EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inducible cAMP early repressor (ICER) is an important mediator of cAMP antiproliferative activity that acts as a putative tumor suppressor gene product. In this study, we examined the regulation of ICER protein by phosphorylation and ubiquitination in human choriocarcinoma JEG-3 and mouse pituitary AtT20 cells. We found that cAMP stabilized ICER protein by inhibiting the mitogen-activated protein kinase (MAPK) cascade. Activation of the MAPK pathway increased ICER phosphorylation. ICER phosphorylation was abrogated by inhibition of the MAPK pathway either by cAMP or directly by the MAPK inhibitor PD098059. The MAPKs extracellular signal-regulated kinases 1 and 2 physically interact with ICER and mediated the phosphorylation of ICER on a critical serine residue (Ser-41). A mutant form of ICER in which Ser-41 was substituted by alanine had a half-life 4-5 h longer than its wild-type counterpart. This alteration in stability was due to the inability of the Ser-41-mutant ICER to be efficiently ubiquitinated and degraded via the ubiquitin-proteasome pathway. These results present a novel cell signaling cross-talk mechanism at the cell nucleus between the MAPK and cAMP pathways, whereby MAPK targets a repressor of the cAMP-dependent gene expression for ubiquitination and proteasomal degradation.
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PMID:Mitogen-activated protein kinase phosphorylates and targets inducible cAMP early repressor to ubiquitin-mediated destruction. 1146 19

Activation of mitogen-activated protein (MAP) kinase is essential for cyclin D1 expression and provides a link between mitogenic signalling and cell cycle progression. Hydrogen peroxide (H2O2) activates MAP kinase; however, it is not known whether this leads to cyclin D expression. Sustained expression of cyclin D1 and D2 was observed when Her14 fibroblasts were incubated with 3 mM or higher H2O2 concentrations. Similar results were obtained when cells were incubated in the presence of serum (FCS). However, the sustained expression of cyclin D1 and D2 upon H2O2 treatment was not due to the MAP kinase pathway, because MAP kinase kinase inhibitors did not inhibit cyclin D expression. Furthermore, cyclin D1 and D2 levels remained constant even after addition of a protein synthesis inhibitor, indicating that the effect of H2O2 was not due to induction of protein synthesis. These results indicate that H2O2 reversibly inhibits the ubiquitin-proteasome dependent degradation of cyclin D1 and D2, probably by transiently inhibiting ubiquitination and/or the proteasome.
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PMID:The effect of hydrogen peroxide on the cyclin D expression in fibroblasts. 1149 44

Insulin and insulin-like growth factor-1 (IGF-1) regulate metabolism and body growth through homologous receptor tyrosine kinases that phosphorylate the insulin receptor substrate (IRS) proteins. IRS-2 is an important IRS protein, as it mediates peripheral insulin action and beta-cell survival. In this study, we show that insulin, IGF-1, or osmotic stress promoted ubiquitin/proteasome-mediated degradation of IRS-2 in 3T3-L1 cells, Fao hepatoma, cells and mouse embryo fibroblasts; however, insulin/IGF-1 did not promote degradation of IRS-1 in 3T3-L1 preadipocytes or mouse embryo fibroblasts. MG132 or lactacystin, specific inhibitors of 26S proteasome, blocked insulin/IGF-1-induced degradation of IRS-2 and enhanced the detection of ubiquitinated IRS-2. Insulin/IGF1-induced ubiquitination and degradation of IRS-2 was blocked by inhibitors of phosphatidylinositol 3-kinase (wortmannin or LY294002) or mTOR (rapamycin). Chronic insulin or IGF-1 treatment of IRS-1-deficient mouse embryo fibroblasts inhibited IRS-2-mediated activation of Akt and ERK1/2, which was reversed by lactacystin pretreatment. By contrast, IRS-1 activation of Akt and ERK1/2 was not inhibited by chronic insulin/IGF-1 stimulation in IRS-2-deficient mouse embryo fibroblasts. Thus, we identified a novel negative feedback mechanism by which the ubiquitin/proteasome-mediated degradation of IRS-2 limits the magnitude and duration of the response to insulin or IGF-1.
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PMID:Regulation of insulin/insulin-like growth factor-1 signaling by proteasome-mediated degradation of insulin receptor substrate-2. 1154 73

Incubation of murine C2C12 myotubes with tumour necrosis factor-alpha (TNF-alpha) leads to significant changes in protein content and turnover, suggesting that the cytokine exerts direct effects in skeletal muscle. The effects of the cytokine on protein content show a clear bimodal behaviour. At low concentrations (1 U/ml or less), TNF-alpha decreases both total and myofibrillar protein content, while at relatively high concentrations (100 U/ml or more), the effects are opposite and TNF-alpha increases the total and myofibrillar protein content in C2C12 myotubes. The mechanisms responsible for this latter, unexpected anabolic effect of the cytokine on muscle cells are related to a 40% increase in the rate of protein synthesis and to a significant decrease (14%) in the rate of protein degradation. At high concentrations, TNF-alpha decreased the expression of the mRNA of components of both the ATP- (ubiquitin, E2, C8) and Ca2+-dependent (m-calpain) proteolytic systems. The effects of TNF-alpha (10 U/ml or higher) on protein content of cultured murine myotubes (differentiated myogenic cells) were similar to those induced by insulin (1 or 5 microg/ml), but the effects of TNF-alpha and those of insulin were not additive. Experiments using inhibitors of the signalling pathways mediated by PI3K and MAP kinases (MAPKs) ERK1/2 and p38 suggest that insulin and TNF-alpha may share some intracellular signalling pathways involving MAPKs in the enhanced protein accretion observed in the muscle cell cultures.
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PMID:Direct effects of tumor necrosis factor alpha (TNF-alpha) on murine skeletal muscle cell lines. Bimodal effects on protein metabolism. 1156 20

Development of the high-density DNA microarray technique permits the analysis of thousands of genes simultaneously for their differential expression patterns in various biological processes. Through clustering analysis and pattern recognition, the significance of differentially expressed genes can be recognized and correlated with biological events that may take place inside the cell and tissue. With this notion in mind, high-density DNA microarray nylon membrane with colorimetry detection was used to profile the expression of smoke- and hydrogen peroxide-inducible genes in a human bronchial epithelial cell line, HBE1. On the basis of the time course of expression, at least three phases of change in gene expression could be recognized. The first phase is an immediate event in response to oxidant injury. This phase includes induction of the bcl-2 and mdm-2 genes, which are involved in the regulation of apoptosis, and the mitogen-activated protein (MAP) kinase phosphatase 1 (MKP-1) gene, that functions as a regulator of various mitogen-activated protein kinase activities. The second phase, usually 5 h later, includes the induction of various stress proteins and ubiquitin, which are important in providing the chaperone mechanism and the turnover of damaged macromolecules. The third phase, which is 5-10 h later, includes the induction of genes that are apparently involved in reducing oxidative stress by metabolizing reactive oxygen species. In this phase, enzymes associated with tissue and cell remodeling are also elevated. These results demonstrate a complex gene expression array by bronchial epithelial cells in response to the insult of oxidants that are relevant to environmental pollutants.
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PMID:Development of high-density DNA microarray membrane for profiling smoke- and hydrogen peroxide-induced genes in a human bronchial epithelial cell line. 1173 74

XK469 is an investigational anticancer agent that exhibits antiproliferative activity in tumor-bearing animal models. We examined the drug-action profile of this agent at the molecular level regarding alterations induced in gene expression and proteins in HCT-116 human colon adenocarcinoma cells. We used a unique cDNA microarray (GeneMap(TM) Cancerarray) comprising 1152 human tumor-related genes and 2-D gel electrophoresis, respectively, following a 24-hour exposure to a drug concentration that killed a two-log fraction of HCT-116 clonogenic cells. Functional gene cluster profile (FGCP) analysis of the 71 out of 1152 genes that displayed a >2-fold increase or decrease in expression (over untreated control) identified a drug-specific involvement of the MAPK signal transduction pathway. MAPK signaling together with the involvement of ubiquitin proteins from 2-D gel electrophoresis suggest a novel drug-action profile at the molecular level for the in vitro antiproliferative activity of XK469.
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PMID:Painting with a molecular brush: genomic/proteomic interfacing to define the drug action profile of novel solid-tumor selective anticancer agents. 1177 56

Retinoid X receptor alpha (RXRalpha) has emerged as an important nuclear receptor involved in hepatocarcinogenesis, because its ligand suppresses the development of hepatocellular carcinoma (HCC) in both experimental and clinical studies. We have demonstrated that phosphorylation of RXRalpha at serine 260 interferes with its function and delays its degradation in cultured human HCC, leading to enhanced cellular proliferation. Here, we show that in normal liver and in nonproliferating hepatocyte cultures, RXRalpha is unphosphorylated and highly ubiquitinated, rendering it sensitive to proteasome-mediated degradation. On the other hand, phosphoserine 260 RXRalpha is resistant to ubiquitination and proteasome-mediated degradation in both human HCC tissues and a human HCC cell line, HuH7. In these tissues and cells, serine 260 is phosphorylated by mitogen-activated protein (MAP) kinase. In proliferating normal hepatocytes, similar to HCC cells, RXRalpha is also phosphorylated at serine 260 and resistant to ubiquitin-mediated degradation by proteasome, but this ubiquitination of RXRalpha is differentially regulated between HCC cells and normal hepatocytes. In proliferating hepatocytes, 9-cis retinoic acid (9cRA), a ligand to RXRalpha, suppresses MAP kinase-mediated phosphorylation and thereby enhances ubiquitination of RXRalpha, whereas it fails to exert these effects in HCC cells. In conclusion, switching of the ubiquitin/proteasome-dependent degradation of RXRalpha by phosphorylation at serine 260 may be responsible for the aberrant growth of HCC and its suppression by retinoids.
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PMID:Phosphorylation of retinoid X receptor suppresses its ubiquitination in human hepatocellular carcinoma. 1182 6

The Yersinia virulence factor YopJ inhibits the host immune response and induces apoptosis by blocking multiple signaling pathways, including the MAPK and NFkappaB pathways in the infected cell. YopJ is a cysteine protease that cleaves a reversible post-translational modification in the form of ubiquitin or a ubiquitin-like protein. Homologues of YopJ are expressed in animal and plant pathogens, as well as a plant symbiont, suggesting a universal mechanism of regulating or modulating a variety of signaling pathways. The ability of YopJ to block the innate immune response, its activity as a ubiquitin-like protein protease and its activity with respect to mammalian signalling pathways are discussed in this review.
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PMID:Function of the Yersinia effector YopJ. 1183 67

Many cell signaling pathways are regulated by phosphorylation, ubiquitination, and degradation of constituent proteins. As with phosphorylation, protein ubiquitination can be reversed, through the action of ubiquitin-specific processing proteases (UBPs). Here we have analyzed 15 UBP disruption mutants in the yeast Saccharomyces cerevisiae and identified one (ubp3 Delta) that acts specifically in the pheromone response pathway. Upon pheromone stimulation, ubp3 Delta mutants accumulate unconjugated polyubiquitin chains as well as polyubiquitinated forms of the mitogen-activated protein kinase kinase Ste7. The ubp3 Delta mutants exhibit a potentiated response to pheromone, as measured by in vivo MAP kinase activity, transcriptional induction, and cell cycle arrest. Signaling is likewise enhanced upon direct activation of Ste4 (G protein beta subunit) and Ste11 (Ste7 kinase) but not the downstream transcription factor Ste12. These findings reveal a mechanism by which pheromone-triggered ubiquitination of Ste7 can modulate the pheromone response in vivo.
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PMID:Pheromone-dependent ubiquitination of the mitogen-activated protein kinase kinase Ste7. 1186 77

Activation-induced cell death (AICD) plays a critical role in the maintenance of homeostasis and peripheral tolerance in the immune system, and is mediated by Fas ligand (FasL) expression and the interaction between Fas and FasL. In the present study, we examined the role of the ubiquitin-proteasome system in AICD using T cell hybridoma N3-6-71 cells. The peptidyl aldehyde proteasome inhibitor carbobenzoxyl-Ile-Glu(O-t-butyl)-Ala-leucinal (PSI) blocked T cell receptor (TCR) stimulation-induced apoptosis in the T cell hybridoma. Fas and FasL gene expression and mouse FasL promoter activity following TCR stimulation were suppressed by PSI pretreatment. Deletion or point mutation of the kappaB site in the FasL promoter region did not suppress inducible FasL promoter activity effectively. PSI blocked extracellular signal-regulated kinase (ERK) activity induced by TCR stimulation, but had no effect on c-jun N-terminal kinase activation. ERK activation was essential for FasL expression and AICD. The initial tyrosine phosphorylation steps following TCR stimulation, i.e., phosphorylation of CD3zeta and Vav, were not altered by PSI. These data suggest that the ubiquitin-proteasome system has some regulatory function at an intermediate step between the initial tyrosine phosphorylation steps and ERK activation in AICD.
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PMID:Proteasome inhibitors block Ras/ERK signaling pathway resulting in the downregulation of Fas ligand expression during activation-induced cell death in T cells. 1187 60

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