beta mRNA levels. Ribonuclease protection assays showed that decreases in CRFR2beta mRNA levels induced by Ucn1 and cAMP were attenuated by the p38 MAP kinase inhibitor SB202190 or SB203580. This finding suggested that the p38 MAP kinase pathway was involved in this regulation. Anisomycin, a classic p38 kinase activator, increased CRFR2beta mRNA levels in A7r5 cells. This effect of anisomycin was completely reversed by H7, a serine/threonine kinase inhibitor, while both p38 kinase and MAP kinase kinase inhibitors failed to block the increase in CRFR2beta mRNA levels caused by anisomycin. As anisomycin can activate Jun amino terminal kinases, as well as p38 MAP kinase, it is possible that other MAP kinases, such as Jun amino terminal kinases, also contribute to the increase in gene levels. Alternatively, anisomycin may increase CRFR2beta mRNA levels indirectly as a consequence of blocking protein synthesis.
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PMID:Regulation of corticotropin-releasing factor receptor type 2beta mRNA by mitogen-activated protein kinases in aortic smooth muscle cells. 1566 70

Although it is known that MEKK4 regulates MKK6, and p38 MAP kinase, extracellular stimuli that activate the serine/threonine kinase, MEKK4, are unknown. The aim of this study was then to identify stimuli that regulate MEKK4. By using recombinant MEKK4, as bait to attract interacting proteins, the calcium binding protein, annexin II, was identified by mass spectrometry as interacting with MEKK4, suggesting that MEKK4 might be regulated by calcium. A calcium-dependent interaction between MEKK4 and annexin II was observed when MEKK4 was immunoprecipitated from rat aortic smooth muscle cells that were treated with angiotensin II. Additional studies using recombinant MEKK4 in a Far-Western immunoblot identified a protein of 120 kDa as interacting directly with MEKK4. Prior studies indicated that MEKK4 was phosphorylated on tyrosine in vivo, and in fact, Pyk2 interacts with MEKK4 in an angiotensin II dependent manner in rat aortic smooth muscle cells. Pyk2 phosphorylates MEKK4 in vitro and Pyk2-dependent phosphorylation further regulates MEKK4-dependent phosphorylation of MKK6. Finally, dominant-negative MEKK4 inhibits angiotensin II mediated transcription of a luciferase reporter construct containing the cyclooxygenase II promoter, demonstrating that MEKK4 functions in a calcium-dependent manner as a substrate for Pyk2 and regulates transcription of cyclooxygenase II.
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PMID:Angiotensin II stimulated transcription of cyclooxygenase II is regulated by a novel kinase cascade involving Pyk2, MEKK4 and annexin II. 1588 58

Dual-specificity tyrosine-phosphorylated and regulated kinase 1A (Dyrk1A) is the human homologue of the Drosophila mnb (minibrain) gene. In Drosophila, mnb is involved in postembryonic neurogenesis. In human, DYRK1A maps within the Down syndrome critical region of chromosome 21 and is overexpressed in Down syndrome embryonic brain. Despite its potential involvement in the neurobiological alterations observed in Down syndrome patients, the biological functions of the serine/threonine kinase DYRK1A have not been identified yet. Here, we report that DYRK1A overexpression potentiates nerve growth factor (NGF)-mediated PC12 neuronal differentiation by up-regulating the Ras/MAP kinase signaling pathway independently of its kinase activity. Furthermore, we show that DYRK1A prolongs the kinetics of ERK activation by interacting with Ras, B-Raf, and MEK1 to facilitate the formation of a Ras/B-Raf/MEK1 multiprotein complex. These data indicate that DYRK1A may play a critical role in Ras-dependent transducing signals that are required for promoting or maintaining neuronal differentiation and suggest that overexpression of DYRK1A may contribute to the neurological abnormalities observed in Down syndrome patients.
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PMID:DYRK1A enhances the mitogen-activated protein kinase cascade in PC12 cells by forming a complex with Ras, B-Raf, and MEK1. 1591 94

Constitutive activation of the RAS-RAF-MEK-ERK signaling cascade is a hallmark of cutaneous malignant melanoma. A single activating mutation (c.1799 T>A; p.V 600 E) in the gene encoding the serine/threonine kinase B-RAF occurs in >60% of the tumors. Previous work has shown that knockdown of (V 600 E)B-RAF by RNA interference induces a variety of phenotypic changes in cultured melanoma cells, including lower proliferation rates, reduced anchorage-independent growth and apoptosis. Here, we show that the majority of melanomas harboring the (V 600 E)B-RAF mutation have retained the wild-type (WT) B-RAF allele, and that these cells can be rescued from the effects of (V 600 E)B-RAF knockdown by stimulation with growth factors. Ectopic expression of short hairpin RNAs specifically suppressing (V 600 E)B-RAF in melanoma cell lines reduced colony formation by approximately 80%. This response could be rescued by basic fibroblast growth factor, hepatocyte growth factor or, to a lesser extent, endothelin-1. Rescue with growth factors was not possible in cell lines lacking (WT)B-RAF. Single-cell clones with efficient knockdown of (V 600 E)B-RAF could be propagated in the presence of basic fibroblast growth factor but underwent apoptosis or senescence-like growth arrest upon withdrawal of this growth factor. The ability of growth factors to modulate the response of (V 600 E)B-RAF knockdown in melanoma cells may have both experimental and therapeutic implications.
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PMID:Growth factors rescue cutaneous melanoma cells from apoptosis induced by knockdown of mutated (V 600 E) B-RAF. 1600 3

The serine/threonine kinase Mirk/dyrk1B is activated in several solid tumors where it mediates cell survival, but the mechanism by which Mirk is activated in tumors is unknown. We now demonstrate that Mirk is activated as a kinase by signaling from Rac1 to the mitogen-activated protein kinase kinase MKK3. Rac is a Ras superfamily GTPase that, when activated, functions downstream of Ras oncoproteins to promote cell survival, transformation, and membrane ruffling. The constitutively active mutant Rac1QL activated Mirk in several cell types through MKK3, which in turn activated Mirk by phosphorylation. Dominant negative Rac1, dominant negative MKK3, and knockdown of MKK3 by RNA interference inhibited the kinase activity of co-expressed Mirk. E-cadherin ligation in confluent Madin-Darby canine kidney (MDCK) epithelial cells is known to transiently activate Rac1. Mirk was activated by endogenous Rac1 following E-cadherin ligation in confluent MDCK epithelial cells, whereas treatment of confluent MDCK cells with an Rac1 inhibitor decreased Mirk activity. Disruption of cadherin ligation by EGTA or prevention of cadherin ligation by maintenance of cells at subconfluent density blocked activation of Mirk. Engagement of cadherin molecules on subconfluent cells by an E-cadherin/Fc chimeric molecule transiently activated both Rac1 and Mirk with a similar time course. Rac activity is up-regulated in many human tumors and mediates survival signals, which enable tumor cells to evade apoptosis. This study characterizes a new anti-apoptotic signaling pathway that connects Rac1 with a novel downstream effector, Mirk kinase, which has recently been demonstrated to mediate survival in human tumors.
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PMID:The survival kinase Mirk/dyrk1B is activated through Rac1-MKK3 signaling. 1625 74

A high expression of PrP(C) in cells is one factor that increases the risk of conversion to the misfolded, disease-associated form (PrP(Sc)) characteristic of transmissible spongiform encephalopathies. Thus, developing a method to control the level of PrP(C) expression in cells could be one way to delay or prevent the onset of clinical signs of these diseases. In this study the mechanisms controlling the expression of the Prnp gene in PC12 cells and in rat brain were examined. We observed a slight activation of a cloned fragment of the human PRNP gene promoter using the luciferase reporter system in PC12 cells stimulated with nerve growth factor (NGF). The activating effect of NGF was enhanced by mitogen-activated protein kinase (MEK1) and suppressed by myristylated serine/threonine kinase (myrAKT). These results suggest that MEK1 is a positive activator of the PRNP promoter that inhibits the AKT pathway. Independent experiments suggested that high expression of PrP(C) in the brain depends on the rate of translation and/or the efficiency of PrP(C) stabilization. We also investigated the epigenic status of the Prnp promoter. We observed no increase of PrP(C) or Prnp mRNA levels in PC12 cells after treatment with the DNA-demethylating agent. The Prnp promoter did not display methylation either in NGF-treated and untreated PC12 cells, or in the rat brain. These results improve the understanding of the regulation of the Prnp gene promoter, a DNA regulatory element controlling the expression of PrP(C), a protein involved in several neurological diseases.
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PMID:Regulation of PrPC expression: nerve growth factor (NGF) activates the prion gene promoter through the MEK1 pathway in PC12 cells. 1652

Several forms of cancer are characterized by frequent activating mutations in the serine/threonine kinase, BRAF. Substitution of glutamic acid for valine at codon 600 (V600E) accounts for approximately 90% of all BRAF activating mutations and leads to stimulation of kinase activity, downstream signaling, and cell transformation. To better understand the molecular pathogenesis induced by oncogenic BRAF signaling, we used microarray gene expression profiling to comprehensively analyze the BRAF-directed transcriptional program of cells expressing a conditionally active form of BRAFV600E. Several novel genes that affect proliferation, cell survival, angiogenesis and immune surveillance were identified as possible mediators of BRAF-induced oncogenic signaling. Moreover, we show that a MAPK family member, extracellular signal-regulated kinase-3 (ERK3/MAPK6) is highly expressed in response to BRAF signaling in this system. Cellular ERK3 protein is highly unstable and pharmacological inhibition of BRAF activity resulted in rapid ERK3 degradation. In melanoma cells, RNAi-mediated knockdown of endogenous BRAF or treatment with MEK inhibitors that prevent ERK1/2 activation led to a reduction in ERK3 levels, indicating that elevated ERK3 expression is mediated through MEK1/2 signaling. These results provide strong evidence for another mode by which BRAF can regulate the ERK protein kinase family and suggest ERK3 to be a potential pharmacodynamic marker for targeting BRAF signaling in melanoma.
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PMID:Regulation of ERK3/MAPK6 expression by BRAF. 1696 79

Matrix metalloproteinase-1 (MMP-1, collagenase-1) plays a pivotal role in the process of joint destruction in degenerative joint diseases. We have examined the regulation of MMP-1 production in human chondrocytic HCS-2/8 cells stimulated by tumor necrosis factor-alpha (TNF-alpha). In response to TNF-alpha, MMP-1 is induced and actively released from HCS-2/8 cells. The induction of MMP-1 expression correlates with activation of ERK1/2, MEK, and Raf-1, and is potently prevented by U0126, a selective inhibitor of MEK1/2 activation. In contrast, SB203580, a selective p38 mitogen-activated protein kinases (MAPK) inhibitor, had no effects on TNF-alpha-induced MMP-1 release. A serine/threonine kinase, Akt was not activated in TNF-alpha-stimulated HCS-2/8 cells. TNF-alpha stimulated the production of PGE(2) in addition to MMP-1 in HCS-2/8 cells. Exogenously added PGE(2) potently inhibited TNF-alpha-induced both MMP-1 production and activation of ERK1/2. The effects of PGE(2) were mimicked by ONO-AE1-329, a selective EP4 receptor agonist but not by butaprost, a selective EP2 agonist. In contrast, blockade of endogenously produced PGE(2) signaling by ONO-AE3-208, a selective EP4 receptor antagonist, enhanced TNF-alpha-induced MMP-1 production. Furthermore, the suppression of MMP-1 production by exogenously added PGE(2) was reversed by ONO-AE3-208. Activation of EP4 receptor resulted in cAMP-mediated phosphorylation of Raf-1 on Ser259, a negative regulatory site, and blocked activation of Raf-1/MEK/ERK cascade. Taken together, these findings indicate that Raf-1/MEK/ERK signaling pathway plays a crucial role in the production of MMP-1 in HCS-2/8 cells in response to TNF-alpha, and that the produced PGE(2) downregulates the expression of MMP-1 by blockage of TNF-alpha-induced Raf-1 activation through EP4-PGE(2) receptor activation.
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PMID:Prostaglandin E2 downregulates TNF-alpha-induced production of matrix metalloproteinase-1 in HCS-2/8 chondrocytes by inhibiting Raf-1/MEK/ERK cascade through EP4 prostanoid receptor activation. 1703 53

TGF-beta receptors (TbetaRs) are serine/threonine kinase receptors that bind to TGF-beta and propagate intracellular signaling through Smad proteins. TbetaRs are repressed in some human cancers and expressed at high levels in several fibrotic diseases. We demonstrated that epidermal growth factor (EGF) up-regulates type II TGF-beta receptor (TbetaRII) expression in human dermal fibroblasts. EGF-mediated induction of TbetaRII expression was inhibited by the treatment of fibroblasts with a specific p38 mitogen-activated protein kinase (MAPK) inhibitor, SB203580, whereas MEK inhibitor PD98059 did not block the up-regulation of TbetaRII by EGF. EGF induced the TbetaRII promoter activity, and this induction was significantly blocked by SB203580, but not by PD98059. The overexpression of the dominant negative form of p38alpha or p38beta significantly reduced the induction of TbetaRII promoter activity by EGF. These results indicate that the EGF-mediated induction of TbetaRII expression involves the p38 MAPK signaling pathway. The EGF-mediated induction of TbetaRII expression may participate in a synergistic interplay between EGF and TGF-beta signaling pathway.
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PMID:Epidermal growth factor up-regulates transforming growth factor-beta receptor type II in human dermal fibroblasts via p38 mitogen-activated protein kinase pathway. 1710 67

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