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)

Oncogenic Ras transforms immortal rodent cells to a tumorigenic state, in part, by constitutively transmitting mitogenic signals through the mitogen-activated protein kinase (MAPK) cascade. In primary cells, Ras is initially mitogenic but eventually induces premature senescence involving the p53 and p16(INK4a) tumor suppressors. Constitutive activation of MEK (a component of the MAPK cascade) induces both p53 and p16, and is required for Ras-induced senescence of normal human fibroblasts. Furthermore, activated MEK permanently arrests primary murine fibroblasts but forces uncontrolled mitogenesis and transformation in cells lacking either p53 or INK4a. The precisely opposite response of normal and immortalized cells to constitutive activation of the MAPK cascade implies that premature senescence acts as a fail-safe mechanism to limit the transforming potential of excessive Ras mitogenic signaling. Consequently, constitutive MAPK signaling activates p53 and p16 as tumor suppressors.
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PMID:Premature senescence involving p53 and p16 is activated in response to constitutive MEK/MAPK mitogenic signaling. 976 3

The signal pathway mediating induction of p15(INK4b) and p16(INK4a) during HepG2 growth inhibition triggered by the phorbol ester tumor promoter TPA (12-O-tetradecanoylphorbol 13-acetate) and the Chinese herb Saikosaponin a was investigated. Western blot of three activated forms of mitogen-activated protein kinase (MAPK) (p-ERK, p-JNK and p-p38) demonstrated that phosphorylation of ERK is dramatically induced (11.6-fold ) by TPA during 15 min to 1 h and significantly induced (2.5-fold) by Saikosaponin alpha at 30 min, whereas phosphorylation of JNK was induced only by TPA during 30 min to 1 h. Phosphorylation of p38 was not induced by either drug. During this period, phosphorylation of one of the downstream transcriptional factors of MAPK cascade, ATF2, was 3.2- and 2.0-fold induced by TPA and Saikosaponin a, respectively, whereas that of another transcriptional factor, c-jun, was induced by TPA only. On the other hand, expressions of proto-oncogene c-jun, junB and c-fos were induced by TPA and Saikosaponin a during 30 min to 6 h of treatment. Pretreatment of 20 microg/ml PD98059, an inhibitor of MEK which is the upstream kinase of ERK, prevents the TPA- and Saikosaponin a-triggered HepG2 growth inhibition by 50 and 30%, respectively, accompanied by a 50 - 85% decrease of the p15(INK4b)/p16(INK4a) RNAs and proteins induced by both drugs. Inductions of c-fos RNA by both drugs and c-jun phosphorylation by TPA were also significantly reduced by PD98059 pretreatment. In addition, AP-1 DNA-binding assay using nonisotopic capillary electrophoresis and laser-induced fluorescence (CE/LIF) demonstrated that the AP-1-related DNA-binding activity was significantly induced by TPA and Saikosaponin a, which can be reduced by PD98059 pretreatment. These results suggested that activation of ERK together with its downstream transcriptional machinery mediated p15(INK4b) and p16(INK4a) expression that led to HepG2 growth inhibition.
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PMID:ERK signaling pathway is involved in p15INK4b/p16INK4a expression and HepG2 growth inhibition triggered by TPA and Saikosaponin a. 1259 82

Even though RAS usually acts as a dominant transforming oncogene, in primary fibroblasts and some established cell lines Ras inhibits proliferation. This can explain the virtual absence of RAS mutations in some types of tumors, such as chronic myeloid leukemia (CML). We report that in the CML cell line K562 Ras induces p21Cip1 expression through the Raf-MEK-ERK pathway. Because K562 cells are deficient for p15INK4b, p16INK4a, p14ARF, and p53, this would be the main mechanism whereby Ras up-regulates p21 expression in these cells. Accordingly, we also found that Ras suppresses K562 growth by signaling through the Raf-ERK pathway. Because c-Myc and Ras cooperate in cell transformation and c-Myc is up-regulated in CML, we investigated the effect of c-Myc on Ras activity in K562 cells. c-Myc antagonized the induction of p21Cip1 mediated by oncogenic H-, K-, and N-Ras and by constitutively activated Raf and ERK2. Activation of the p21Cip1 promoter by Ras was dependent on Sp1/3 binding sites in K562. However, mutational analysis of the p21 promoter and the use of a Gal4-Sp1 chimeric protein strongly suggest that c-Myc affects Sp1 transcriptional activity but not the binding of Sp1 to the p21 promoter. c-Myc-mediated impairment of Ras activity on p21 expression required a transactivation domain, a DNA binding region, and a Max binding region. Moreover, the effect was independent of Miz1 binding to c-Myc. Consistent with its effect on p21Cip1 expression, c-Myc rescued cell growth inhibition induced by Ras. The data suggest that in particular tumor types, such as those associated with CML, c-Myc contributes to tumorigenesis by inhibiting Ras antiproliferative activity.
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PMID:Myc antagonizes Ras-mediated growth arrest in leukemia cells through the inhibition of the Ras-ERK-p21Cip1 pathway. 1552 12

After the transfection of alpha-1,3-fucosyltransferase (FucT)-VII cDNA into H7721 human hepatocarcinoma cells, the protein expression of some cyclins, cyclin-dependent kinases (CDKs) and cyclin-dependent kinase inhibitors (CDIs) p16INK4 and p21waf1/Cip1 were unchanged. However, CDI p27Kip1 protein, both the total amount and the amount that bound to CDK2, but not its mRNA, was significantly reduced. The de-inhibited CDK2 stimulated the phosphorylation of retinoblastoma (Rb) protein and facilitated the G1/S transition and growth rate of the cells. The decrease of p27Kip1 protein, the increase of CDK2 activity and Rb phosphorylation, as well as the cell growth and percentage of S phase cells were correlated to the increased amount of cell surface sialyl Lewis X (SLe(x)) antigen in cells with different alpha-1,3-FucT-VII expression. The reduction in p27Kip1 and the difference in its expression among different transfected cells were blocked by the SLe(x) antibody KM93 in a dose-dependent manner, indicating that p27Kip1 expression was influenced by alpha-1,3-FucT-VII and its product SLe(x). The MEK/MAPK signaling pathway was more important than the PI-3K pathway in the regulation of p27Kip1 expression.
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PMID:alpha-1,3-Fucosyltransferase-VII stimulates the growth of hepatocarcinoma cells via the cyclin-dependent kinase inhibitor p27Kip1. 1566 88

The tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) is a well-known activator of both protein kinase C (PKC) and mitogen activated protein kinase (MAPK) signal cascade triggering a lot of effects in many non-tumor and tumor cells. We have reported activation of PKCalpha isozyme was specifically required for TPA-induced ERK (MAPK) signaling that mediated gene expressions of the CDK inhibitors p15(INK4b) and p16 (INK4a) leading to growth inhibition of hepatoma cell HepG2. We further investigated the upstream signal molecule linking PKCalpha to ERK. In the Ras activation assay, HepG2 cell exhibited substantial amount of Ras activity. Treatment of the cell with 50nM TPA for 10min slightly inhibited Ras activity by about 10-20%. Pretreatment of the cell with 10microM manumycin A, which abolish basal Ras activity, did not prevent TPA-triggered ERK phosphorylation. Immunoprecipitation coupled with kinase assay demonstrated that MEK-1 activity was strongly induced by treatment of TPA for 5-30min in HepG2. In contrast, c-Raf activity was not significantly induced by TPA within 5-15min. Consistently, Western blot of Phospho(ser-218/222)-MEK demonstrated that phosphorylation of MEK-1 was greatly induced by 50nM TPA, which can be prevented by the PKC inhibitor Bisindolylmaleimides II. Moreover, pretreatment of the MEK1/2 inhibitor, but not c-Raf inhibitor prevented the TPA-induced ERK phosphorylation, gene expression of p15(INK4b) and p16 (INK4a) and growth inhibition of HepG2. In addition, transient expression of a dominant negative Raf mutant in HepG2 did not prevent these effects of TPA. Constitutive expression of an active PKCalpha mutant in HepG2 enhanced phosphorylation of both MEK and ERK accompanied with induction of gene expression of p16(INK4a) and growth inhibition of HepG2. In contrast, Ras and Raf activity were not increased by expression of active PKCalpha. Taken together, we conclude that PKCalpha may activate MEK, independently of Raf and Ras, to trigger sustained ERK (MAPK) signaling and cell cycle arrest of HepG2 induced by TPA.
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PMID:Protein kinase C alpha trigger Ras and Raf-independent MEK/ERK activation for TPA-induced growth inhibition of human hepatoma cell HepG2. 1616 61

The basis of oncogenesis underlies the modification of the control of the cell cycle, which leads to disturb balance between proliferation and apoptosis. The MDM2 protein suppresses the ability of p53 to activate genes responsible for repairing or apoptosis, but also promotes p53 degradation by ubiquitination. MDM2 inhibits tumor suppressor property of pRb, by releasing E2F1, which stimulates DNA synthesis in S-phase. MDM2 influences on the neuronal and muscle differentiation. Quantity and stability of the MDM2 protein is regulated by p73, p53, TSG101, p14ARF and Ras-Raf-MEK-ERK pathway. Changes of the level of the MDM2 can disturb control of cell cycle and contribute to oncogenesis.
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PMID:[Significance of MDM2 protein in the cell cycle]. 1620 41

In primary mouse embryo fibroblasts (MEFs), oncogenic Ras induces growth arrest via Raf/MEK/extracellular signal-regulated kinase (ERK)-mediated activation of the p19ARF/p53 and INK4/Rb tumor suppressor pathways. Ablation of these same pathways causes spontaneous immortalization in MEFs, and oncogenic transformation by Ras requires ablation of one or both of these pathways. We show that Kinase Suppressor of Ras 1 (KSR1), a molecular scaffold for the Raf/MEK/ERK cascade, is necessary for RasV12-induced senescence, and its disruption enhances primary MEF immortalization. RasV12 failed to induce p53, p19ARF, p16INK4a, and p15INK4b expression in KSR1-/- MEFs and increased proliferation instead of causing growth arrest. Reintroduction of wild-type KSR1, but not a mutated KSR1 construct unable to bind activated ERK, rescued RasV12-induced senescence. On continuous culture, deletion of KSR1 accelerated the establishment of spontaneously immortalized cultures and increased the proportion of cultures escaping replicative crisis. Despite enhancing escape from both RasV12-induced and replicative senescence, however, both primary and immortalized KSR1-/- MEFs are completely resistant to RasV12-induced transformation. These data show that escape from senescence is not necessarily a precursor for oncogenic transformation. Furthermore, these data indicate that KSR1 is a member of a unique class of proteins whose deletion blocks both senescence and transformation.
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PMID:The molecular scaffold kinase suppressor of Ras 1 is a modifier of RasV12-induced and replicative senescence. 1650 97

The INK4 family members p16(INK4a) and p15(INK4b) negatively regulate cell cycle progression by inhibition of cyclin-dependent kinase (CDK) 4/6. Loss of p16(INK4a) functional activity is frequently observed in tumor cells, and is thought to be one of the primary causes of carcinogenesis. In contrast, despite the biochemical similarity to p16(INK4a), the frequency of defects in p15(INK4b) was found to be lower than in p16(INK4a), suggesting that p15(INK4b)-inductive agents may be useful for tumor suppression. Here we report the discovery of a novel pyrido-pyrimidine derivative, JTP-70902, which exhibits p15(INK4b)-inducing activity in p16(INK4a)-inactivated human colon cancer HT-29 cells. JTP-70902 also induced another CDK-inhibitor, p27(KIP1), and downregulated the expression of c-Myc and cyclin D1, resulting in G(1) cell cycle arrest. MEK1/2 was identified by compound-immobilized affinity chromatography as the molecular target of JTP-70902, and this was further confirmed by the inhibitory activity of JTP-70902 against MEK1/2 in kinase assays. JTP-70902 suppressed the growth of most colorectal and some other cancer cell lines in vitro, and showed antitumor activity in an HT-29 xenograft model. However, JTP-70902 did not inhibit the growth of COLO320 DM cells; in these, constitutive extracellular signal-regulated kinase phosphorylation was not detected, and neither p15(INK4b) nor p27(KIP1) induction was observed. Moreover, p15(INK4b)-deficient mouse embryonic fibroblasts were found to be more resistant to the growth-inhibitory effect of JTP-70902 than wild-type mouse embryonic fibroblasts. These findings suggest that JTP-70902 restores CDK inhibitor-mediated cell cycle control by inhibiting MEK1/2 and exerts a potent antitumor effect.
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PMID:Identification of JTP-70902, a p15(INK4b)-inductive compound, as a novel MEK1/2 inhibitor. 1778 72

Hepatocellular carcinoma (HCC) is a frequent neoplasia which still misses a therapeutical gold standard. Recently, new acquisitions in cancerogenesis process evidenced the genetic and epigenetic alterations of genes involved in the different metabolic pathways of liver cancer suggesting that antibodies, small molecules, demethylating agents, etc. specifically acting against molecular target can be utilized alone or in combination in clinical practice. The main altered targets are: cell membrane receptors, in particular tyrosine kinase receptors, factors involved in cell signalling, specifically Wnt/beta-catenin, Ras/Raf/MEK/ERK and PI3K/Akt/mTOR pathways, proteins linked to cell cycle regulation pathway (i.e. p53, p16/INK4, cyclin/cdk complex) or in invasiveness (EMT, TGFbeta) and proteins involved in DNA metabolism. Genetic or epigenetic changes in these molecules have been used in preclinical settings and, some of them also in clinical trials of phase II and III. This scenario opens new avenues for the prevention and the treatment of HCC. In the present review the main metabolic pathways and molecular alterations have been described together with recent advances in molecular and gene therapy.
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PMID:Molecular pathways and related target therapies in liver carcinoma. 1804 79

Embryonic stem cells are immortalized cells whose proliferation rate is comparable to that of carcinogenic cells. To study the expression of embryonic stem cell genes in primary cells, genetic screening was performed by infecting mouse embryonic fibroblasts (MEFs) with a cDNA library from embryonic stem cells. Cold-inducible RNA-binding protein (CIRP) was identified due to its ability to bypass replicative senescence in primary cells. CIRP enhanced extracellular signal-regulated kinase 1 and 2 (ERK1/2) phosphorylation, and treatment with an MEK inhibitor decreased the proliferation caused by CIRP. In contrast to CIRP upregulation, CIRP downregulation decreased cell proliferation and resulted in inhibition of phosphorylated ERK1/2 inhibition. This is the first evidence that ERK1/2 activation, through the same mechanism as that described for a Val12 mutant K-ras to induce premature senescence, is able to bypass senescence in the absence of p16(INK4a), p21(WAF1), and p19(ARF) upregulation. Moreover, these results show that CIRP functions by stimulating general protein synthesis with the involvement of the S6 and 4E-BP1 proteins. The overall effect is an increase in kinase activity of the cyclin D1-CDK4 complex, which is in accordance with the proliferative capacity of CIRP MEFs. Interestingly, CIRP mRNA and protein were upregulated in a subgroup of cancer patients, a finding that may be of relevance for cancer research.
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PMID:Cold-inducible RNA-binding protein bypasses replicative senescence in primary cells through extracellular signal-regulated kinase 1 and 2 activation. 1915 77

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