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)

The alpha 5 alpha 1 integrin, a fibronectin receptor, has been implicated in the control of cell growth and the regulation of gene expression. We report that disruption of ligation between alpha 5 alpha 1 and fibronectin by integrin alpha 5 subunit or fibronectin monoclonal antibodies stimulated DNA synthesis in growth-arrested FET human colon carcinoma cells. This stimulation only occurred when monoclonal antibody was added in the early G1 phase of the cell cycle after release from quiescence by fresh medium. Stimulation of DNA synthesis by alpha 5 or fibronectin antibody was concentration- and time-dependent. FET cells expressed alpha 4 beta 1 integrin (another fibronectin receptor); however, addition of anti-human integrin alpha 4 monoclonal antibody had no effect on DNA synthesis. Treatment with alpha 5 monoclonal antibody led to a marked increase in the expression of CDK4 in G1 phase of the cell cycle and consequently increased the phosphorylation of retinoblastoma protein. alpha 5 monoclonal antibody treatment increased both cyclin A- and cyclin E-associated kinase activity which was accompanied by increased protein levels of CDK2 and cyclin A. Western blotting of immunoprecipitates demonstrated increased CDK2-cyclin E and CDK2-cyclin A complexes in cells treated with alpha 5 monoclonal antibody. Furthermore, disruption of alpha 5 alpha 1/fibronectin ligation activated mitogen-activated protein kinase p44 and p42 (extracellular signal-regulated kinase 1 and 2). Pretreatment of the cells with a specific inhibitor of MEK-1, PD98059, blocked the alpha 5 monoclonal antibody-induced mitogen-activated protein kinase activity. In addition PD98059 prevented alpha 5 monoclonal antibody-induced DNA synthesis. Since alpha 5 alpha 1 ligation to fibronectin is associated with decreased growth parameters, our results indicate that ligation of alpha 5 alpha 1 integrin to fibronectin results in suppressed mitogen-activated protein kinase activity which in turn inhibits cyclin-dependent kinase activity in growth-arrested cells.
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PMID:Disruption of fibronectin binding to the alpha 5 beta 1 integrin stimulates the expression of cyclin-dependent kinases and DNA synthesis through activation of extracellular signal-regulated kinase. 943 Jul 10

A constitutively active form of mitogen-activated protein kinase kinase (MEK1) was synthesized under control of a zinc-inducible promoter in NIH 3T3 fibroblasts. Zinc treatment of serum-starved cells activated extracellular signal-regulated protein kinases (ERKs) and induced expression of cyclin D1. Newly synthesized cyclin D1 assembled with cyclin-dependent kinase-4 (CDK4) to form holoenzyme complexes that phosphorylated the retinoblastoma protein inefficiently. Activation of the MEK1/ERK pathway neither triggered degradation of the CDK inhibitor kinase inhibitory protein-1 (p27(Kip1)) nor led to activation of cyclin E- and A-dependent CDK2, and such cells did not enter the DNA synthetic (S) phase of the cell division cycle. In contrast, zinc induction of active MEK1 in cells also engineered to ectopically overexpress cyclin D1 and CDK4 subunits generated levels of cyclin D-dependent retinoblastoma protein kinase activity approximating those achieved in cells stimulated by serum. In this setting, p27(Kip1) was mobilized into complexes containing cyclin D1; cyclin E- and A-dependent CDK2 complexes were activated; and serum-starved cells entered S phase. Thus, although the activity of p27(Kip1) normally is canceled through a serum-dependent degradative process, overexpressed cyclin D1-CDK complexes sequestered p27(Kip1) and reduced the effective inhibitory threshold through a stoichiometric mechanism. A fraction of these cells completed S phase and divided, but they were unable to continuously proliferate, indicating that other serum-responsive factors ultimately became rate limiting for cell cycle progression. Therefore, the MEK/ERK pathway not only acts transcriptionally to induce the cyclin D1 gene but functions posttranslationally to regulate cyclin D1 assembly with CDK4 and to thereby help cancel p27(Kip1)-mediated inhibition.
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PMID:Assembly of cyclin D-dependent kinase and titration of p27Kip1 regulated by mitogen-activated protein kinase kinase (MEK1). 944 90

Members of the erbB family of receptor tyrosine kinases are commonly overexpressed in human breast cancer. However, the relative contribution of particular signalling pathways activated downstream of these receptors to the mitogenic response of transformed breast epithelial cells remains poorly characterized. Administration of heregulin-beta2 (HRG), a ligand for erbB3 and erbB4, to growth arrested T-47D human breast cancer cells leads to activation of both the PI3-kinase and MAP kinase signalling pathways and potent stimulation of cell cycle progression. Specific inhibitors were used to assess the role of these pathways in HRG-induced mitogenesis and to identify underlying mechanisms in terms of regulation of gene expression. Treatment with the MEK inhibitor PD98059 led to a complete block of HRG-induced entry into S-phase, whilst administration of the PI3-kinase inhibitor wortmannin resulted in only modest inhibition. In addition, administration of PD98059 8 h after HRG was equipotent with simultaneous administration in inhibiting entry into S-phase. However, delaying addition for 14-16 h after HRG, when the cells were entering S-phase, was without effect. HRG stimulation led to sequential induction of c-myc, cyclin D1, cyclin E and cyclin A gene expression and hyperphosphorylation of the retinoblastoma protein pRB. p21 (WAF1/CIP1/SDI1) gene expression was rapidly induced by HRG, but significant changes in p27 (KIP1) protein levels were not detected. Preincubation with PD98059 blocked the HRG-dependent induction of cyclin D1 mRNA, p21 and c-Myc protein and pRB phosphorylation. These findings demonstrate that MEK activation is critical to HRG-induced S-phase entry in these cells whilst PI3-kinase plays a minor role. Moreover, these data are compatible with HRG-induced activation of MEK being critical for a mid-G1 transition point and implicate c-myc and cyclin D1 as key targets of the MAP kinase pathway involved in this response.
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PMID:Inhibition of the MAP kinase cascade blocks heregulin-induced cell cycle progression in T-47D human breast cancer cells. 965 48

Activation of T cells via the TCR and other costimulatory receptors triggers a number of signaling cascades. Among them, the Ras-activated Raf-mitogen-activated protein/extracellular signal-related kinase (ERK) kinase (MEK)-ERK signaling cascade has been demonstrated to be crucial for both T cell development and activation. It has previously been demonstrated that high doses of Ag or anti-CD3 mAb are able to induce in T cells a nonresponsive state to subsequent treatment with cytokines such as IL-2. The precise biochemical mechanisms underlying this effect are not fully characterized. In this study, we demonstrate that cytokine nonresponsiveness is accompanied by the induction of the cyclin-dependent kinase inhibitor p21Cip1 that is mediated, at least in part, by the activation of the Raf-MEK-ERK pathway. Furthermore, we demonstrate that selective activation of the Raf-MEK-ERK signaling pathway in T cells is sufficient to induce cytokine nonresponsiveness in both a T cell clone and naive primary T cells. In this case, nonresponsiveness is accompanied by the induction of p21Cip1 and the prevention of p27Kip1 down-regulation, leading to inhibition of cyclin E/cyclin-dependent kinase 2 activity. These data suggest that anti-CD3 mAb-induced cytokine nonresponsiveness may be a consequence of hyperactivation of the Raf-MEK-ERK pathway, leading to alterations in the expression of key cell cycle regulators. These observations may provide a novel insight into the mechanisms of induction of peripheral tolerance.
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PMID:Sustained activation of the raf-MEK-ERK pathway elicits cytokine unresponsiveness in T cells. 1057 Feb 62

The CSF-1 receptor (CSF-1R) is expressed in >50% of human breast cancers. To investigate the consequence of CSF-1R expression, hormone-dependent human breast cancer cell lines, MCF-7 and T-47D, were transfected with CSF-1R. Unexpectedly, CSF-1 substantially inhibited estradiol (E2) and insulin-dependent proliferation of MCF-7 transfectants (MCF-7fms) and prevented cyclin E/cdk2 and cyclin A/cdk2 activation, consistent with a G1 arrest. In contrast, CSF-1 increased DNA synthesis in T-47D transfectants (T-47Dfms) alone and with E2 or insulin. In response to CSF-1, there was a marked and sustained upregulation of the cyclin-dependent kinase inhibitor, p21Waf1/Cip1, in MCF-7fms but not T-47Dfms. CSF-1 also markedly upregulated cyclin D1 in MCF-7fms. The coordinate increase in cyclin D1 and p21 had the effect of decreasing the specific but not absolute activity of cyclin D1/cdk4. p53 was not involved since CSF-1 induction of p21 was unaffected by dominant-negative p53 expression. ERK activation by CSF-1 was robust and sustained in MCF-7fms and to a much lesser extent in T-47Dfms. Using pharmacological and transient transfection approaches, we showed that ERK activation was necessary and sufficient for p21 induction in MCF-7fms. Moreover, activated MEK inhibited E2-stimulated cdk2 activity. Our findings indicate that the consequence of CSF-1R-mediated signals in human breast cancer cells is dependent on the genetic background of the particular tumor.
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PMID:CSF-1 activates MAPK-dependent and p53-independent pathways to induce growth arrest of hormone-dependent human breast cancer cells. 1060 7

Vascular endothelial cells are unique in that they exit from the cell cycle when they come into contact with each other. Although the phenomenon is called "contact inhibition," little is known about the cellular mechanisms involved. Here we show that the phosphatase inhibitor sodium orthovanadate (SOV) induced the reentry of contact-inhibited human umbilical vascular endothelial cells (HUVECs) into the cell cycle and that reentry was associated with activation of the extracellular signal-regulated kinase (ERK) and phosphatidylinositol 3-kinase (PI 3-K)/Akt pathways. SOV stimulated [(3)H]thymidine uptake of contact-inhibited HUVECs in a time- and dose-dependent manner. SOV-induced increase in [(3)H]thymidine uptake was significantly inhibited by the mitogen-activated protein kinase kinase inhibitor PD98059 and by the PI 3-K inhibitor LY294002. SOV also stimulated the expression of cyclin D1, cyclin E, and cyclin A, and the activity of CDK2 kinase, whereas it decreased the expression of p27(kip1). In marked contrast, growth media alone did not induce these changes. Furthermore, these SOV-induced changes were abolished by pretreatment with PD98059 and LY294002. SOV stimulated phosphorylation of ERK and Akt in contact-inhibited HUVECs, while growth media alone did not. This phosphorylation was associated with inhibition of phosphatase activity in the cells. Finally, overexpression of high cell density-enhanced protein tyrosine phosphatase 1 inhibited c-fos and cyclin A promoter activity. Taken together, our results suggest that in contact-inhibited HUVECs, increased phosphatase activity suppressed the ERK and PI 3-K/Akt pathways, resulting in exit from the cell cycle by down-regulation of cyclin D1, cyclin E, and cyclin A and by up-regulation of p27(kip1).
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PMID:Reentry into the cell cycle of contact-inhibited vascular endothelial cells by a phosphatase inhibitor. Possible involvement of extracellular signal-regulated kinase and phosphatidylinositol 3-kinase. 1065 60

The elements of the cell cycle regulatory machinery activated by the oncogenic form of Ras, [Lys61]N-Ras, have been analysed in NIH3T3 cells. We demonstrate that [Lys61]N-Ras expression is able to induce full cdk4 activation. As already reported, oncogenic Ras expression was sufficient to induce cyclin D1 and p21cip1 expression and their association with cdk4. Furthermore, serum-starved [Lys61]N-Ras NIH3T3 cells showed nuclear accumulation of cyclin D1 and cdk4 not observed in serum-starved NIH3T3 cells. This accumulation of cdk4 into the cell nucleus observed in serum-starved [Lys61]N-Ras NIH3T3 cells was inhibited by a microinjection of neutralizing anti-Ras antibodies. Thus, active [Lys61]N-Ras was a sufficient signal to induce nuclear accumulation of cyclin D1/cdk4, leading to its full activation. Transfection of [Lys61]N-Ras NIH3T3 cells with an inactive form of MEK or their treatment with PD 98059, showed that nuclear translocation of cdk4 was MEK dependent. Interestingly, cells constitutively expressing [Lys61]N-Ras did not inactivate pRb and did not proliferate in the absence of serum. This may be due to the fact that although association of cdk2 with cyclin E and the translocation of those complexes to the nucleus were achieved, [Lys61]N-Ras expression was not sufficient to induce cdk2 activation. The high levels of p27(kip1) that were found in cyclin E/cdk2 complexes may be responsible for the inability of oncogenic Ras to activate this kinase. In consequence, oncogenic alterations that lead to a decrease in p27kip1 bound to cyclin E may cooperate with Ras to induce full cdk2 activation, pRb inactivation and thus cell proliferation.
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PMID:[Lys61]N-Ras is able to induce full activation and nuclear accumulation of Cdk4 in NIH3T3 cells. 1069 14

Cell proliferation is controlled by cdk2 which in association with cyclin E and A regulates G1/S transition and S phase progression. cdk2 activation is dependent on its localization in the nucleus where regulatory mediators are found. We report that activation of cdk2 is associated with the formation of cdk2/MAP Kinase complexes. cdk2 associates with both inactive and activated MAP Kinase. Prevention of MAP Kinase activation by the MEK inhibitor PD98059 inhibits both activation and nuclear localization of cdk2 and S phase entry. These findings indicate that the nuclear translocation of cdk2 is associated with the formation of molecular complexes containing active MAP Kinase and is dependent on MAP Kinase activation. Oncogene (2000) 19, 4184 - 4189
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PMID:Cdk2 associates with MAP kinase in vivo and its nuclear translocation is dependent on MAP kinase activation in IL-2-dependent Kit 225 T lymphocytes. 1096 81

Constitutive activation of the ERK pathway is associated with the neoplastic phenotype of a relatively large number of human tumor cells. Blockade of the ERK pathway by treatment with PD98059, a specific inhibitor of mitogen-activated protein (MAP) kinase/ERK kinase (MEK), completely suppressed the growth of tumor cells in which the pathway is constitutively activated (RPMI-SE and HT1080 cells). Consistent with its prominent antiproliferative effect, PD98059 induced a remarkable G(1) cell cycle arrest, followed by a modest apoptotic response, in these tumor cells. Selective up-regulation of p27(Kip1) was observed after PD98059 treatment of RPMI-SE and HT1080 cells. Overexpression in RPMI-SE cells of either a kinase-negative form of MEK1 or wild-type MAP kinase phosphatase-3 also induced up-regulation of p27(Kip1). The up-regulation of p27(Kip1) correlated with increased association of p27(Kip1) with cyclin E-cyclin-dependent kinase (CDK) 2 complexes, a concomitant inhibition of cyclin E-CDK2 kinase activity, and a consequent decrease in the phosphorylation state of retinoblastoma protein, which would culminate in the marked G(1) cell cycle arrest observed in these tumor cells. These results suggest that the complete growth suppression that follows specific blockade of the ERK pathway in tumor cells in which the pathway is constitutively activated is mediated by up-regulation of p27(Kip1).
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PMID:Blockade of the extracellular signal-regulated kinase pathway induces marked G1 cell cycle arrest and apoptosis in tumor cells in which the pathway is constitutively activated: up-regulation of p27(Kip1). 1103 Dec 57

Activation of cyclin-dependent kinase 2 (CDK2)-cyclin E in the late G(1) phase of the cell cycle is important for transit into S phase. In Chinese hamster embryonic fibroblasts (IIC9) phosphatidylinositol 3-kinase and ERK regulate alpha-thrombin-induced G(1) transit by their effects on cyclin D1 protein accumulation (Phillips-Mason, P. J., Raben, D. M., and Baldassare, J. J. (2000) J. Biol. Chem. 275, 18046-18053). Here, we show that ERK also affects CDK2-cyclin E activation by regulating the subcellular localization of CDK2. Ectopic expression of cyclin E rescues the inhibition of alpha-thrombin-induced activation of CDK2-cyclin E and transit into S phase brought about by treatment of IIC9 cells with LY29004, a selective inhibitor of mitogen stimulation of phosphatidylinositol 3-kinase activity. However, cyclin E expression is ineffectual in rescuing these effects when ERK activation is blocked by treatment with PD98059, a selective inhibitor of MEK activation of ERK. Investigation into the mechanistic reasons for this difference found the following. 1) Although treatment with LY29004 inhibits alpha-thrombin-stimulated nuclear localization, ectopic expression of cyclin E rescues CDK2 translocation. 2) In contrast to treatment with LY29004, ectopic expression of cyclin E fails to restore alpha-thrombin-stimulated nuclear CDK2 translocation in IIC9 cells treated with PD98059. 3) CDK2-cyclin E complexes are not affected by treatment with either inhibitor. These data indicate that, in addition to its effects on cyclin D1 expression, ERK activity is an important controller of the translocation of CDK2 into the nucleus where it is activated.
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PMID:Cyclin-dependent kinase 2 nucleocytoplasmic translocation is regulated by extracellular regulated kinase. 1130 35

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