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)

In the Madin-Darby canine kidney epithelial cell line, the proteins occludin and ZO-1 are structural components of the tight junctions that seal the paracellular spaces between the cells and contribute to the epithelial barrier function. In Ras-transformed Madin-Darby canine kidney cells, occludin, claudin-1, and ZO-1 were absent from cell-cell contacts but were present in the cytoplasm, and the adherens junction protein E-cadherin was weakly expressed. After treatment of the Ras-transformed cells with the mitogen-activated protein kinase kinase (MEK1) inhibitor PD98059, which blocks the activation of mitogen-activated protein kinase (MAPK), occludin, claudin-1, and ZO-1 were recruited to the cell membrane, tight junctions were assembled, and E-cadherin protein expression was induced. Although it is generally believed that E-cadherin-mediated cell-cell adhesion is required for tight junction assembly, the recruitment of occludin to the cell-cell contact area and the restoration of epithelial cell morphology preceded the appearance of E-cadherin at cell-cell contacts. Both electron microscopy and a fourfold increase in the transepithelial electrical resistance indicated the formation of functional tight junctions after MEK1 inhibition. Moreover, inhibition of MAPK activity stabilized occludin and ZO-1 by differentially increasing their half-lives. We also found that during the process of tight junction assembly after MEK1 inhibition, tyrosine phosphorylation of occludin and ZO-1, but not claudin-1, increased significantly. Our study demonstrates that down-regulation of the MAPK signaling pathway causes the restoration of epithelial cell morphology and the assembly of tight junctions in Ras-transformed epithelial cells and that tyrosine phosphorylation of occludin and ZO-1 may play a role in some aspects of tight junction formation.
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PMID:Restoration of tight junction structure and barrier function by down-regulation of the mitogen-activated protein kinase pathway in ras-transformed Madin-Darby canine kidney cells. 1071 4

Enhancement of tumor cell growth and invasiveness by transforming growth factor-beta (TGF-beta) requires constitutive activation of the ras/MAPK pathway. Here we have investigated how MEK activation by epidermal growth factor (EGF) influences the response of fully differentiated and growth-arrested pig thyroid epithelial cells in primary culture to TGF-beta1. The epithelial tightness was maintained after single stimulation with EGF or TGF-beta1 (both 10 ng/ml) for 48 hours. In contrast, co-stimulation abolished the transepithelial resistance and increased the paracellular flux of [(3)H]inulin within 24 hours. Reduced levels of the tight junction proteins claudin-1 and occludin accompanied the loss of barrier function. N-cadherin, expressed only in few cells of untreated or single-stimulated cultures, was at the same time increased 30-fold and co-localised with E-cadherin at adherens junctions in all cells. After 48 hours of co-stimulation, both E- and N-cadherin were downregulated and the cells attained a fibroblast-like morphology and formed multilayers. TGF-beta1 only partially inhibited EGF-induced Erk phosphorylation. The MEK inhibitor U0126 prevented residual Erk phosphorylation and abrogated the synergistic responses to TGF-beta1 and EGF. The observations indicate that concomitant growth factor-induced MEK activation is necessary for TGF-beta1 to convert normal thyroid epithelial cells to a mesenchymal phenotype.
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PMID:Transforming growth factor-beta and epidermal growth factor synergistically stimulate epithelial to mesenchymal transition (EMT) through a MEK-dependent mechanism in primary cultured pig thyrocytes. 1237 55

Constitutive activation of Ras or Ras-mediated signaling pathways is one of the initial steps during tumorigenesis that promotes neoplastic transformation. Recently it was reported that in Ha-Ras overexpressing MDCK cells the tight junction proteins claudin-1, occludin and ZO-1 were absent at cell-cell contact sites but present in the cytoplasm. Inhibition of MEK1 activity recruited all three proteins to the cell membrane leading to a restoration of the tight junction barrier function in MDCK cells. In order to evaluate the relevance of the MEK1 pathway in tight junction regulation in breast cancer cells, we investigated the effect ofMEK1 inhibition on expression of claudin-1, occludin and ZO-1 in natively claudin-1 expressing T47-D cells (low Ras activity), claudin-1 negative MCF-7 cells (elevated Ras activity) as well as two retroviral claudin-1 transduced MCF-7 daughter cell lines with prominent membrane and cytoplasmic claudin-1 dominant homing, respectively. Although we effectively blocked phosphorylation of MAPKs ERK-1 and ERK-2 using the selective MEK1 inhibitor PD98059, no quantitative changes of mRNA or protein levels of claudin-1, occludin and ZO-1 could be detected in all cell lines investigated. Furthermore, immnfluorescence analysis of claudin-1 revealed that inhibition of the MAPK pathway did not alter th e subcellular cytoplasmic distribution of claudin-1 to be more membrane specific. Finally, the diffusion barrier properties of tight junctions as analyzed by transepithelial resistance (TER) or paracellular flux analysis of 3 and 40 kDa dextran of tight junctions were not altered in the claudin-1 positive T47-D and the MCF-7 cell lines. Our findings indicate that the proposed involvement of the Ras-MEK-ERK pathway is likely not involved in the dysregulated tight junction formation in breast tumor cells and indicates that elevated activity of Ras might not be of general importance for the disruption of tight junction structures in breast tumors.
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PMID:Expression and function of tight junction associated molecules in human breast tumor cells is not affected by the Ras-MEK1 pathway. 1283 32

The epithelial to mesenchymal transition (EMT) is considered to be an important event during malignant tumor progression and metastasis. Although Raf/MEK/ERK signaling causes EMT, the mechanisms, including the signaling pathways, are as yet unclear. In the present study we have examined the effects of signal transduction pathways on oncogenic Raf-1-induced EMT, using an immortalized mouse hepatic cell line. Oncogenic Raf-1-induced EMT is characterized by down-regulation of adherens and tight junctions and the reorganization of actin. An active Raf-1 gene was introduced into a mouse hepatic cell line which was then treated with the MAP kinase inhibitor PD98059, the p38 MAP kinase inhibitor SB203580, the PI3 kinase inhibitor LY294002 or the c-Src tyrosine kinase inhibitor PP2. The expression and localization of the adherens and tight junction proteins E-cadherin, occludin, ZO-1, claudin-1 and claudin-2 were determined by western blotting, RT-PCR and immunocytochemistry. The barrier function of tight junctions was assessed by measurements of transepithelial electric resistance (TER) and permeability in terms of fluxes of [(14)C]mannitol and [(14)C]inulin. In Raf-1-transfected cells expression of occludin and claudin-2 was markedly down-regulated at the protein and mRNA levels and the TER value was decreased, while the permeability was increased. The distribution of ZO-1, pancadherin and F-actin was changed from linear to zipper-like structures at cell borders. In Raf-1-transfected cells treated with PD98059 and SB203580, but not LY294002, expression and localization of claudin-2, but not occludin, recovered, together with barrier function, measured as the TER value. The distributions of ZO-1, pancadherin and F-actin also recovered on treatment with PD98059 and SB203580, but not LY294002. Expression and localization of occludin recovered slightly on treatment with PP2. Thus, oncogenic Raf-1 regulates EMT via distinct MAP kinase, p38 MAP kinase and c-Src tyrosine kinase signal pathways in the mouse hepatic cell line.
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PMID:Oncogenic Raf-1 regulates epithelial to mesenchymal transition via distinct signal transduction pathways in an immortalized mouse hepatic cell line. 1530 85

Mitogen-activated protein kinase kinase 2 (MEK2) was isolated previously as a potential factor related to cancer cell dissociation in highly (PC-1.0) and weakly (PC-1) invasive pancreatic cancer cells. On the other hand, changes of structure and function of tight junction (TJ) are reported to be correlated with carcinogenesis and tumor development. In this study, immunocytochemistry and Western blot analysis were performed in pancreatic cancer cells using anti-claudin-1, MEK2 and phosphorylated MEK1/2 (p-MEK1/2) antibodies to reveal the correlation between TJ and cancer cell dissociation, as well as the involvement of MEK2 in regulation of TJ in cell dissociation of pancreatic cancer. After incubation with conditioned medium of PC-1.0 cells, plasma membrane distribution of claudin-1 was obviously disrupted, and expressions of MEK2 and p-MEK1/2, as well as dissociation of cell colonies, were significantly induced in PC-1 and CAPAN-2 cells. However, U0126 (a MEK1/2 inhibitor) treatment apparently induced the plasma membrane distribution of claudin-1 and aggregation of single cells in PC-1.0 and AsPC-1 cells, synchronously seriously suppressed MEK2 and p-MEK1/2 expression. Arrangement of expression and distribution of claudin-1 is closely related to cell dissociation status in pancreatic cancer cells through MEK2 activation.
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PMID:Arrangement of expression and distribution of tight junction protein claudin-1 in cell dissociation of pancreatic cancer cells. 1554 92

Activation of the hepatocyte growth factor receptor Met induces a morphogenic response and stimulates the formation of branching tubules by Madin-Darby canine kidney (MDCK) epithelial cells in three-dimensional cultures. A constitutively activated ErbB2/Neu receptor, NeuNT, promotes a similar invasive morphogenic program in MDCK cells. Because both receptors are expressed in breast epithelia, are associated with poor prognosis, and hepatocyte growth factor (HGF) is expressed in stroma, we examined the consequence of cooperation between these signals. We show that HGF disrupts NeuNT-induced epithelial morphogenesis, stimulating the breakdown of cell-cell junctions, dispersal, and invasion of single cells. This correlates with a decrease in junctional proteins claudin-1 and E-cadherin, in addition to the internalization of the tight junction protein ZO-1. HGF-induced invasion of NT-expressing cells is abrogated by pretreatment with a pharmacological inhibitor of the mitogen-activated protein kinase kinase (MEK) pathway, which restores E-cadherin and ZO-1 at cell-cell junctions, establishing the involvement of MEK-dependent pathways in this process. These results demonstrate that physiological signals downstream from the HGF/Met receptor synergize with ErbB2/Neu to enhance the malignant phenotype, promoting the breakdown of cell-cell junctions and enhanced cell invasion. This is particularly important for cancers where ErbB2/Neu is overexpressed and HGF is a physiological growth factor found in the stroma.
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PMID:HGF converts ErbB2/Neu epithelial morphogenesis to cell invasion. 1554 98

Transforming growth factor beta 1 (TGF-beta1) has been shown to induce epithelial-mesenchymal transition (EMT) during various stages of embryogenesis and progressive disease. This alteration in cellular morphology is typically characterized by changes in cell polarity and loss of adhesion proteins such as E-cadherin. Here we demonstrate that EMT is associated with loss of claudin-1, claudin-2, occludin, and E-cadherin expression within 72 h of exposure to TGF-beta1 in MDCKII cells. It has been suggested that this expression loss occurs through TGF-beta1 in a Smad-independent mechanism, involving MEK and PI3K pathways, which have previously been shown to induce expression of the Snail (SNAI-1) gene. Here we show that these pathways are responsible for loss of tight junctions and a partial loss of E-cadherin. However, our results also demonstrate that a complete loss of E-cadherin and transformation to the mesenchymal phenotype are dependent on Smad signaling, which subsequently stimulates formation of beta-catenin/LEF-1 complexes that induce EMT.
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PMID:Cooperation between snail and LEF-1 transcription factors is essential for TGF-beta1-induced epithelial-mesenchymal transition. 1646 84

It was previously shown that cyclosporine A (CsA) increases transepithelial resistance in MDCK cells. Activation of the extracellular signal-regulated kinase 1/2 (ERK1/2) mitogen-activated protein kinase (MAPK) cascade seems to be pivotal to the CsA-induced increase in transepithelial electrical resistance (TER). This study examined the role played by TGF-beta in mediating the CsA-induced activation of ERK1/2 and the resulting increase in TER in MDCK cells. Paracellular permeability across MDCK monolayers after various treatments was assessed by measurement of TER. TGF-beta secretion was measured by Western blot and ELISA. Activation of the ERK1/2 pathway and tight junction protein expression were also assessed by Western blot analysis. CsA increased production and secretion of TGF-beta and expression of the TGF-beta receptor II. Exogenous addition of TGF-beta1 activated ERK1/2 and increased TER across MDCK monolayers, both of which were attenuated by the MEK inhibitor U0126. Neutralizing antibodies against TGF-beta1 and the TGF-beta receptor II significantly reduced the CsA-induced increase in TER. Both CsA and TGF-beta1 increased expression of tight junction proteins claudin-1 and zonula occludens 2. Inhibition of the p38 MAPK pathway also attenuated the TGF-beta1-induced increase in TER. The results presented here suggest that the CsA-induced modulation of paracellular permeability may be mediated, at least in part, by an increase in TGF-beta production.
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PMID:Role for TGF-beta in cyclosporine-induced modulation of renal epithelial barrier function. 1751 23

Infection with hepatitis C virus (HCV) is still a major public health problem, and the events leading to hepatocyte infection are not yet fully understood. Combining confocal microscopy with biochemical analysis and studies of infection requirements using pharmacological inhibitors and small interfering RNAs, we show here that engagement of CD81 activates the Rho GTPase family members Rac, Rho, and Cdc42 and that the block of these signaling pathways drastically reduces HCV infectivity. Activation of Rho GTPases mediates actin-dependent relocalization of the HCV E2/CD81 complex to cell-cell contact areas where CD81 comes into contact with the tight-junction proteins occludin, ZO-1, and claudin-1, which was recently described as an HCV coreceptor. Finally, we show that CD81 engagement activates the Raf/MEK/ERK signaling cascade and that this pathway affects postentry events of the virus life cycle. In conclusion, we describe a range of cellular events that are manipulated by HCV to coordinate interactions with its multiple coreceptors and to establish productive infections and find that CD81 is a central regulator of these events.
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PMID:CD81 is a central regulator of cellular events required for hepatitis C virus infection of human hepatocytes. 1857 6

Epidermal growth factor (EGF) increases claudin-4 expression in Madin-Darby canine kidney (MDCK) cells. Here we examined what regulatory mechanisms are involved in the EGF-induced claudin-4 elevation. EGF transiently increased claudin-4 mRNA at 3h and persistently increased its protein for 24h without affecting claudin-1 expression. EGF increased p-ERK1/2 levels, which were inhibited by U0126, a MEK inhibitor. The exogenous expression of constitutively activated MEK increased claudin-4 expression. These results indicate that the activation of ERK1/2 is involved in the EGF-induced claudin-4 elevation. EGF increased Sp1 expression within 1h, which was inhibited by U0126. In immunocytochemistry, Sp1 was distributed in nucleus in control and the EGF-treated cells. The EGF-induced claudin-4 elevation was inhibited by mithramycin, a Sp1 inhibitor, and Sp1 small interfering RNA. We suggest that EGF activates a MEK/ERK pathway and increases Sp1 expression, resulting in an elevation of claudin-4 expression.
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PMID:Epidermal growth factor increases claudin-4 expression mediated by Sp1 elevation in MDCK cells. 1940 81

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