Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51812 (mitogen-activated protein)
 10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

IL-17 expression is restricted to activated T cells, whereas the IL-17R is expressed in a variety of cell types including intestinal epithelial cells. However, the functional responses of intestinal epithelial cells to stimulation with IL-17 are unknown. Moreover, the signal transduction pathways activated by the IL-17R have not been characterized. IL-17 induced NF-kappa B protein-DNA complexes consisting of p65/p50 heterodimers in the rat intestinal epithelial cell line IEC-6. The induction of NF-kappa B correlated with the induction of CXC and CC chemokine mRNA expression in IEC-6 cells. IL-17 acted in a synergistic fashion with IL-1 beta to induce the NF-kappa B site-dependent CINC promoter. Induction of the CINC promoter by IL-17 in IEC-6 cells was TNF receptor-associated factor-6 (TRAF6), but not TRAF2, dependent. Furthermore, IL-17 induction of the CINC promoter could be inhibited by kinase-negative mutants of NF-kappa B-inducing kinase and I kappa B kinase-alpha. In addition to activation of the NF-kappa B, IL-17 regulated the activities of extracellular regulated kinase, c-Jun N-terminal kinase, and p38 mitogen-activated protein kinases in IEC-6 cells. Whereas the IL-17-mediated activation of extracellular regulated kinase mitogen-activated protein kinases was mediated through ras, c-Jun N-terminal kinase activation was dependent on functional TRAF6. These data suggest that NF-kappa B-inducing kinase serves as the common mediator in the NF-kappa B signaling cascades triggered by IL-17, TNF-alpha, and IL-1 beta in intestinal epithelial cells.
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PMID:NF-kappa B-inducing kinase is a common mediator of IL-17-, TNF-alpha-, and IL-1 beta-induced chemokine promoter activation in intestinal epithelial cells. 1022 9

Insulin-like growth factor binding protein-3 (IGFBP-3) inhibits proliferation and promotes apoptosis in normal and malignant cells. In MCF-10A human mammary epithelial cells, 30 ng/ml human plasma-derived IGFBP-3 inhibited DNA synthesis to 70% of control. This inhibition appeared IGF-independent, since neither an IGF-receptor antibody nor IGFBP-6 inhibited DNA synthesis. Malignant transformation of MCF-10A cells by transfection with Ha-ras oncogene abolished the inhibitory effect of IGFBP-3, concomitant with an increase in IGFBP-3 secretion and cell association of approximately 60 and 300%, respectively. When mitogen-activated protein (MAP) kinase activation was partially inhibited using PD 98059, IGFBP-3 sensitivity in ras-transfected cells was restored, with a significant inhibitory effect at 10 ng/ml IGFBP-3. PD 98059 had no effect on IGFBP-3 secretion or cell association by ras-transfected or parent MCF-10A cells. Hs578T, a tumor-derived breast cancer cell line that expresses activated Ha-ras, similarly has a high level of secreted and cell-associated IGFBP-3. In the absence of PD 98059, DNA synthesis by Hs578T cells was reduced to 70% of control by 1000 ng/ml IGFBP-3. PD 98059 increased sensitivity to IGFBP-3, so that this level of inhibition was achieved with 100 ng/ml IGFBP-3. These results suggest that MAP kinase activation by oncogenic ras expression causes IGFBP-3 resistance, a possible factor in the dysregulation of breast cancer cell growth.
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PMID:Oncogenic ras causes resistance to the growth inhibitor insulin-like growth factor binding protein-3 (IGFBP-3) in breast cancer cells. 1034 1

Activating mutations within the K-ras gene have been found in up to 90% of pancreatic carcinomas. Although multiple Ras effector pathways have been identified, the Raf protein kinases which are upstream regulators of the mitogen-activated protein kinases (MAPK/Erk) are believed to be the primary mitogenic effectors. Constitutive upregulation of this pathway by oncogenic ras is thought to promote cellular transformation. To explore the biological effects of mutated K-ras, we analyzed the Ras signaling pathway in a panel of cell lines derived from human pancreatic carcinomas. We found that despite high levels of Ras-GTP in each cell line expressing mutant K-ras, elevated levels of active Erk1 and Erk2 were not detectable under conditions of exponential growth or serum-starvation. Depending upon the cell line, the block in Erk signaling was observed to occur at either the level of Raf or Erk. Increased levels of active Erk1 and Erk2 were detected in only 2 out of 10 normal tissue-matched primary pancreatic tumors with mutated K-ras. Our results suggest that Erk signaling is not aberrantly upregulated in pancreatic cancers containing oncogenic K-ras mutations. The lack of Erk activation observed in both cell lines and primary tumor tissue suggests that constitutive Erk activation may not be required for tumor maintenance or progression in K-ras transformed pancreatic cells. We hypothesize that other Ras-dependent signaling pathways or an unidentified Raf/Mek-dependent pathway may be important for carcinogenesis in the pancreas. These findings may have important implications for drug treatment strategies which currently target the MAP kinase branch of the Ras signaling pathway.
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PMID:Lack of elevated MAP kinase (Erk) activity in pancreatic carcinomas despite oncogenic K-ras expression. 1040 37

The A(2A)-adenosine receptor, a prototypical G(s)-coupled receptor, activates mitogen-activated protein (MAP) kinase in a manner independent of cAMP in primary human endothelial cells. In order to delineate signaling pathways that link the receptor to the regulation of MAP kinase, the human A(2A) receptor was heterologously expressed in Chinese hamster ovary (CHO) and HEK293 cells. In both cell lines, A(2A) agonist-mediated cAMP accumulation was accompanied by activation of the small G protein rap1. However, rap1 mediates A(2A) receptor-dependent activation of MAP kinase only in CHO cells, the signaling cascade being composed of G(s), adenylyl cyclase, rap1, and the p68 isoform of B-raf. This isoform was absent in HEK293 cells. Contrary to CHO cells, in HEK293 cells activation of MAP kinase by A(2A) agonists was not mimicked by 8-bromo-cAMP, was independent of Galpha(s), and was associated with activation of p21(ras). Accordingly, overexpression of the inactive S17N mutant of p21(ras) and of a dominant negative version of mSos (the exchange factor of p21(ras)) blocked MAP kinase stimulation by the A(2A) receptor in HEK 293 but not in CHO cells. In spite of the close homology between p21(ras) and rap1, the S17N mutant of rap1 was not dominant negative because (i) overexpression of rap1(S17N) failed to inhibit A(2A) receptor-dependent MAP kinase activation, (ii) rap1(S17N) was recovered in the active form with a GST fusion protein comprising the rap1-binding domain of ralGDS after A(2A) receptor activation, and (iii) A(2A) agonists promoted the association of rap1(S17N) with the 68-kDa isoform of B-raf in CHO cells. We conclude that the A(2A) receptor has the capacity two activate MAP kinase via at least two signaling pathways, which depend on two distinct small G proteins, namely p21(ras) and rap1. Our observations also show that the S17N version of rap1 cannot be assumed a priori to act as a dominant negative interfering mutant.
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PMID:Activation of mitogen-activated protein kinase by the A(2A)-adenosine receptor via a rap1-dependent and via a p21(ras)-dependent pathway. 1046 24

Cripto-1 (CR-1), a member of the epidermal growth factor-CFC peptide family, activates the ras/raf/mitogen-activated protein/extracellular signal-regulated kinase/mitogen-activated protein kinase pathway. In the present study, the role of CR-1 in the phosphatidylinositol 3'-kinase (PI3K)/AKT (protein kinase B)/glycogen synthase kinase 3beta (GSK-3beta)-dependent signaling pathway was evaluated in human SiHa cervical carcinoma cells. Our data demonstrate that CR-1 can enhance the tyrosine phosphorylation of the p85 regulatory subunit of PI3K and transiently induce the phosphorylation of AKT in a time- and dose-dependent manner. In addition, CR-1 was found to induce the phosphorylation of GSK-3beta. Phosphorylation of AKT and GSK-3beta by CR-1 can be blocked by LY294002, a specific inhibitor of PI3K, thus leading to apoptosis. Finally, the apoptotic effect of LY294002 can be partially rescued by exogenous CR-1. In summary, our data suggest that human CR-1 may function as a survival factor through a PI3K-dependent signaling pathway involving AKT and GSK-3beta.
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PMID:Cripto-1 induces phosphatidylinositol 3'-kinase-dependent phosphorylation of AKT and glycogen synthase kinase 3beta in human cervical carcinoma cells. 1049 95

The present report delineates the critical pathway in the G(1) phase involved in downregulation of p27(Kip1), a cyclin-dependent kinase inhibitor, which plays a pivotal role in controlling entry into the S phase of the cell cycle. In resting CCL39 fibroblasts and IEC-6 intestinal epithelial cells, protein levels of p27(Kip1) were elevated but dramatically decreased on serum stimulation, along with hyperphosphorylation of pRb and increased CDK2 activity. In both cell types, expression of ras resulted in an increase of basal and serum-stimulated E2F-dependent transcriptional activity and a reduction in p27(Kip1) protein levels as well. The role of the mitogen-activated protein (MAP) kinase cascade in p27(Kip1) reduction and S phase reentry was reinforced by the blockades of serum-induced E2F-dependent transcriptional activity and p27(Kip1) downregulation with the MKK-1/2 inhibitor PD-98059. In both cell lines, downregulation of p27(Kip1) was associated with a repression of its synthesis, an event mediated by the p42/p44 MAP kinase pathway. Using an antisense approach, we demonstrated that p27(Kip1) may control cell cycle exit in both cell types. These data indicate that activation of the MAP kinase cascade is required for S phase entry and p27(Kip1) downregulation in fibroblasts and epithelial cells.
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PMID:MAP kinase cascade is required for p27 downregulation and S phase entry in fibroblasts and epithelial cells. 1051 95

The mitogen-activated protein (MAP) kinase pathway is a critical regulator of cell growth, migration, and differentiation. Growth factor activation of MAP kinase in NIH 3T3 cells is strongly dependent upon integrin-mediated adhesion, an effect that contributes to the anchorage dependence of normal cell growth. We now show that expression of constructs that constitutively activate focal adhesion kinase (FAK) rescued the defect in serum activation of MAP kinase in suspended cells without directly activating MAP kinase. Dominant negative FAK blocked both the rescue of suspended cells by the activated construct and the serum activation of MAP kinase in adherent cells. MAP kinase in FAK(-/)- mouse embryo fibroblasts was adhesion-insensitive, and reexpression of FAK restored its adhesion dependence. MAP kinase activity in ras-transformed cells is still decreased in suspension, but expression of constructs that constitutively activate FAK enhanced their anchorage-independent growth without increasing adherent growth. V-src, which activates both Ras and FAK, induced MAP kinase activation that was insensitive to loss of adhesion, and that was blocked by a dominant negative FAK. These results demonstrate that FAK mediates the integrin requirement for serum activation of MAP kinase in normal cells, and that bypassing this mechanism contributes to anchorage-independent growth in transformed cells.
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PMID:Focal adhesion kinase mediates the integrin signaling requirement for growth factor activation of MAP kinase. 1054 4

A possible link between oncogenes and tumor angiogenesis has been implicated by the finding that expression of various oncogenes, particularly mutant ras, can lead to a marked induction of a potent paracrine stimulator of angiogenesis, vascular endothelial growth factor (VEGF). We sought to determine how oncogenic ras induction of VEGF is mediated at the molecular level and whether the mechanisms involved differ fundamentally between transformed epithelial cells and fibroblasts. Our results suggest that in a subline (called RAS-3) of immortalized nontumorigenic rat intestinal epithelial cells (IEC-18) that acquired a tumorigenic phenotype upon transfection of mutant ras, up-regulation of VEGF occurs in the absence of an autocrine growth factor circuit. The expression of VEGF mRNA and protein by RAS-3 cells was strongly suppressed in the presence of LY294002, an inhibitor of phosphatidylinositol 3'-kinase, but remained largely unaffected in the same cells treated with an inhibitor (PD98059) of mitogen-activated protein/extracellular signal-regulated kinase kinase 1 (MKK/MEK-1). This is consistent with the observation that overexpression of a constitutively activated mutant of MEK-1 (AN3/ S222D) in the parental IEC-18 cells did not result in up-regulation of VEGF production. The impact of mutant ras on VEGF expression was also significantly amplified at high cell density, conditions under which RAS-3 cells became less sensitive to LY294002-induced VEGF down-regulation. In marked contrast to cells of epithelial origin, ras-transformed murine fibroblasts (3T3RAS) up-regulated VEGF in a manner that was strongly inhibitable by MEK-1 blockade (ie. treatment with PD98059), whereas these cells were relatively unaffected by treatment with the phosphatidylinositol 3'-kinase inhibitor LY294002. In addition, VEGF was up-regulated by 2-3-fold in NIH3T3 cells overexpressing mutant MEK-1. Collectively, the data suggest that the stimulatory effect of mutant ras on VEGF expression is executed in a nonautocrine and cell type-dependent manner and that it can be significantly exacerbated by physiological/ environmental influences such as high cell density.
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PMID:Oncogenes and tumor angiogenesis: differential modes of vascular endothelial growth factor up-regulation in ras-transformed epithelial cells and fibroblasts. 1066 5

p38, a subfamily of the mitogen-activated protein kinases (MAPKs), is a crucial signal transducer between a variety of extracellular stimuli and gene expression in mammalian cells. This kinase is activated in cultured cells stimulated by heat shock, osmotic stress, and proinflammatory cytokines, but a similar activation of p38 MAPKs in vascular smooth muscle cells (SMCs) stimulated by mechanical stress has yet to be studied. We studied signal pathways leading to time- and strength-dependent p38 activation in rat SMCs in response to cyclic strain stress. p38 phosphorylation in stressed SMCs showed maximal activation at 10 minutes. This activation was significantly inhibited by pretreatment of the SMCs with pertussis toxin, a G-protein antagonist, and enhanced by treatment with suramin, a growth factor receptor antagonist, but opposite effects in the activation of extracellular signal-regulated kinases stimulated by mechanical forces were found. p38 activation was markedly reduced in stressed SMCs after protein kinase C depletion. Interestingly, SMC lines stably expressing dominant-negative ras (ras N17) or rac1 (rac1 N17) almost abolished p38 phosphorylation induced by cyclic strain stress. When p38 activation was inhibited by the specific inhibitor SB 202190, SMC migration, determined in a Boyden chamber in response to stimulation with platelet-derived growth factor-BB, and SMC proliferation, stimulated by cyclic strain stress, were abrogated. Thus, we provide the first evidence that cyclic strain stress rapidly activates p38 MAPKs via activation of protein kinase C ras/rac signal pathways, suggesting that p38 MAPKs are important signal transducers mediating the mechanical stress-induced cell responses essential for SMC migration and proliferation.
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PMID:Ras/Rac-Dependent activation of p38 mitogen-activated protein kinases in smooth muscle cells stimulated by cyclic strain stress 1071 20

The current understanding of cellular responses to ionizing radiation fuses traditional radiobiological concepts with recent insight into underlying molecular mechanisms. Cell cycle arrest, induction of specific cascades of genes, and activation of DNA repair mechanisms have been reported after radiation exposure. Of particular importance is the mitogen-activated protein (MAP) kinase signaling pathway, in which the ras and raf oncogenes participate. Both of these genes have been implicated in the cellular resistance to killing by ionizing radiation. Furthermore, regulated NF-gammaB transcriptional activation may be important for the pleiotrophic responses of cells to ionizing radiation. Disruption of this signaling cascade may contribute to the radiation sensitivity syndrome seen in ataxia telangiectasia. In this review, these pathways are consolidated into ionizing radiation signal transduction pathways that lead from the cell membrane/cytosol to the nuclear DNA.
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PMID:Signal Transduction and Cellular Responses to Ionizing Radiation. 1071 84


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