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)

A powerful combination of genetics and biochemistry has provided details of how Ras-directed signalling interacts with and is regulated by other cellular signalling pathways. This might ultimately lead to the control of deregulated signalling by oncogenic Ras. Recently, progress has been made in understanding the regulation of Ras-mediated activation of the Raf-1-ERK2 kinase cascade through crosstalk with protein kinase C and cyclic-AMP-dependent protein kinase.
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PMID:Regulation of Ras-mediated signalling: more than one way to skin a cat. 787 38

Induction of the human c-fos proto-oncogene by mitogens depends on the formation of a ternary complex by p62TCF with the serum response factor (SRF) and the serum response element (SRE). We demonstrate that Elk-1, a protein closely related to p62TCF in function, is a nuclear target of two members of the MAP kinase family, ERK1 and ERK2. Phosphorylation of Elk-1 increases the yield of ternary complex in vitro. At least five residues in the C-terminal domain of Elk-1 are phosphorylated upon growth factor stimulation of NIH3T3 cells. These residues are also phosphorylated by purified ERK1 in vitro, as determined by a combination of phosphopeptide sequencing and 2-D peptide mapping. Conversion of two of these phospho-acceptor sites to alanine impairs the formation of ternary complexes by the resulting Elk-1 proteins. Removal of these serine residues also drastically diminishes activation of the c-fos promoter in epidermal growth factor-treated cells. Analogous mutations at other sites impair activation to a lesser extent without affecting ternary complex formation in vitro. Our results indicate that phosphorylation regulates ternary complex formation by Elk-1, which is a prerequisite for the manifestation of its transactivation potential at the c-fos SRE.
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PMID:ERK phosphorylation potentiates Elk-1-mediated ternary complex formation and transactivation. 788 42

The mitogen-induced early-response gene, PAC-1, encodes a nuclear 32-kDa tyrosine-threonine dual specificity phosphatase, which has been shown to specifically dephosphorylate the mitogen activated protein (MAP) kinases, ERK1 and ERK2. Here, we describe the structure and sequence of the murine PAC-1 gene. Transcription starts at three major sites located between 80 and 90 nucleotides upstream of the murine PAC-1 initiation codon within a highly G/C-rich region. The gene comprises three exons, with exon 1 encoding the unique N-terminal half of the protein, while exons 2 and 3 encode the C-terminus that is homologous to the closely related phosphatases, 3CH134 and VH1. The conserved catalytic domain common to all tyrosine phosphatases is encompassed by exon 3. The organization of the murine PAC-1 gene suggests that the PAC-1 N-terminus, which may serve a regulatory function, has evolved as a separate domain from the C-terminal catalytic domain.
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PMID:Structure of the gene encoding the murine dual specificity tyrosine-threonine phosphatase PAC1. 789 76

Following LTP induction in freely moving rats, in situ hybridization revealed discrete changes in the expression of one isoform in each of four families of serine/threonine kinases constitutively expressed in the dentate gyrus of the hippocampus. Expression of the alpha isoform of CaMKII showed a transient increase over the soma and a more persistent increase over the dendritic field of dentate granule cells. Of the PKC isoforms, only gamma PKC was up-regulated substantially 2 hr after LTP induction, declining to control levels 48 hr later. An increase in the expression of mRNA for ERK2 and raf-B was seen at 24 hr only. These results show that, during the maintenance phase of LTP in the hippocampus, there are selective increases in the expression of serine/threonine kinases and that these increases have specific and characteristic temporal and spatial profiles.
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PMID:Spatial and temporal changes in signal transduction pathways during LTP. 791 3

We have previously shown that hypoxia causes the activation of nuclear factor-kappa B (NF-kappa B), and the phosphorylation of its inhibitory subunit, I kappa B alpha, on tyrosine residues. With the use of dominant negative mutants of Ha-Ras and Raf-1, we investigated some of the early signaling events leading to the activation of NF-kappa B by hypoxia. Both dominant negative alleles of Ha-Ras and Raf-1 inhibited NF-kappa B induction by hypoxia, suggesting that the hypoxia-induced pathway of NF-kappa B induction is dependent on Ras and Raf-1 kinase activity. Furthermore, although conditions of low oxygen can also activate mitogen-activated protein kinases (ERK1 and ERK2), these kinases do not appear to be involved in regulating NF-kappa B by low oxygen conditions, as dominant negative mutants of mitogen-activated protein kinase do not inhibit NF-kappa B activation by hypoxia. Since Ras and Raf-1 have been previously shown to work downstream from membrane-associated tyrosine kinases such as Src, we determined if the Src membrane-associated kinase was also activated by low oxygen conditions. We detected an increase in Src proto-oncogene activity within 15-30 min of cellular exposure to hypoxia. We postulate that Src activation by hypoxia may be one of the earliest events that precedes Ras activation in the signaling cascade which ultimately leads to the phosphorylation and dissociation of the inhibitory subunit of NF-kappa B, I kappa B alpha.
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PMID:Hypoxic activation of nuclear factor-kappa B is mediated by a Ras and Raf signaling pathway and does not involve MAP kinase (ERK1 or ERK2). 792 53

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

c-Jun transcriptional activity is stimulated by phosphorylation at two N-terminal sites: Ser-63 and -73. Phosphorylation of these sites is enhanced in response to a variety of extracellular stimuli, including growth factors, cytokines, and UV irradiation. New members of the mitogen-activated protein (MAP) kinase group of signal-transducing enzymes, termed JNKs, bind to the activation domain of c-Jun and specifically phosphorylate these sites. However, the N-terminal sites of c-Jun were also suggested to be phosphorylated by two other MAP kinases, ERK1 and ERK2. Despite these reports, we find that unlike the JNKs, ERK1 and ERK2 do not phosphorylate the N-terminal sites of c-Jun in vitro; instead they phosphorylate an inhibitory C-terminal site. Furthermore, the phosphorylation of c-Jun in vivo at the N-terminal sites correlates with activation of the JNKs but not the ERKs. The ERKs are probably involved in the induction of c-fos expression and thereby contribute to the stimulation of AP-1 activity. Our study suggests that two different branches of the MAP kinase group are involved in the stimulation of AP-1 activity through two different mechanisms.
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PMID:c-Jun N-terminal phosphorylation correlates with activation of the JNK subgroup but not the ERK subgroup of mitogen-activated protein kinases. 793 87

Vav and Dbl are members of a novel class of oncogene proteins that share significant sequence identity in a approximately 250-amino-acid domain, designated the Dbl homology domain. Although Dbl functions as a guanine nucleotide exchange factor (GEF) and activator of Rho family proteins, recent evidence has demonstrated that Vav functions as a GEF for Ras proteins. Thus, transformation by Vav and Dbl may be a consequence of constitutive activation of Ras and Rho proteins, respectively. To address this possibility, we have compared the transforming activities of Vav and Dbl with that of the Ras GEF, GRF/CDC25. As expected, GRF-transformed cells exhibited the same reduction in actin stress fibers and focal adhesions as Ras-transformed cells. In contrast, Vav- and Dbl-transformed cells showed the same well-developed stress fibers and focal adhesions observed in normal or RhoA(63L)-transformed NIH 3T3 cells. Furthermore, neither Vav- or Dbl-transformed cells exhibited the elevated levels of Ras-GTP (60%) observed with GRF-transformed cells. Finally, GRF, but not Vav or Dbl, induced transcriptional activation from Ras-responsive DNA elements (ets/AP-1, fos promoter, and kappa B). However, like Ras- and GRF-transformed cells, both Vav- and Dbl-transformed cells exhibited constitutively activated mitogen-activated protein kinases (MAPKs) (primarily p42MAPK/ERK2). Since kinase-deficient forms of p42MAPK/ERK2 and p44MAPK/ERK1 inhibited Dbl transformation, MAPK activation may be an important component of its transforming activity. Taken together, our observations indicate that Vav and Dbl transformation is not a consequence of Ras activation and instead may involve the constitutive activation of MAPKs.
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PMID:Dbl and Vav mediate transformation via mitogen-activated protein kinase pathways that are distinct from those activated by oncogenic Ras. 793 2

CLK is a dual-specificity protein kinase capable of phosphorylating serine, threonine, and tyrosine residues. We have investigated the action of CLK by establishing stable PC12 cell lines capable of inducibly expressing CLK. Expression of CLK in stably transfected PC12 cells mimicked a number of nerve growth factor (NGF)-dependent events, including the morphological differentiation of these cells and the elaboration of neurites. Moreover, CLK expression enhanced the rate of NGF-mediated neurite outgrowth of these cells, indicating that CLK expression and NGF treatment activate similar signal transduction pathways. CLK expression, unlike NGF, was not able to promote PC12 cell survival in serum-free media, demonstrating that CLK only partially recapitulated the actions of NGF on these cells and that the biochemical pathways necessary for morphological differentiation can be stimulated without also stimulating those necessary for survival. Induction of CLK expression also resulted in the selective activation of protein kinases that are components of growth factor-stimulated signal transduction cascades, including ERK1, ERK2, pp90RSK, and S6PKII. Induction of CLK expression, however, did not stimulate pp70S6K or Fos kinase, two NGF-sensitive protein kinases. These data indicate that CLK action mediates the morphological differentiation of these cells through its capacity to independently stimulate signal transduction pathways normally employed by NGF.
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PMID:The dual-specificity CLK kinase induces neuronal differentiation of PC12 cells. 793 12

Human primary keratinocytes are an elegant model system to study the balance between proliferation and differentiation. Both epidermal growth factor (EGF) and extracellular calcium have been implicated to function in the control of this balance, although the molecular mechanism underlying this process is poorly understood. In this study, we measured the effect of both EGF and calcium treatment on activation of p21ras and ERK2. We found that addition of EGF stimulated the activity of ERK2. This stimulation was dependent on p21ras activity, since it was completely abolished by expression of a dominant negative mutant of p21ras (p21ras(Asn-17)). Raising the level of extracellular calcium (1.8 mM) did not result in activation of ERK2. On the contrary, calcium treatment inhibited EGF-induced stimulation of ERK2 activity. In order to determine the site at which calcium treatment interferes in EGF-induced signaling, we analyzed the effect of calcium on the various steps that are involved in EGF-induced, p21ras-dependent activation of ERK2. We observed that calcium treatment inhibited EGF-induced p21ras activation. Calcium treatment, however, did not interfere with EGF-induced EGF receptor autophosphorylation or association of mammalian SOS with the EGF receptor and Shc. This, together with the observation that calcium treatment alone decreased the basal level of p21ras activity, indicates that calcium treatment interferes in EGF-mediated signaling at the level of p21ras. This type of cross talk may play a role in the decision between proliferation and differentiation in human primary keratinocytes.
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PMID:Calcium inhibits epidermal growth factor-induced activation of p21ras in human primary keratinocytes. 793 23

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