Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Mos is a germ cell-specific serine/threonine protein kinase that activates mitogen-activated protein kinase (MAPK) through MAPK kinase (MKK). In Xenopus oocytes, Mos synthesis is required for progesterone-induced activation of MAPK and maturation promoting factor. Injection of Mos or active MAPK causes mitotic arrest in early embryos, suggesting that Mos also acts via MKK and MAPK to induce the arrest of unfertilized eggs in metaphase of meiosis II. We have investigated whether Mos activity is regulated by phosphorylation. Previous studies have identified Ser-3 as the principal autophosphorylation site. We show that Mos interacts with the catalytic domain of MKK in a Saccharomyces cerevisiae two-hybrid test. Acidic substitutions of the sites phosphorylated by Mos in MKK reduce the interaction, implying that the complex may dissociate after phosphorylation of MKK by Mos. Furthermore, the Mos-MKK interaction requires Mos kinase activity, suggesting that Mos autophosphorylation may be involved in the interaction. Substitution of Ser-3 of Mos with Ala reduces the interaction with MKK and also reduces both the activation of MKK by Mos in vitro and cleavage arrest induced by Mos fusion protein in Xenopus embryos. By contrast, substitution of Ser-3 by Glu, an acidic amino acid that mimics phosphoserine, fosters the Mos interaction with MKK and permits activation of MKK in vitro and Mos-induced cleavage arrest. Moreover, the Glu-3 substitution increases the interaction of a kinase-inactive Mos mutant with MKK. Taken together, these results suggest that an important step in Mos activation involves the phosphorylation at Ser-3, which promotes Mos interaction with and activation of MKK.
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PMID:Ser-3 is important for regulating Mos interaction with and stimulation of mitogen-activated protein kinase kinase. 765 90

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

Cytosolic PLA2 (cPLA2) has been implicated in the release of the arachidonic acid utilized in the inflammatory cascade. Phosphorylation of cPLA2 on Ser-505 by MAP kinase in response to agonist treatment, is thought to be one of the mechanisms required for activation of the enzyme in the cell. In order to obtain enough material for enzymological studies as well as to investigate the role of phosphorylation in the activation of cPLA2, the human enzyme was overexpressed in insect cells using a recombinant baculovirus. We report here on the characterization of the phosphorylation state of cPLA2 overexpressed in Sf9 cells. The level of overexpressed cPLA2 was shown to peak between 48 and 60 h post-infection, by this time the phosphorylated enzyme could easily be detected because of its reduced mobility on polyacrylamide gels. The reduced mobility or gel-shift has been shown to be due to phosphorylation of Ser-505. To determine whether this was also the case for insect cell overexpressed cPLA2, Ser-505 was replaced by Ala, and this mutant (cPLA2S505A) was expressed in Sf9 cells. Analysis of the overexpressed cPLA2S505A showed that it migrated only as the lower unshifted cPLA2 band confirming that the baculovirus overexpressed cPLA2 is extensively phosphorylated on Ser-505. Furthermore, treatment of infected Sf9 cells expressing the wild-type cPLA2 with phorbol 12-tetradecanoate 13-acetate (TPA) shifted all of the overexpressed cPLA2 to the phosphorylated Ser-505 form. When infected Sf9 cells were labelled with [32P], in addition to labelling of Ser-505 other sites were also labelled. Both cPLA2 and cPLA2S505A were purified from infected Sf9 cells and the specific activity for each of the enzymes was measured in a phosphatidylcholine vesicle fluorescence assay using 1-(10-pyrenedecanyl)arachidonyl-sn-glycero-3-phosphocholine as substrate. Under these conditions the specific activity of cPLA2 was, 2 mumol/min per mg, whereas cPLA2S505A was 7-fold less active. These findings suggest that Sf9 cells have a mechanism for phosphorylating cPLA2 similar to that found in mammalian cells which probably proceeds through a MAP kinase. Thus, insect cell overexpressed cPLA2 is a very good source for the Ser-505 phosphorylated enzyme.
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PMID:Human cytosolic phospholipase A2 expressed in insect cells is extensively phosphorylated on Ser-505. 776 52

The c-Fos and c-Jun proteins bind an AP1 site and activate transcription synergistically. These two proteins have a common activation domain which has two co-operating motifs, HOB1 and HOB2. The HOB1 motif of c-Jun includes S73 which is required for Ha-Ras-induced super-activation and phosphorylation by MAP kinase-like enzymes. Since c-Fos HOB1 has a conserved Thr residue (T232) analogous to c-Jun S73 we have proposed that c-Fos HOB1 will be regulated in the same way as c-Jun HOB1. Here we show that the HOB1-containing activation domain of c-Fos is stimulated by Ha-Ras in vivo and phosphorylated by a MAP kinase family member in vitro and that mutating T232 to Ala abolishes both functions. Collectively these results suggest that phosphorylation of the HOB1 motif increases its activation capacity. To provide direct evidence for this we change the context of c-Fos T232 to a PKA recognition site, and show that HOB1 activity is now stimulated by the catalytic subunit of PKA. This 'PKA specificity' experiment represents a novel and powerful way to analyse phosphorylation events involved in a variety of biological functions.
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PMID:Phosphorylation of the c-Fos and c-Jun HOB1 motif stimulates its activation capacity. 781 2

Mitogen-activated protein kinase kinase (MKK) phosphorylates and activates mitogen-activated protein kinase (MAPK) in response to stimulation of various eukaryotic signaling pathways. Conversely, a recent report showed that MAPK phosphorylates MKK in vitro [Matsuda, S., Gotoh, Y., and Nishida, E. (1993) J. Biol. Chem. 268, 3277-3281]. To gain insight into the function of this feedback phosphorylation, we identified the major sites targeted for phosphorylation by MAPK and examined whether such a modification plays a role in regulating the basal and stimulated MKK activities. Two phosphopeptides generated by tryptic digestion of MAPK-phosphorylated MKK were identified by electrospray ionization mass spectrometry. Cyanogen bromide cleavage also yielded two phosphopeptides whose sequence overlapped with the tryptic phosphopeptides. Both sets of phosphopeptides contained candidate MAPK target sites at Thr292 and Thr386 that fit the consensus sequence ProXThr*Pro. Replacement of either Thr292 or Thr386 with alanine by site-directed mutagenesis reduced the phosphate incorporation respectively to 32 or 75% that of wild type MKK. Replacement of both threonine residues with alanine reduced phosphate incorporation to 2.5% that of wild type enzyme. Comparison of MAPK-phosphorylated vs. unphosphorylated MKK showed no significant differences in basal or Raf-1-stimulated MKK activity. We conclude that the phosphorylation of MKK at Thr292 and Thr386 does not interfere with catalysis in vitro.
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PMID:Mitogen-activated protein (MAP) kinase phosphorylation of MAP kinase kinase: determination of phosphorylation sites by mass spectrometry and site-directed mutagenesis. 782 48

The primary structure of the growth hormone (GH) receptor in rabbits and humans determined by complementary DNA cloning revealed a single membrane-spanning protein of approximately 620 amino acids. A binding protein (bp) specific for GH has been identified in the serum of a number of species. In rabbits and man, a single 4.5-kb transcript has been identified that encodes the full-length receptor. In rats and mice, however, a smaller transcript produced by alternative splicing has been reported which is specific for the GHbp. Recently, the X-ray crystallographic structure of GH and its receptor have clearly shown the formation of an unusual homodimer, consisting of one molecule of GH and two molecules of hGHbp. Formation of the GH dimer is a necessary prerequisite for biological activity. The transcriptional activity of wild-type and mutant forms of GH receptor has been determined by co-transfecting the promoter of a GH-responsive gene, coupled to CAT along with the receptor cDNA. A 25-amino acid region near the transmembrane domain has been shown to be important for functional activity, although 8 amino acids (known as Box 1), rich in prolines, is essential. Alanine scanning mutagenesis has revealed that individual substitution of each residue is without effect, while the replacement of the last 2 or all 4 of the prolines abolishes activity. Finally, GH has been shown to induce rapid tyrosine phosphorylation of several proteins in cells expressing the receptor, one of which has recently been identified as the kinase JAK2 and another as MAP kinase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The GH receptor and signal transduction. 786 67

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

The "switch I" region (Asp30-Asp38) of the Ras protein takes remarkably different conformations between the GDP- and GTP-bound forms and coincides with the so-called "effector region." As for a region on the C-terminal side of switch I, the V45E and G48C mutants of Ras failed to promote neurite outgrowth of PC12 cells (Fujita-Yoshigaki, J., Shirouzu, M., Koide, H., Nishimura, S., and Yokoyama, S. (1991) FEBS Lett. 294, 187-190). In the present study, we performed alanine-scanning mutagenesis within the region Lys42-Ile55 of Ras and found that the K42A, I46A, G48A, E49A, and L53A mutations significantly reduced the neurite-inducing activity. This is an effector region by definition, but its conformation is known to be unaffected by GDP-->GTP exchange. So, this region is referred to as a "constitutive" effector (Ec) region, distinguished from switch I, a "switch" effector (Es) region. The Ec region mutants exhibiting no neurite-inducing activity were found to be correlatably unable to activate mitogen-activated protein (MAP) kinase in PC12 cells. Therefore, the Ec region is essential for the MAP kinase activation in PC12 cells, whereas mutations in this region only negligibly affect the binding of Ras to Raf-1 (Shirouzu, M., Koide, H., Fujita-Yoshigaki, J., Oshio, H., Toyama, Y., Yamasaki, K., Fuhrman, S. A., Villafranca, E., Kaziro, Y., and Yokoyama, S. (1994) Oncogene 9, 2153-2157).
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PMID:A constitutive effector region on the C-terminal side of switch I of the Ras protein. 787 37

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

Mitogen-activated protein kinase kinase (MAPKK) is a dual specificity protein kinase that exhibits a high degree of specificity toward its downstream target, mitogen-activated protein kinase (MAPK). In this study, we used stable overexpression of MAPKK and its mutants in NIH 3T3 cells to study effects on downstream components of the MAPK signaling cascade and to correlate them to physiological responses. We have mutated the potential regulatory serine residue 222 to alanine (S222A) or to glutamate (S222E) and serines 212 and 218 together to alanine residues (S212A,S218A). Lysine 97 was mutated to alanine (K97A) to provide an inactive enzyme. Overexpression of the wild type MAPKK had no effect on any of the parameters examined. The K97A and S222A mutants served as dominant negatives by suppressing MAPKK, MAPK, and p90rsk activation in vivo. S222E enhanced all of these activities, and S212A,S218A had a small inhibitory effect. A similar trend was observed when cellular proliferation was examined and the different effects were accompanied by altered cellular shape. Taken together, our results demonstrate a direct linkage between the MAPK signaling pathway and the control of cellular proliferation and morphology and also establish that phosphorylation of serine 222 is essential for MAPKK activation together with the phosphorylation of an additional serine(s) (probably serine 218).
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PMID:Overexpression of mitogen-activated protein kinase kinase (MAPKK) and its mutants in NIH 3T3 cells. Evidence that MAPKK involvement in cellular proliferation is regulated by phosphorylation of serine residues in its kinase subdomains VII and VIII. 792 75


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