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)

c-jun is a member of the family of immediate-early genes whose expression is induced by factors such as serum stimulation, phorbol ester, and differentiation signals. Here we show that increased Jun synthesis after serum stimulation is accompanied by a concomitant increase in phosphorylation. Several serine-threonine kinases were evaluated for their ability to phosphorylate Jun in vitro. p34cdc2, protein kinase C, casein kinase II, and pp44mapk phosphorylated Jun efficiently, whereas cyclic AMP-dependent protein kinase and glycogen synthase kinase III did not. The sites phosphorylated by p34cdc2 were similar to those phosphorylated in vivo after serum induction. The major sites of phosphorylation were mapped to serines 63, 73, and 246. Phosphorylation of full-length Jun with several kinases did not affect the DNA-binding activity of Jun homodimers or Fos-Jun heterodimers. Comparison of the DNA binding and in vitro transcription properties of wild-type and mutated proteins containing either alanine or aspartic acid residues in place of Ser-63, -73, and -246 revealed only minor differences among homodimeric complexes and no differences among Fos-Jun heterodimers. Thus, phosphorylation of Jun did not produce a significant change in dimerization, DNA-binding, or in vitro transcription activity. The regulatory role of phosphorylation in the modulation of Jun function is likely to be considerably more complex than previously suggested.
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PMID:Jun is phosphorylated by several protein kinases at the same sites that are modified in serum-stimulated fibroblasts. 132 60

The c-mos proto-oncogene product, Mos, is a serine/threonine kinase that can activate ERK1 and 2 mitogen-activated protein (MAP) kinases by direct phosphorylation of MAPK/ERK kinase (MEK). ERK activation is essential for oncogenic transformation of NIH 3T3 cells by Mos. In this study, we examined how mitogenic and oncogenic signalling from the Mos/MEK/ERK pathway reaches the nucleus to activate downstream target genes. We show that c-Fos (the c-fos protooncogene product), which is an intrinsically unstable nuclear protein, is metabolically highly stabilized, and greatly enhances the transforming efficiency of NIH 3T3 cells, by Mos. This stabilization of c-Fos required Mos-induced phosphorylation of its C-terminal region on Ser362 and Ser374, and double replacements of these serines with acidic (Asp) residues markedly increased the stability and transforming efficiency of c-Fos even in the absence of Mos. Moreover, activation of the ERK pathway was necessary and sufficient for the c-Fos phosphorylation and stabilization by Mos. These results indicate that c-Fos undergoes stabilization, and mediates at least partly the oncogenic signalling, by the Mos/MEK/ERK pathway. The present findings also suggest that, in general, the ERK pathway may regulate the cell fate and function by affecting the metabolic stability of c-Fos.
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PMID:The Mos/MAP kinase pathway stabilizes c-Fos by phosphorylation and augments its transforming activity in NIH 3T3 cells. 758 33

Site-directed mutagenesis was used to remove a critical phosphorylation site, Thr-197, near the active site of the catalytic subunit of cAMP-dependent protein kinase. This residue is present in a number of protein kinases, and its phosphorylation largely influences catalytic activity. We changed Thr-197 to aspartic acid and alanine and measured the effects of these substitutions on the kinetic mechanism and inhibitor affinities. The mutants were expressed as the free catalytic subunit and as soluble fusion proteins of glutathione-S-transferase. The values for KATP and Kpeptide for all three mutants are raised by approximately 2 orders of magnitude relative to the wild-type enzyme. Viscosometric measurements indicate that elevations in Kpeptide are the result of reduced rates for phosphoryl transfer and not reduced substrate affinities. This implies that the loop that contains the phosphothreonine, the activation loop, does not reduce access to the substrate site as proposed for the inactive forms of cdk2 kinase [DeBont, H. L., et al. (1993) Nature 363, 595-602] and MAP kinase [Zhang, F., et al. (1994) Nature 367, 704-711]. The mutants associate slowly with the wild-type regulatory subunit, although the cAMP-free wild-type regulatory subunit inhibits the mutants stoichiometrically. A mutant regulatory subunit that binds cAMP poorly and rapidly inhibits the wild-type catalytic subunit does not inhibit the mutant proteins. These data suggest that the phosphothreonine region serves as a docking surface for the regulatory subunit in the holoenzyme complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylation modulates catalytic function and regulation in the cAMP-dependent protein kinase. 787 23

There is ample evidence that intracellular protein phosphorylation is a mandatory event in the process of macrophage activation by LPS, yet how this event is initiated and what roles the phosphorylated proteins are assigned to are poorly understood. We previously isolated a 65-kDa cytosolic protein (pp65) that was phosphorylated specifically in LPS-stimulated murine macrophages. In the present study, the complete primary structure of pp65 was determined on the basis of the cDNA containing an open reading frame of 1881 bases. The sequence of pp65 revealed that it is a murine homologue of human L-plastin, recently identified as a novel transformation-induced polypeptide of neoplastic human cells, and that it contains a unique series of Ca2+, calmodulin, and actin binding domains. A single phosphorylated peptide was isolated from the tryptic digest of pp65 by reverse-phase HPLC. From the amino acid sequence of the dodecapeptide Gly-Ser-Val-Ser-Asp-Glu-Glu-Met-Met-Glu-Leu-Arg, the phosphorylation site of pp65 was located at the N-terminal region adjacent to the first Ca2+ binding domain. This sequence contains a repeat of the casein kinase II motif Ser-Xxx-Xxx-Glu/Asp and, together with the preceeding Arg residue, constitutes the consensus sequence Arg-Xxx-Ser for cAMP-dependent protein kinase (PKA) and protein kinase C (PKC), but not mitogen-activated protein kinase (MAPK)-specific motif is found. These results, taken together with previous observations on the process of macrophage activation by LPS, demonstrate that pp65 is phosphorylated by an LPS-induced protein kinase other than MAPK and exerts its function on the cytoskeleton in a Ca2+/calmodulin-dependent manner.
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PMID:Complete primary structure and phosphorylation site of the 65-kDa macrophage protein phosphorylated by stimulation with bacterial lipopolysaccharide. 789 27

The residue proposed to serve as the catalytic base for phosphoryl transfer, Asp-813, of the human epidermal growth factor receptor (EGFR) was mutated to Ala, and the mutant receptor (D813A) was expressed in Chinese hamster ovary (CHO) cells. Partially purified D813A exhibited no detectable kinase activity in the absence or presence of EGF. A low level of EGF-stimulable phosphorylation of D813A was detectable in intact cells, apparently due to the activity of an associated Tyr kinase(s). As previously observed for kinase-inactive Lys-721 mutants, EGF binding to D813A stimulates mitogen-activated protein kinase activity. Surprisingly, and unlike results reported for Lys-721 mutants, D813A is capable of stimulating both 86Rb+ uptake and DNA synthesis in response to EGF. These data suggest not only that Asp-813 is critical to the catalytic activity of the EGFR but also that differences may exist in the signaling properties of kinase-negative Lys-721 and kinase-negative Asp-813 EGFR mutants.
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PMID:A kinase-negative epidermal growth factor receptor that retains the capacity to stimulate DNA synthesis. 804 31

We expressed the C-terminal 99 amino acids of chicken gizzard caldesmon (658C) and two point mutants in which the preferred phosphorylation sites of MAP kinase and p34cdc2 kinase, Ser702 and Thr673 were altered to aspartic acid. The T673D mutant was indistinguishable from 658C but S702D was not phosphorylated by MAP kinase, was significantly less potent as an inhibitor of actin-tropomyosin activation of myosin MgATPase, and bound less actin-tropomyosin at low concentrations. Thus Ser702 is involved in the tropomyosin-dependent inhibitory mechanism of caldesmon, and its phosphorylation by MAP kinase or p34cdc2 kinase could modulate caldesmon function.
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PMID:The functional effects of mutations Thr673-->Asp and Ser702-->Asp at the Pro-directed kinase phosphorylation sites in the C-terminus of chicken gizzard caldesmon. 839 47

A systematic analysis reveals that out of 20 protein kinases examined, specific for either Ser/Thr or Tyr, the majority are extremely sensitive to staurosporine, with IC50 values in the low nanomolar range. A few of them however, notably protein kinases CK1 and CK2, mitogen-activated protein (MAP) kinase and protein-tyrosine kinase CSK, are relatively refractory to staurosporine inhibition, exhibiting IC50 values in the micromolar range. With all protein kinases tested, namely PKA, CK1, CK2, MAP kinase (ERK-1), c-Fgr, Lyn, CSK and TPK-IIB/p38Syk, staurosporine inhibition was competitive with respect to ATP, regardless of its inhibitory power. In contrast, either uncompetitive or noncompetitive kinetics of inhibition with respect to the phosphoacceptor substrate were exhibited by Ser/Thr and Tyr-specific protein kinases, respectively, consistent with a different mechanism of catalysis by these two sub-families of kinases. Computer modeling based on PKA crystal structure in conjunction with sequence analysis suggest that the low sensitivity to staurosporine of CK2 may be accounted for by the bulky nature of three residues, Val66, Phe113 and Ile174 which are homologous to PKA Ala70, Met120 and Thr183, respectively. In contrast these PKA residues are either conserved or replaced by smaller ones in protein kinases highly sensitive to staurosporine inhibition. On the other hand, His160 which is homologous to PKA Glu170, appears to be responsible for the unique behaviour of CK2 with respect to a staurosporine derivative (CGP44171A) bearing a negatively charged benzoyl substituent: while CGP44171A is 10- 100-fold less effective than staurosporine against PKA and most of the other protein kinases tested, it is actually more effective than staurosporine for CK2 inhibition, but it looses part of its efficacy if it is tested on a CK2 mutant (H160D) in which His160 has been replaced by Asp. It can be concluded from these data that the catalytic sites of protein kinases are divergent enough as to allow a competitive inhibitor like staurosporine to be fairly selective, a feature that can be enhanced by suitable modifications designed based on the structure of the catalytic site of the kinase.
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PMID:Different susceptibility of protein kinases to staurosporine inhibition. Kinetic studies and molecular bases for the resistance of protein kinase CK2. 852 58

c-Fos is phosphorylated by MAP kinase and the 90 kDa-ribosomal S6 kinase (RSK) in vitro at serines 362 and 374 (rat) which we demonstrate are major in vivo phosphorylation sites in early G1. We have constructed c-Fos mutants with these serines changed to aspartic acid residues (FosD) to mimic phosphorylation or to alanine residues (FosA) to prevent phosphorylation. Cells expressing FosD exhibited a more extensive transformed phenotype than those expressing either FosA or wild type c-Fos (FosWT). We also observed that FosA has a reduced half-life in comparison with FosD in G1. Furthermore, we observed enhanced AP-1 transactivation activity in cells expressing FosD. These results indicate that phosphorylation of c-Fos at its extreme carboxyterminus, possibly by MAP kinase and RSK, supports the proliferative response by increasing c-Fos stability and/or by increasing its transactivation activity. Under conditions in which the MAP kinase pathway is constitutively activated, c-Fos phosphorylation probably contributes to cellular transformation. The highly conserved nature of these phosphorylation sites in other c-fos family members suggests that these may also be targets of MAP kinase and RSK.
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PMID:Phosphorylation of c-Fos at the C-terminus enhances its transforming activity. 862 65

Drosophila Jun (D-Jun) is a nuclear component of the receptor tyrosine kinase/Ras signal transduction pathway which triggers photoreceptor differentiation during eye development. Here we show that D-Jun is a substrate for the ERK-related Drosophila MAP kinase Rolled, which has previously been shown to be a part of this pathway. A D-Jun mutant that carries alanines in place of the Rolled phosphorylation sites acts as a dominant suppressor of photoreceptor cell fate if expressed in the eye imaginal disc. In contrast, a mutant in which the phosphorylation sites are replaced by phosphate-mimetic Asp residues, as well as a VP16-D-Jun fusion protein, can promote photoreceptor differentiation. These data implicate Jun phosphorylation in the choice between neuronal and non-neuronal fate during Drosophila eye development.
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PMID:Phosphorylation of Drosophila Jun by the MAP kinase rolled regulates photoreceptor differentiation. 867 Aug 99

An osmosensing mechanism in the budding yeast (Saccharomyces cerevisiae) involves both a two-component signal transducer (Sln1p, Ypd1p and Ssk1p) and a MAP kinase cascade (Ssk2p/Ssk22p, Pbs2p, and Hog1p). The transmembrane protein Sln1p contains an extracellular sensor domain and cytoplasmic histidine kinase and receiver domains, whereas the cytoplasmic protein Ssk1p contains a receiver domain. Ypd1p binds to both Sln1p and Ssk1p and mediates the multistep phosphotransfer reaction (phosphorelay). This phosphorelay system is initiated by the autophosphorylation of Sln1p at His576. This phosphate is then sequentially transferred to Sln1p-Asp-1144, then to Ypd1p-His64, and finally to Ssk1p-Asp554. We propose that the multistep phosphorelay mechanism is a universal signal transduction apparatus utilized both in prokaryotes and eukaryotes.
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PMID:Yeast HOG1 MAP kinase cascade is regulated by a multistep phosphorelay mechanism in the SLN1-YPD1-SSK1 "two-component" osmosensor. 880 22

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