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)

The mitogen-activated protein kinase (MAPK) also known as extracellular signal-regulated kinase (ERK) plays a crucial role in various signal transduction pathways. ERK is activated by its upstream activator, MEK, via threonine and tyrosine phosphorylation. ERK activity in the cell is tightly regulated by phosphorylation and dephosphorylation. Here we report the cloning and characterization of a novel dual specific phosphatase, HVH2, which may function in vivo as a MAP kinase phosphatase. The deduced amino acid sequence of HVH2 shows significant identity to the VH1-related dual specific phosphatase family. In addition, the N-terminal region of HVH2 also displays sequence identity to the cell cycle regulator, Cdc25 phosphatase. Recombinant HVH2 phosphatase exhibited a high substrate specificity toward activated ERK and dephosphorylated both threonine and tyrosine residues of activated ERK1 and ERK2. Immunofluorescence studies with an epitope-tagged HVH2 showed that the enzyme was localized in cell nucleus. Transfection of HVH2 into NIH3T3 cells inhibited the v-src and MEK-induced transcriptional activation of serum-responsive element containing promoter, consistent with the notion that HVH2 promotes the inactivation of MAP kinase. HVH2 mRNA showed an expression pattern distinct from CL100 (human homologue of mouse MKP1) and PAC1, two previously identified MAP kinase phosphatases. Our data suggest a possible role of HVH2 in MAP kinase regulation.
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PMID:Isolation and characterization of a novel dual specific phosphatase, HVH2, which selectively dephosphorylates the mitogen-activated protein kinase. 753 68

The expression of the urokinase-type plasminogen activator, which plays a crucial role in tissue remodeling by controlling the synthesis of the broadly acting plasmin serine protease, is regulated by several tyrosine kinases. Since the actions of these tyrosine kinases is dependent on the activation of ras proteins, we undertook a study to identify signaling events downstream of ras responsible for the stimulation of urokinase promoter activity. Transient expression of an activated c-Ha-ras in OVCAR-3 cells, which do not harbor the mutated oncogene, led to a dose-dependent trans-activation of the urokinase promoter. A sequence residing between -2109 and -1964 was critical for the stimulation of the urokinase promoter by c-Ha-ras. Mutation of an AP-1 and a PEA3 site at -1967 and -1973, respectively, or the co-expression of a transactivation domain-lacking c-jun substantially impaired the ability of c-Ha-ras to stimulate urokinase promoter activity. The induction of the urokinase promoter by ras was completely blocked by expression of a dominant negative c-raf expression vector and substantially reduced in cells made to co-express a catalytically inactive mitogen-activated protein kinase kinase. Further, the expression of an ERK1/ERK2-inactivating phosphatase (CL100) abrogated the stimulation of the urokinase promoter by c-Ha-ras. These data argue for a role of a mitogen-activated protein kinase-dependent signaling pathway in the regulation of urokinase promoter activity by ras.
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PMID:Involvement of a mitogen-activated protein kinase signaling pathway in the regulation of urokinase promoter activity by c-Ha-ras. 755 39

We have cloned the Xenopus laevis homologue (XCL100) of the human CL100 (Thr/Tyr) MAP kinase phosphatase. Expression of the XCL100 mRNA and protein is inducible by serum stimulation and oxidative/heat stress in a X. laevis kidney cell line. In contrast, XCL100 is constitutively expressed in growing Xenopus oocytes. Recombinant XCL100 protein is able to dephosphorylate both tyrosine and threonine residues of activated p42 MAP kinase in vitro and both the Xenopus and human CL100 proteins were localised predominantly in the nucleus in transfected COS-1 cells. As nuclear translocation of activated MAP kinase is necessary for some of its essential functions in proliferation and cell differentiation our results indicate a role for CL100 in the regulation of these nuclear signalling events. In Xenopus kidney cells both heat shock and serum stimulation lead to transient activation of MAP kinase. However, in contrast to results previously reported from studies on mammalian fibroblasts the inactivation of MAP kinase in these epitheloid cells is rapid and is not dependent on synthesis of new protein. These results indicate that the induction of CL100 (or CL100-like enzymes) may not be required for MAP kinase inactivation in all cell types. Finally, during early embryogenesis, levels of XCL100 mRNA are greatly increased at the mid-blastula transition, suggesting that this enzyme may be involved in the regulation of MAP kinase activity during early development.
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PMID:XCL100, an inducible nuclear MAP kinase phosphatase from Xenopus laevis: its role in MAP kinase inactivation in differentiated cells and its expression during early development. 759 28

A kinase cascade highly conserved throughout evolution, Raf/MAP kinase kinase kinase (MAPKKK)-->MAP kinase kinase (MAPKK)-->MAP kinase (MAPK)-->ribosomal S6 kinase (p90 RSK), is thought to play a crucial role in signal transduction from the membrane to the nucleus. In mammalian cells, this cascade is connected both to tyrosine kinase receptors and G protein-coupled receptors. Although the mode of activation at the receptor level differs, all mitogens activate the ubiquitously expressed isoforms of MAPK, p42 and p44. We have cloned, epitope tagged and expressed in fibroblasts, the Hamster MAPKK and p44 MAPK in order to analyze their time-course of activation, their subcellular localization, their regulatory phosphorylation sites and their role in cell cycle entry. We have demonstrated that MAPK activation was rapid, biphasic and persistent. The sustained phase of activation is only obtained with potent mitogenic agents, correlating with their ability to elicit cell cycle entry. Activation of MAPKK is also rapid and persistent but does not distinguish between mitogenic and non mitogenic factors, indicating that a distinction occurs at the MAPK level, probably by the action of specific phosphatases such as MAPK phosphatase MKP-1. Both isoforms of MAPK are translocated into the nucleus upon growth factor addition whereas the upstream activators (MAPKKK, Raf and MAPKK) remain cytoplasmic. MAPK translocation, together with the ability of MAPK to phosphorylate transcription factors, indicates that MAPK might constitute a relay between cytoplasmic and nuclear events. Finally we show that interfering with the MAP kinase cascade, by expressing either MAPK antisense, a MAPK dominant negative mutant or the MAPK specific phosphatase, MKP-1, suppresses the growth factor induced G0 to G1 transition. In addition, permanently activated versions of MAPKK reduce growth factor requirement, allow autonomous cell growth and induce tumor formation in nude mice. We therefore conclude that MAP kinase activation is both necessary and sufficient to trigger cell cycle entry.
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PMID:[MAP kinase module: role in the control of cell proliferation]. 764 66

Irradiation of mammalian cells with short wavelength ultraviolet light (UVC) evokes a cascade of phosphorylation events leading to altered gene expression. Both the classic mitogen-activated protein (MAP) kinases and the distantly related c-Jun N-terminal kinases (JNK) contribute to the response via phosphorylation of transcription factors including AP-1. These kinases are themselves regulated via reversible phosphorylation, and several recently identified specific MAP kinase phosphatases (MKP) have been implicated in down-regulating MAP kinase-dependent gene expression in response to mitogens. Here, we provide evidence that MKP-1 plays a role in regulating transcriptional activation in response to UVC as well as another genotoxic agent, methyl methanesulfonate (MMS). We further demonstrate that JNK is a likely target for MKP-1. JNK is shown to be activated by UVC and MMS treatment, while MAP kinase activation occurs only with UVC. Like JNK activation, MKP-1 mRNA is induced by both treatments, and elevated MKP-1 expression coincides with a decline in JNK activity. Constitutive expression of MKP-1 in vivo inhibits JNK activity and reduces UVC- and MMS-induced activation of AP-1-dependent reporter genes.
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PMID:Role of mitogen-activated protein kinase phosphatase during the cellular response to genotoxic stress. Inhibition of c-Jun N-terminal kinase activity and AP-1-dependent gene activation. 772 28

MAP kinase (mitogen activated protein kinase) represents a ubiquitously expressed family of kinases whose long term activation via phosphorylation is essential for the mitogenic response in fibroblasts. Two family members, p42 and p44 MAP kinase are cytosolic proteins in quiescent cells, but become nuclear following mitogenic stimulation. Inactivation of MAP kinases occurs via a specific phosphatase, MKP-1. Hence, we examined the localisation of this phosphatase, to determine the cellular site of MAP kinase inactivation. Transient transfection of CCL39 fibroblasts with epitope-tagged MKP-1 showed the protein to be entirely nuclear in both quiescent and mitogen stimulated cells, whereas a catalytically inactive mutant in which the essential cysteine was mutated to serine (MKP-1CS) was predominately cytoplasmic and again serum stimulation failed to alter the protein's localisation. Expression of either wild type or inactive MKP-1 did not alter the cytosolic localisation of p44 MAP kinase in quiescent cells nor the ability of MAP kinase to translocate to the nucleus following mitogen stimulation. Expression of wild type MKP-1 inhibited serum stimulated early (c-fos promoter) and late (dhfr promoter) transcriptional events as well as entry into S-phase. This inhibition was reversed by the co-expression of an active MAP kinase. We conclude that in the continual expression of MKP-1, the cellular localisation of MAP kinase is unaffected and that inactivation of MAP kinase by MKP-1 is a nuclear process leading to the inhibition of cell division.
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PMID:Constitutive MAP kinase phosphatase (MKP-1) expression blocks G1 specific gene transcription and S-phase entry in fibroblasts. 776 Oct 91

Mitogen-activated protein (MAP) kinase lies at the convergence of various extracellular ligand-mediated signaling pathways. It is activated by the dual-specificity kinase, MAP kinase kinase or MEK. MAP kinase inactivation is mediated by dephosphorylation via specific MAP kinase phosphatases (MKPs). One MKP (MKP-1 (also known as 3CH134, Erp, or CL100)) has been reported to be expressed in a wide range of tissues and cells. We report the identification of a second widely expressed MKP, termed MKP-2, isolated from PC12 cells. MKP-2 showed significant homology with MKP-1 (58.8% at the amino acid level) and, like MKP-1, displayed vanadate-sensitive phosphatase activity against MAP kinase in vitro. Overexpression of MKP-2 in vivo inhibited MAP kinase-dependent gene transcription in PC12 cells. MKP-2 differed from MKP-1 in its tissue distribution and in its extent of induction by growth factors and agents that induce cellular stress, suggesting that these MKPs may have distinct physiological functions.
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PMID:A novel mitogen-activated protein kinase phosphatase. Structure, expression, and regulation. 778 22

We have examined the role of MAP kinase during mesoderm induction and axial patterning in Xenopus embryos. MAP Kinase Phosphatase (MKP-1) was used to inactivate endogenous MAP kinase and was found to prevent the induction of early and late mesodermal markers by both FGF and activin. In whole embryos, MKP-1 was found to disrupt posterior axial patterning, generating a phenotype similar to that obtained with a dominant inhibitory FGF receptor. Overexpression of either constitutively active MAP kinase or constitutively active MAP kinase (MEK) was sufficient to induce Xbra expression, while only constitutively active MEK was able to significantly induce expression of muscle actin. When MAP kinase phosphorylation was used as a sensitive marker of FGF receptor activity in vivo, this activity was found to persist at a low and relatively uniform level throughout blastula stage embryos. The finding that a low level of MAP kinase phosphorylation exists in unstimulated animal caps and is absent in caps overexpressing a dominant inhibitory FGF receptor provides a basis for our previous observation that overexpression of this receptor inhibits activin induction. These results indicate that FGF-dependent MAP kinase activity plays a critical role in establishing the responsiveness of embryonic tissues to mesoderm inducers.
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PMID:Role of MAP kinase in mesoderm induction and axial patterning during Xenopus development. 778 77

The p53 tumor suppressor protein is thought to play a major role in the defense of the cell against agents that damage DNA. In this report, we describe the identification and characterization of a protein kinase that phosphorylates mouse p53 at a single site, serine 34, a major site of phosphorylation in the cell. The protein kinase is activated strikingly following treatment of cells with ultraviolet radiation, has a native molecular weight of approximately 45,000, and can be resolved from mitogen-activated protein (MAP) kinase by chromatography on Superose 6 and DEAE-cellulose. The p53 kinase activity co-purifies with UV-activated c-Jun kinase activity on heparin-Sepharose and on a c-Jun (but not a v-Jun-) affinity column. Treatment of the partially purified kinase with CL100, a protein phosphatase that specifically dephosphorylates MAP kinase homologues, inhibits its activity. Taken together, the data suggest that this p53 kinase is likely to be activated by phosphorylation and may be a member of the stress-activated protein kinase subfamily of MAP kinases. UV irradiation of SV3T3 cells leads to increased phosphorylation of p53 at serine 34, indicating that phosphorylation of p53 by this kinase is likely to be physiological. Phosphorylation of p53 by this protein kinase may be a key event in a signal transduction mechanism that coordinately controls key nuclear proteins in response to oxidative stress or DNA damaging agents.
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PMID:p53 is phosphorylated in vitro and in vivo by an ultraviolet radiation-induced protein kinase characteristic of the c-Jun kinase, JNK1. 789 Jun 69

A mammalian mutant MAP kinase, D319N ERK2, analogous to Drosophila melanogaster sevenmaker (rlsem) gain-of-function mutation was shown to have an increased sensitivity to low levels of signalling in vivo. However, the mutation does not lead to an elevated basal kinase activity and still requires activation by MAP kinase kinase (MAPKK) as does wild type ERK2. This increased responsiveness seen in vivo is not due to an increased ability to phosphorylate substrates but appears to reflect a reduced sensitivity to a MAP kinase phosphatase CL100.
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PMID:The sevenmaker gain-of-function mutation in p42 MAP kinase leads to enhanced signalling and reduced sensitivity to dual specificity phosphatase action. 792 74

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