Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The AP-1 (activator protein-1) complex, which consists of proteins of the Fos and Jun families, is thought to play an important role in the balance between cell proliferation and apoptosis, the response to genotoxic stress and cell transformation. In cells containing oncogenic Ras, the major components of AP-1 are Fra-1 and c-Jun. Signalling from Ras to AP-1 is through the Raf/MEK[mitogen-activated protein (MAP) kinase kinase]/ERK (extracellular signal-regulated kinase) MAP kinase pathway as sustained activation of Raf1 or Mek1 modifies AP-1 composition and activity. To analyse the potential link between the ERK-MAPK pathway and AP-1 in colon cancer, in which RAS and BRAF mutations are frequent, we have studied the regulation of AP-1 in colon carcinoma cell lines. We show that c-JUN and FRA-1 expression is dependent on ERK activity and that different thresholds of ERK activity control the expression of FRA-1. A basal activity is required to induce transcription of the FRA-1 gene, but additional higher levels of activity stabilize FRA-1 against proteasome-dependent degradation. These results provide a clear-cut example that the magnitude of ERK signalling affects the cellular response. Although we find no contribution of FRA-1 towards cell proliferation of adherent tumour cells, the high levels of FRA-1 in cells where elevated ERK activity leads to protein stabilization provide survival signals for tumour cells removed from the extracellular matrix.
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PMID:Elevated ERK-MAP kinase activity protects the FOS family member FRA-1 against proteasomal degradation in colon carcinoma cells. 1462 89

Activation of MAP kinases is involved in various cellular processes, including immunoregulation, inflammation, cell growth, cell differentiation, and cell death. To investigate the role of p38 MAP kinase activation in the signaling pathway of TRAIL-mediated apoptosis, we compared TRAIL-mediated MAP kinase activation in TRAIL-susceptible human colon cancer cell line DLD1 and TRAIL-resistant DLD1/TRAIL-R cells. TRAIL-mediated activation of ERK occurred in both cell lines. In contrast, both DLD1 and DLD1/TRAIL-R cells showed no obvious JNK activation after treatment with TRAIL. Interestingly, TRAIL-mediated activation of p38 MAP kinases was observed in DLD1 cells but not in DLD1/TRAIL-R cells. However, activation of p38 MAP kinases was observed in both DLD1 and DLD1/TRAIL-R cells after treatment with anisomycin. Furthermore, inhibiting activated p38 MAP kinases with known inhibitors or with an adenovector expressing dominant negative p38alpha did not block TRAIL-mediated cell death in DLD1 cells. Moreover, activation of p38 MAP kinases by adenovectors expressing constitutive MKK3 or MKK6 (Ad/MKK3bE or Ad/MKK6bE) did not induce cell death in either DLD1 or DLD1/TRAIL-R cell lines. Our results suggest that activation of p38 MAP kinases does not play a major role in TRAIL-mediated apoptosis in DLD1 cells and that lack of TRAIL-mediated p38 MAP kinase activation may not be the mechanism of TRAIL-resistance in DLD1/TRAIL-R cells.
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PMID:Lack of p38 MAP kinase activation in TRAIL-resistant cells is not related to the resistance to TRAIL-mediated cell death. 1510 6

Tumor necrosis factor (TNF) receptor-associated factors (TRAFs) are cytoplasmic adapter proteins that link a wide variety of cell surface receptors to the apoptotic signaling cascade. The purpose of this study was to delineate the signaling pathways and TRAF1 promoter elements responsible for phorbol ester-mediated TRAF1 induction in human colon cancers. Here, we found that the PKC activators, phorbol 12-myristate 13-acetate (PMA) and bryostatin I, induced TRAF1 mRNA expression; pretreatment with actinomycin D blocked PMA-mediated TRAF1 expression suggesting induction at the transcriptional level. In contrast, expression of other TRAFs (TRAF2, 3 and 4) was minimally altered by PMA. Various PKC isoform-selective inhibitors blocked PMA-mediated TRAF1 mRNA and promoter stimulation; rottlerin, a selective PKCdelta inhibitor, had no effect suggesting that Ca(2+)-dependent PKC isoforms (e.g., PKCalpha and betaI) play a role in TRAF1 regulation. In addition, the MEK/ERK inhibitors, PD98059 and UO126, suppressed PMA-stimulated TRAF1 promoter activity indicating a role for ERK in TRAF1 induction. Moreover, cotransfection of a dominant-negative Raf-1 (Raf-C4) significantly reduced PMA-stimulated TRAF1 promoter activity whereas transfection of dominant-negative Ras or treatment with Ras inhibitors had minimal to no effect on TRAF1 induction suggesting dependence on Raf, but not Ras, activation. Finally, site-specific mutagenesis of functional NF-kappaB sites (particularly the most proximal site) in the TRAF1 promoter significantly decreased PMA-mediated promoter activity. In conclusion, our results demonstrate selective induction of TRAF1 in human colon cancer cells through a Ca(2+)-dependent PKC/Raf-1/ERK/NF-kappaB-dependent pathway.
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PMID:Regulation of phorbol ester-mediated TRAF1 induction in human colon cancer cells through a PKC/RAF/ERK/NF-kappaB-dependent pathway. 1498 39

Ras is the most characterized oncogene in human cancer, and yet there are no effective therapeutics to selectively target this oncogene. Our previous work demonstrated the inhibitory activity of the p38 pathway in Ras proliferative signaling in experimental NIH 3T3 cells (Chen, G., Hitomi, M., Han, J., and Stacey, D. W. (2000) J. Biol. Chem. 275, 38973-38980). Here we explore the therapeutic potential of p38 kinase activation in human colon cancer cells with and without endogenous K-ras activation. p38 activation by both adenovirus-mediated gene delivery of constitutively active p38 activator MKK6 and by arsenite selectively induces cell death in K-ras-activated human colon cancer HCT116 cells but not in the K-ras-disrupted HCT116-derived sublines. The cell death-inducing effect of MKK6 is not because of its selective activation of p38 kinase or its downstream transcription factor substrates, ATF-2 or c-Jun, in K-ras-activated cells. Rather, cell death in K-ras-activated cells is linked to the down-regulation of vitamin D receptor (VDR) by an AP-1-dependent mechanism. Forced VDR expression in K-ras-activated cells inhibits p38 activation-induced cell death, and inhibition of endogenous VDR protein expression in K-ras-disrupted cells increased the arsenite-induced toxicity. Analysis of an additional two human colon cancer cell lines with and without K-ras mutation also showed a K-ras- and VDR-dependent toxicity of MKK6. Hence, p38 pathway activation selectively induces cell death in K-ras-mutated human colon cancer cells by mechanisms involving the suppression of VDR activity.
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PMID:p38 MAPK activation selectively induces cell death in K-ras-mutated human colon cancer cells through regulation of vitamin D receptor. 1503 31

Elevated Src kinase in epithelial cancer cells induces adhesion changes that are associated with a mesenchymal-like state. We recently showed that Src induces dynamic integrin adhesions in KM12C colon cancer cells, whereas E-cadherin-dependent cell-cell contacts become disorganized. This promotes a fibroblastic-like morphology and expression of the mesenchymal marker vimentin. Furthermore, Src-induced deregulation of E-cadherin, and the associated mesenchymal transition, is dependent on integrin signaling (Avizienyte et al., Nat. Cell Biol. 2002, 4, 632-638), although the nature of downstream signals that mediate these Src- and integrin-dependent effects are unknown. Here we show that the SH2 and SH3 domains of Src mediate peripheral accumulation of phospho-myosin, leading to integrin adhesion complex assembly, whereas loss of SH2 or SH3 function restores normal regulation of E-cadherin and inhibits vimentin expression. Inhibitors of MEK, ROCK, or MLCK also suppress peripheral accumulation of phospho-myosin and Src-induced formation of integrin-dependent adhesions, whereas at the same time restoring E-cadherin redistribution to regions of cell-cell contact. Our data therefore implicate peripheral phospho-myosin activity as a point of convergence for upstream signals that regulate integrin- and E-cadherin-mediated adhesions. This further implicates spatially regulated contractile force as a determinant of epithelial cell plasticity, particularly in cancer cells that can switch between epithelial and mesenchymal-like states.
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PMID:Src SH3/2 domain-mediated peripheral accumulation of Src and phospho-myosin is linked to deregulation of E-cadherin and the epithelial-mesenchymal transition. 1507 77

We recently reported that cAMP suppresses apoptosis in colon cancer cells and induces cellular inhibitor of apoptosis protein-2 (c-IAP2) via a cAMP-responsive element (CRE), suggesting a mechanism for chemoprevention of colon cancer by non-steroidal anti-inflammatory drugs. In this study, we used T84 human colon cancer cells to define the pathway by which increases in cAMP induce c-IAP2 expression. Treatment with several different cAMP agonists stimulated phosphorylation of CRE-binding protein (CREB) and activated expression of c-IAP2 in a CREB-dependent manner. Studies with pharmacological inhibitors revealed that cAMP-dependent phosphorylation of CREB required activation of ERK1/2 and p38 MAPK but was largely independent of protein kinase A. Immunoblots and transcriptional reporter assays using specific inhibitors, as well as expression of constitutively active forms of MEK1 and MKK3, showed that c-IAP2 induction by cAMP is regulated predominantly through ERK1/2 and p38 MAPK and suggested involvement of p90 ribosomal protein S6 kinase and mitogen and stress response kinase-1 as well. Consistent with those results, we found that cAMP-dependent suppression of apoptosis was blocked by treatment with inhibitors of ERK1/2 and p38 MAPK. We conclude that cAMP can induce c-IAP2 expression in colon cancer cells through CREB phosphorylation and CRE-dependent transcription in a manner that involves activation of ERK1/2 and p38 MAPK. These results emphasize that activation of kinases other than protein kinase A can mediate the actions of agents that increase cAMP, particularly in the regulation of CREB-dependent events.
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PMID:Cyclic AMP promotes cAMP-responsive element-binding protein-dependent induction of cellular inhibitor of apoptosis protein-2 and suppresses apoptosis of colon cancer cells through ERK1/2 and p38 MAPK. 1507 90

Protein phosphatase 2A (PP2A) is a family of mammalian serine/threonine phosphatases that is involved in the control of many cellular functions including those mediated by extracellular signal-regulated kinase (ERK) signaling. While investigating the reversible antiproliferative effect of the dietary lectin, jacalin, which binds the Thomsen-Friedenreich antigen (galactose beta1-3 N-acetylgalactosamine alpha-), we have found that this lectin (30 microg/ml) induces rapid, transient, tyrosine phosphorylation of putative human HLA-DR-associated protein I (PHAPI, also known as the tumor suppressor pp32) in HT29 human colon cancer cells. This is accompanied by the release of PP2A from association with PHAPI, allowing increased phosphatase activity of PP2A (by 42 +/- 10% at 10 min) and consequent complete dephosphorylation of the ERK kinase, MEK1/2, by 10 min and of ERK1/2 by 60 min. PHAPI knockdown by RNA interference abolished the effects of jacalin on PP2A activation and MEK inhibition. Thus phosphorylation of PHAPI/pp32 is a critical regulatory step in PP2A activation and ERK signaling.
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PMID:Protein phosphatase 2A, a negative regulator of the ERK signaling pathway, is activated by tyrosine phosphorylation of putative HLA class II-associated protein I (PHAPI)/pp32 in response to the antiproliferative lectin, jacalin. 1524 76

Recently, we showed that autocrine transforming growth factor alpha (TGFalpha) controls the epidermal growth factor receptor (EGFR)-mediated basal expression of integrin alpha2, cell adhesion and motility in highly progressed HCT116 colon cancer cells. We also reported that the expression of basal integrin alpha2 and its biological effects are critically controlled by the constitutive activation of the ERK/MAPK pathway (Sawhney, R. S., Sharma, B., Humphrey, L. E., and Brattain, M. G. (2003) J. Biol. Chem. 278, 19861-19869). In the present report, we further examine the downstream signaling mechanisms underlying EGFR/ERK signaling and integrin alpha2 function in HCT116 cells. Selective MEK inhibitors attenuated TGFalpha-mediated basal activation of p70S6K (S6K) specifically at Thr-389, indicating that this S6K site is downstream of ERK/MAPK signaling. Cells were treated with the selective protein kinase C (PKC) inhibitor bisindolylmaleimide to determine the role of PKC in S6K activation. The Thr-421 and Ser-424 phosphorylation sites of S6K were specifically inhibited by bisindolylmaleimide, which also blocked integrin alpha2 expression, cell adhesion, and motility. These data establish a novel cell motility function of S6K via PKC activation in a cancer cell. In addition, we examined whether mammalian target of rapamycin signaling controls S6K activation. Rapamycin inhibited constitutive S6K phosphorylation specifically at Thr-389, Thr-421, and Ser-424 sites. The assignment of these phosphorylation sites on S6K to biological functions was unequivocally confirmed by transfection of cells with specific single phosphorylation site dominant negative mutants. These experiments show for the first time that autocrine TGFalpha regulates cell adhesion function by multiple signaling pathways via specific phosphorylation sites of S6K in cancer cells.
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PMID:Autocrine transforming growth factor alpha regulates cell adhesion by multiple signaling via specific phosphorylation sites of p70S6 kinase in colon cancer cells. 1530

Protein kinase C betaII (PKCbetaII) is induced early during colon carcinogenesis. Transgenic mice expressing elevated PKCbetaII in the colonic epithelium (transgenic PKCbetaII mice) exhibit hyperproliferation and enhanced colon carcinogenesis. Here we demonstrate that nullizygous PKCbeta (PKCbetaKO) mice are highly resistant to azoxymethane (AOM)-induced preneoplastic lesions, aberrant crypt foci. However, reexpression of PKCbetaII in the colon of PKCbetaKO mice by transgenesis restores susceptibility to AOM-induced colon carcinogenesis. Expression of human PKCbetaII in rat intestinal epithelial (RIE) cells induces expression of endogenous rat PKCbetaII mRNA and protein. Induction of PKCbetaII is dependent upon catalytically active PKCbetaII and does not appear to involve changes in alternative splicing of the PKCbeta gene. Two human PKCbeta promoter constructs are activated by expression of PKCbetaII in RIE cells. Both PKCbeta promoter activity and PKCbetaII mRNA levels are inhibited by the MEK1 and -2 inhibitor U0126, but not the Cox-2 inhibitor celecoxib in RIE/PKCbetaII cells. PKCbeta promoter activity correlates directly with expression of endogenous PKCbetaII mRNA and protein in HT29 and HCT116 human colon cancer cell lines. PKCbeta promoter activity and PKCbetaII mRNA expression in HCT116 cells are inhibited by the selective PKCbeta inhibitor LY317615 and by U0126, demonstrating autoregulation of PKCbetaII expression. Transgenic PKCbetaII mice exhibit specific induction of endogenous PKCbetaII, but not its splice variant PKCbetaI, in the colonic epithelium in vivo. Taken together, our results demonstrate that 1) expression of PKCbetaII in the colonic epithelium is both necessary and sufficient to confer susceptibility to AOM-induced colon carcinogenesis in transgenic mice, 2) PKCbetaII regulates its own expression in RIE and human colon cancer cells in vitro and in the colonic epithelium in vivo, and 3) PKCbetaII autoregulation is mediated through a MEK-dependent signaling pathway in RIE/PKCbetaII and HCT116 colon cancer cells.
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PMID:Protein kinase CbetaII regulates its own expression in rat intestinal epithelial cells and the colonic epithelium in vivo. 1532 24

Constitutive activation of mitogen-activated protein kinase (MAPK) pathway is implicated in a variety of human malignancies especially those that carry Ras mutations and is currently exploited as a cancer therapeutic target. The variability of response by cancer cells to the inhibition of the Ras/MAPK pathway both in vivo and in vitro, however, suggests that the genetic background of the tumor cell may modulate the effectiveness of this directed therapeutic. In a panel of colorectal cancer cell lines that carry Ras mutations and have constitutively active MEK/MAPK, we found that inhibition of the MAPK upstream kinase MEK by the small molecular MEK inhibitor U0126 induced cell death only in p53 wild-type cells. By contrast, p53-deficient cells were not affected by blocking the MEK/MAPK pathway. Using isogenic colon cancer cell lines and RNA interference, we show that loss of p53 significantly reduces MAPK phosphorylation and renders cells resistant to U0126 treatment. These findings reveal a critical role for p53 in MAPK-driven cell survival and place p53 upstream in the control cascade of MAPK activity. The therapeutic implication of these observations is that MAPK inhibitors will be most beneficial as a therapeutic agent in p53 normal colon cancers where constitutively active MAPK resulting from a Ras mutation is required for cell survival.
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PMID:Susceptibility to cell death induced by blockade of MAPK pathway in human colorectal cancer cells carrying Ras mutations is dependent on p53 status. 1532 73


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