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)

Site directed mutagenesis/charged-to-alanine scanning mutagenesis of the amino terminal portion of human ERK2 (from amino acids 1 to 150) purified as a glutathione-S-transferase fusion protein (GST-ERK2) from E. coli has been done to determine regions/amino acids important for activation by rabbit skeletal muscle MAP kinase kinase (rMEK) and kinase activity towards myelin basic protein (MBP). Five classes of mutants have been isolated. The first class of mutants comprises of G30A/G32A, A50D and R65A/R68A/E69A, that can be phosphorylated by rMEK and have no kinase activity towards MBP, the second class includes mutants D122A/H123A and N142A which have lower kinase activities but no change in their activation by rMEK; third class being Y34A, E58A/H59A, which have neutral effect towards either activity, the fourth class that includes completely inactive mutants D42A/K46A/R48A, the deletion mutant in the same region (-9aa[40-48]) and D104A/E107A/D109A and finally the fifth class that include K53A, E94A/K97A/D99A, K112A/K115A and R133A/K136A that are phosphorylated 140-240% but with kinase activity toward MBP ranging from 50-100% of the wild type.
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PMID:Isolation and characterization of mutants of human mitogen-activated protein kinase (ERK2). 752 93

p44erk1 is a member of a family of tyrosyl-phosphorylated and mitogen-activated protein (MAP) kinases that participate in cell cycle control. A full-length erk1 cDNA was isolated from a human hepatoma cell line (Hep G2) library. The erk1 cDNA clone shared approximately 96% predicted amino acid identity with partial sequences of rodent erk1 cognates, and the erk1 gene was assigned to human chromosome 16 by hybrid panel analysis. Human erk1 expressed in Escherichia coli as a glutathione S-transferase fusion (GST-Erk1) protein was substantially phosphorylated on tyrosine in vivo. It underwent further autophosphorylation in vitro (up to 0.01 mol of P per mol) at the regulatory Tyr-204 site and at additional tyrosine and serine residues. Threonine autophosphorylation, presumably at the regulatory Thr-202 site, was also detected weakly when the recombinant kinase was incubated in the presence of manganese, but not in the presence of magnesium. Before and after cleavage of the GST-Erk1 protein with thrombin, it exhibited a relatively high level of myelin basic protein phosphotransferase activity, which could be reduced eightfold by treatment of the kinase with the protein-tyrosine phosphatase CD45, but not by treatment with the protein-serine/threonine phosphatase 2A. The protein-tyrosine kinase p56lck catalyzed phosphorylation of GST-Erk1 at two autophosphorylations sites, including Tyr-204, and at a novel site. A further fivefold stimulation of the myelin basic protein phosphotransferase activity of the GST-Erk1 was achieved in the presence of a partially purified MAP kinase kinase from sheep platelets. Under these circumstances, there was primarily an enhancement of the tyrosine phosphorylation of GST-Erk1. This MAP kinase kinase also similarly phosphorylated a catalytically compromised version of GST-Erk1 in which Lys-71 was converted to Ala by site-directed mutagenesis.
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PMID:Molecular cloning, expression, and characterization of the human mitogen-activated protein kinase p44erk1. 768 43

The antinociceptive effect of intracerebroventricular injection (icv) of Asn-Ala-Gly-Ala (NAGA), a partial sequence of beta-lipotropin, was studied in rats. The potassium iontophoresis-induced tail flick was used to measure the pain threshold. The antinociceptive effect of NAGA, which was dose-dependent (icv, 0.03-0.24 mumol/rat) and long-lasting (90 min), was reversed by naloxone (icv, 0.26 mg.kg-1) and inhibited by anti-MEK serum (titre: 1:5000, 5 microliters) or anti-LEK serum (titre: 1:5000, 5 microliters). NAGA-induced antinociception was scarcely affected by anti-beta-EP serum (titre: 1:30,000, 5 microliters) or anti-Dyn A1-13 serum (titre: 1:30,000, 5 microliters). It was suggested that the antinociceptive effect of NAGA may be associated with the release of met-enkephalin and leu-enkephalin in rat brain.
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PMID:Antinociceptive effect of intracerebroventricular injection of a tetrapeptide Asn-Ala-Gly-Ala in rats. 770 46

Activation of MAP kinase/Erk Kinase (MEK) via direct phosphorylation by Mos may be crucial for cellular transformation by the activated c-mos or v-mos gene. Recent studies on a number of different protein kinases showed that phosphorylation within a subdomain of the catalytic domain may represent a common mode of activation. In this regard, activation of MEK1 by Raf involves phosphorylation of serine residues 218 and 222. Here we show that recombinant kinase-inactive MEK1 is phosphorylated by v-Mos with equal efficiency at both Ser 218 and Ser 222 in vitro. Tryptic phosphopeptide analysis of glutathione-S-transferase (GST)-MEK1 K97R and its alanine-for-serine mutants indicated that Ser 222 is the preferred phosphorylation site. Wild-type GST-MEK1 was phosphorylated at the same sites but contained a significantly lower amount of doubly phosphorylated species then its K97R kinase-inactive mutant. The ratio of GST-MEK1 species phosphorylated at two serines to those phosphorylated at one serine was similar in auto-phosphorylated and v-Mos-phosphorylated GST-MEK1. Consistent with the in vitro data, phosphopeptide mapping of MEK1 immunoprecipitated from mos transformed cells showed an increased amount of singly phosphorylated phosphopeptide compared to nontransformed cels. MEK1 was found to be more highly activated in NIH3T3 cells transformed by an activated c-mos or v-mos gene than in cells growing normally in medium containing serum. Our data indicate that Mos activated MEK1 in vitro as well as in vivo by phosphorylating Ser 222.
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PMID:Characterization of MEK1 phosphorylation by the v-Mos protein. 773 26

MEK-1 is a dual threonine and tyrosine recognition kinase that phosphorylates and activates mitogen-activated protein kinase (MAPK). MEK-1 is in turn activated by phosphorylation. Raf and MAPK/extracellular signal-regulated kinase kinase (MEKK) independently phosphorylate and activate MEK-1. Recombinant MEK-1 is also capable of autoactivation. Purified recombinant wild type MEK-1 and a mutant kinase inactive MEK-1 were used as substrates for MEKK, Raf, and autophosphorylation. MEK-1 phosphorylation catalyzed by Raf, MEKK, or autophosphorylation resulted in activation of MEK-1 kinase activity measured by phosphorylation of a mutant kinase inactive MAPK. Phosphoamino acid analysis and peptide mapping identified similar MEK-1 tryptic phosphopeptides after phosphorylation by MEK kinase, Raf, or MEK-1 autophosphorylation. MEK-1 is phosphorylated by MAPK at sites different from that for Raf and MEKK. Phosphorylation of MEK-1 by MAPK does not affect MEK-1 kinase activity. Several phosphorylation sites present in MEK-1 immunoprecipitated from 32P-labeled cells after stimulation with epidermal growth factor were common to the in vitro phosphorylated enzyme. The major site of MAPK phosphorylation in MEK-1 is threonine 292. Mutation of threonine 292 to alanine eliminates 90% of MAPK catalyzed phosphorylation of MEK-1 but does not influence MEK-1 activity. The results demonstrate that MEKK and Raf regulate MEK-1 activity by phosphorylation of common residues and thus, two independent protein kinases converge at MEK-1 to regulate the activity of MAPK.
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PMID:MEK-1 phosphorylation by MEK kinase, Raf, and mitogen-activated protein kinase: analysis of phosphopeptides and regulation of activity. 801 5

The signal transduction kinase MEK (mitogen-activated protein (MAP) or extracellular signal-regulated (Erk) kinase)-1 is activated via phosphorylation by MEKK (MEK kinase) and raf kinases. We show here that these two kinases phosphorylate rat MEK-1 exclusively on two serine codons, Ser218 and Ser222. Phosphorylation of MEK-1 on serines 218 and 222 is both necessary and sufficient for MEK-1 to be activated and able to phosphorylate MAP kinase. A mutant form of MEK-1 that replaces these two codons with alanine cannot be activated, and one that substitutes glutamic acid residues in place of these 2 serines is active independent of activation by phosphorylation. These sites of activation occur in a region of MEK-1 that is similar to sites of activating phosphorylation in several other serine/threonine kinases, suggesting that this region may represent a conserved "activating domain" of many kinases. MEKK and raf display differences in site preference between these two codons, with MEKK showing preference for the amino acid at codon 218 and raf phosphorylating each residue approximately equally. This site preference might result in differences in the temporal or subsequent substrate patterns of MEK activation that result from these two activation pathways.
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PMID:Identification of 2 serine residues of MEK-1 that are differentially phosphorylated during activation by raf and MEK kinase. 803 65

The platelet-activating factor (PAF) receptor couples with multiple signaling pathways such as activation of phospholipase C, phospholipase A2, and mitogen-activated protein kinase and the inhibition of adenylate cyclase. The PAF-induced signals are attenuated by repetitive or long standing applications of the agonist (homologous desensitization). To investigate mechanisms underlying the agonist-induced desensitization, we constructed mutant forms of the cloned guinea pig PAF receptor and stably expressed them in Chinese hamster ovary cells. The cells expressing the wild type receptor transiently activated phospholipase C in response to PAF. Intracellular inositol 1,4,5-trisphosphate level and intracellular Ca2+ concentration reached the maximal levels within 20 s and returned to the basal levels in several minutes, even in the continuous presence of the ligand. In contrast, a truncated PAF receptor lacking the carboxyl-terminal cytoplasmic tail induced sustained elevations of inositol 1,4,5-trisphosphate and intracellular Ca2+ concentrations. Similar findings were noted in another mutant, in which the Ser/Thr residues in the carboxyl-terminal tail were substituted with Ala. Both mutant PAF receptors more potently activated the other signals (mitogen-activated protein kinase kinase, arachidonate release, and inhibition of adenylate cyclase) than did the wild type receptor. Thus, while the carboxyl-terminal cytoplasmic tail of the PAF receptor is not required for the forward activation of multiple signals, it does have a critical role for signal attenuation induced by the agonist through phosphate accepters. We also noted that the synthetic peptide of the PAF receptor carboxyl-terminal tail was strongly phosphorylated by the recombinant beta-adrenergic receptor kinase 1, suggesting that it or its relatives might be involved in PAF receptor phosphorylation and homologous desensitization.
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PMID:Role of cytoplasmic tail phosphorylation sites of platelet-activating factor receptor in agonist-induced desensitization. 807 75

MEK is a family of dual specific protein kinases which activate the extracellular signal-regulated kinases by phosphorylation of threonine and tyrosine residues. MEK itself is activated via serine phosphorylation by upstream activator kinases, including c-raf, mos and MEK kinase. Here, we report the activation phosphorylation sites of human MEK1 and yeast STE7 kinase as determined by a combination of biochemical and genetic approaches. In human MEK1, substitution of either serine residue 218 or 222 with alanine completely abolished its activation by epidermal growth factor-stimulated Swiss 3T3 cell lysates or immunoprecipitated c-raf, suggesting that both serine residues are required for MEK1 activation. Phosphopeptide analysis demonstrated that serine residues 218 and 222 of human MEK1 are the primary sites for phosphorylation by c-raf. These two serine residues are highly conserved in all members of the MEK family, including the yeast STE7 gene product, a MEK homolog in the yeast mating pheromone response pathway. Mutation of the corresponding residues in STE7 completely abolished the biological functions of this gene. These data demonstrate that MEK is activated by phosphorylation of two adjacent serine/threonine residues and this activation mechanism is conserved in the MEK family kinases.
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PMID:Activation of MEK family kinases requires phosphorylation of two conserved Ser/Thr residues. 813 46

Xenopus mitogen-activated protein kinase kinase (MAPKK) previously inactivated with protein phosphatase 2A can be reactivated by serine phosphorylation catalyzed by a partially purified MAPKK kinase (MAPKK-K), and is phosphorylated by MAPK on a threonine residue. The sequence analysis of a threonine-phosphorylated tryptic peptide of Xenopus MAPKK from mature oocytes suggested that Thr388 is phosphorylated in vivo. A mutant MAPKK that has Thr388 changed to Ala (T388A-MAPKK) was not phosphorylated by purified MAPK, indicating that Thr388 is phosphorylated by MAPK. We then produced and analysed MAPKKs mutated at potential serine phosphorylation sites (S218A-MAPKK and S222A-MAPKK). The wild-type MAPKK (WT-MAPKKK), T388A-MAPKK and a kinase-deficient (K97S)-MAPKK were phosphorylated efficiently by MAPKK-Ks purified from Xenopus eggs, and WT-MAPKK and T388A-MAPKK became activated. In contrast, neither S218A-MAPKK nor S222A-MAPKK was phosphorylated and activated efficiently by the Xenopus MAPKK-Ks. Similarly, WT-MAPKK, but not S218A-MAPKK or S222A-MAPKK, was activated efficiently by an active Raf-1 immunoprecipitate. However, when the recombinant STE11, a putative MAPKK-K in S. cerevisiae, was used as a source of MAPKK-K, S218A-MAPKK as well as WT-MAPKK, but not S222A-MAPKK, was phosphorylated and activated. Furthermore, replacement of Ser222 with an acidic residue (S222E) elevated substantially the basal kinase activity of MAPKK, while replacement of Ser218 (S218E) did not. These results may suggest an essential role for Ser222 phosphorylation in activating Xenopus MAPKK.
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PMID:Characterization of recombinant Xenopus MAP kinase kinases mutated at potential phosphorylation sites. 820 35

We investigated the effect of cyclic AMP-dependent protein kinase (PKA ) on v-Mos kinase activity. Increase in PKA activity in vivo brought about either by forskolin treatment or by overexpression of PKA catalytic subunit resulted in a significant inhibition of v-Mos kinase activity. The purified PKA catalytic subunit was able to phosphorylate recombinant p37v-mos in vitro, suggesting that the mechanism of in vivo inhibition of v-Mos kinase involves direct phosphorylation by PKA. Combined tryptic phosphopeptide two-dimensional mapping analysis and in vitro mutagenesis studies indicated that Ser-56 is the major in vivo phosphorylation site on v-Mos. In vivo phosphorylation at Ser-56 correlated with slower migration of the v-Mos protein during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. However, even though Ser-56 was phosphorylated by PKA, this phosphorylation was not involved in the inhibition of v-Mos kinase. The alanine-for-serine substitution at residue 56 did not affect the ability of v-Mos to autophosphorylate in vitro or, more importantly, to activate MEK1 in transformed NIH 3T3 cells. We identified Ser-263 phosphorylation, the Ala-263 mutant of v-Mos was not inhibited by forskolin treatment. From our results, we propose that the known inhibitory role of PKA in the initiation of oocyte maturation in mice could be explained at least in part by its inhibition of Mos kinase.
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PMID:Inhibition of v-Mos kinase activity by protein kinase A. 862 81

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