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)

Intracellular signalling from receptor tyrosine kinases in mammalian cells involves the activation of a signal cascade which includes p21ras and the protein kinases p74raf-1, MAP kinase kinase and MAP kinases. In the yeasts Schizosaccharomyces pombe and Saccharomyces cerevisiae the response to mating pheromones requires the Spk1 and KSS1/FUS3 kinases, which have sequence homology to vertebrate MAP kinases. The recent cloning of complementary DNAs for mammalian and frog MAP kinase kinases has shown that they are homologous to the S. pombe Byr1 (ref. 17) and S. cerevisiae STE7 (ref. 18) kinases, which have been proposed to function upstream of Spk1 and KSS1/FUS3, respectively. We have investigated whether these apparently similar kinase pathways are functionally conserved between vertebrates and S. pombe. We report here that expression of mammalian MAP kinase kinase alone fails to complement a byr1 mutant of S. pombe. When coexpressed with Raf kinase, however, MAP kinase kinase is activated by phosphorylation and the mating defect of the byr1 mutant is rescued. This suggests that the pathways are functionally homologous and that Raf kinase may directly phosphorylate and activate MAP kinase kinase.
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PMID:Complementation of byr1 in fission yeast by mammalian MAP kinase kinase requires coexpression of Raf kinase. 833 94

Mitogen-activated protein (MAP) kinases Raf-1, pp60src, and p21ras all play important roles in the transfer of signals from the cell surface to the nucleus. We have used the baculovirus/Sf9 insect cell system to elucidate the regulatory relationships between pp60v-src, p21v-ras, MAP kinase (p44erk1/mapk), and Raf-1. In Sf9 cells, p44erk1/mapk is activated by coexpression with either v-Raf or a constitutively activated form of Raf-1 (Raf22W). In contrast, p44erk1/mapk is activated to only a limited extent by coexpression with either Raf-1 or p21v-ras alone. This activation of p44erk1/mapk is greatly enhanced by coexpression with both p21v-ras and Raf-1. Since we have previously shown that p21v-ras stimulates Raf-1 activity, the activation of p44erk1/mapk by p21v-ras may occur exclusively via a Raf-1-dependent pathway. However, a dominant-inhibitory mutant of Raf-1 (Raf301) does not block the activation of p44erk1/mapk by p21-v-ras. Further, pp60v-src, which activates Raf-1 at least as effectively as p21v-ras, fails to enhance p44erk1/mapk activity greatly when coexpressed with Raf-1. These data suggest that activation of p44erk1/mapk by p21v-ras may occur via both Raf-1-dependent and Raf-1-independent pathways.
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PMID:Raf-1 and p21v-ras cooperate in the activation of mitogen-activated protein kinase. 839 Jun 81

A variety of protein kinases, including pp42 and pp54 mitogen-activated protein (MAP) kinases, p34cdc2, and a partially purified protein kinase from 4 beta-phorbol 12-myristate 13 alpha-acetate (PMA)-treated U937 cells have been shown to phosphorylate the NH2-terminal activation domain of c-Jun in vitro. To investigate the role of pp42 MAP kinase in mediating c-Jun phosphorylation in vivo, we have treated U937 monocytic leukemia cells with a variety of pharmacological agents, including PMA, cycloheximide, AIF4, and okadaic acid. Although all of these agents stimulated c-Jun phosphorylation, cycloheximide and okadaic acid had no effect on pp42 MAP kinase phosphorylation, suggesting that MAP kinase activation was not necessary for c-Jun phosphorylation in vivo. Because dominant-negative RasAsn17 has been shown to block the effects of PMA on pp42 MAP kinase phosphorylation, we assessed its effect on c-Jun phosphorylation by cotransfection with a truncated c-Jun construct (c-Jun234). We found that c-Jun234 was expressed only in the cytosol and was inducibly phosphorylated with kinetics similar to those of endogenous nuclear c-Jun. Furthermore, we found that RasAsn17 had no effect on PMA-induced phosphorylation of c-Jun234. Because Ha-Ras requires isoprenylation for membrane binding, we examined the effect of the isoprenylation inhibitors lovastatin and perillic acid on PMA-induced c-Jun phosphorylation. Pretreatment of U937 cells with these agents had no effect on PMA-induced c-Jun or pp42 MAP kinase phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Multiple signal transduction pathways mediate c-Jun protein phosphorylation. 839 Aug 55

Engagement of the B-cell antigen receptor complex induces immediate activation of receptor-associated Src family tyrosine kinases including p55blk, p59fyn, p53/56lyn, and perhaps p56lck, and this response is accompanied by tyrosine phosphorylation of distinct cellular substrates. These kinases act directly or indirectly to phosphorylate and/or activate effector proteins including p42 (microtubule-associated protein kinase) (MAPK), phospholipases C-gamma 1 (PLC gamma 1) and C-gamma 2 (PLC gamma 2), phosphatidylinositol 3-kinase (PI 3-K), and p21ras-GTPase-activating protein (GAP). Although coimmunoprecipitation results indicate that the Src family protein tyrosine kinases interact physically with some of these effector molecules, the molecular basis of this interaction has not been established. Here, we show that three distinct sites mediate the interaction of these kinases with effectors. The amino-terminal 27 residues of the unique domain of p56lyn mediate association with PLC gamma 2, MAPK, and GAP. Binding to PI 3-K is mediated through the Src homology 3 (SH3) domains of the Src family kinases. Relatively small proportions of cellular PI 3-K, PLC gamma 2, MAPK, and GAP, presumably those which are tyrosine phosphorylated, bind to the SH2 domains of these kinases. Comparative analysis of binding activities of Blk, Lyn, and Fyn shows that these kinases differ in their abilities to associate with MAPK and PI 3-K, suggesting that they may preferentially bind and subsequently phosphorylate distinct sets of downstream effector molecules in vivo. Fast protein liquid chromatography Mono Q column-fractionated MAPK maintains the ability to bind bacterially expressed Lyn, suggesting that the two kinases may interact directly.
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PMID:Mapping of sites on the Src family protein tyrosine kinases p55blk, p59fyn, and p56lyn which interact with the effector molecules phospholipase C-gamma 2, microtubule-associated protein kinase, GTPase-activating protein, and phosphatidylinositol 3-kinase. 839 16

In Xenopus oocytes, mitogen-activated protein (MAP) kinase can be activated by progesterone treatment or by microinjection of cyclin A, both of which lead to activation of the cdc2 protein kinase. The tyrosine kinase pp60v-src has previously been shown to accelerate progesterone-induced oocyte maturation and to increase the phosphorylation of ribosomal protein S6 by pp90rsk, most likely by activating MAP kinase. In extracts of resting oocytes, MAP kinase kinase and MAP kinase were activated by addition of pp60v-src or cyclin A. Activation by pp60v-src was blocked by a dominant-negative p21ras protein (RAST), but activation by cyclin A/cdc2 was unaffected. Thus these two pathways that converge at MAP kinase kinase but are clearly divergent upstream of a p21ras-dependent step can be studied in a cell-free system.
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PMID:Reconstitution of p21ras-dependent and -independent mitogen-activated protein kinase activation in a cell-free system. 839 92

p74raf-1, a serine/threonine kinase, is structurally related to the protein kinase C (PKC) family and contains a cysteine motif in its N-terminal domain, which is essential for its regulation. It has been shown that p74raf-1 functions upstream of mitogen-activated protein (MAP) kinase kinase. We have constructed a p74raf-1 mutant (N delta raf) that only contains the N-terminal regulatory domain. When transiently expressed in COS-M6 cells, N delta raf efficiently blocked the activation of the MAP extracellular signal regulated kinase (ERK2), induced by either epidermal growth factor, phorbol ester, serum, or oncogenic p21ras. Similar constructs with the cysteine motifs from either PKC-alpha or diacylglycerol kinase did not inhibit activation of ERK2. Overexpression of full-length p74raf-1 rescued the inhibition of ERK2 by N delta raf in a stimulus dependent manner, indicating that N delta raf acts as a competitive inhibitor of wild-type p74raf-1. In contrast, overexpression of either PKC-alpha, -epsilon, or -zeta in N delta raf-containing cells could not rescue the inhibition of ERK2. We conclude that p74raf-1 is an essential mediator of epidermal growth factor- and phorbol ester-induced ERK2 activation and that the MAP kinase kinase activity of p74raf-1 cannot be substituted with either PKC-alpha, -epsilon or -zeta.
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PMID:A dominant-negative mutant of raf blocks mitogen-activated protein kinase activation by growth factors and oncogenic p21ras. 839 1

Activation of tyrosine kinase receptors causes mitogen-activated protein (MAP) kinase stimulation via a pathway involving p21ras, p74raf-1 (acting as a MAP kinase kinase kinase), and MAP kinase kinases; however, the pathway by which heterotrimeric G-protein-coupled receptors activate MAP kinases is undefined. Since there are several MAP kinase kinase kinases it has been suggested that p74raf-1 may only couple tyrosine kinase receptors to MAP kinase activation. We therefore investigated the requirement for p21ras and p74raf-1 in G-protein receptor-mediated MAP kinase activation. Lysophosphatidic acid stimulates MAP kinase via a pertussis toxin-sensitive pathway, which is blocked by dominant negative Ras. Lysophosphatidic acid-stimulated MAP kinase activation is potentiated by overexpression of p74raf-1 and blocked by expression of a dominant negative Raf protein comprising the N-terminal 259 amino acids. We conclude that lysophosphatidic acid activates MAP kinases by a G-protein-coupled pathway that requires both p21ras and p74raf-1.
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PMID:Lysophosphatidic acid stimulates mitogen-activated protein kinase activation via a G-protein-coupled pathway requiring p21ras and p74raf-1. 840 93

Transforming growth factor beta 1 (TGF beta 1) is a potent inhibitor of epithelial cell growth, although the mechanism of growth inhibition remains unknown. We report here a critical relationship between cellular p21ras activity and TGF beta 1 action. Microinjection of oncogenic Ha-ras protein into TGF beta 1-arrested mink lung epithelial cells overcomes TGF beta 1 growth inhibition and allows progression into S phase. Cells released from TGF beta 1 inhibition following microinjection with anti-p21ras antibody, on the other hand, remain TGF beta 1-arrested and do not enter S phase, indicating a requirement for p21ras activity. These biological data are substantiated biochemically in that TGF beta 1 is shown to decrease the activation state of endogenous p21ras, as measured by the level of GTP-bound p21ras. In addition, the phosphorylation and kinase activity of mitogen-activated protein kinase, which depends upon cellular ras activity, is elevated in cells which have been released from growth arrest by TGF beta 1. Together these data demonstrate the involvement of p21ras activity in TGF beta 1-induced growth inhibition and suggest that the inhibitor controls proliferation by modulating the activity of p21ras.
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PMID:Release from G1 growth arrest by transforming growth factor beta 1 requires cellular ras activity. 840 89

Raf-1 is a serine/threonine kinase which is essential in cell growth and differentiation. Tyrosine kinase oncogenes and receptors and p21ras can activate Raf-1, and recent studies have suggested that Raf-1 functions upstream of MEK (MAP/ERK kinase), which phosphorylates and activates ERK. To determine whether or not Raf-1 directly activates MEK, we developed an in vitro assay with purified recombinant proteins. Epitope-tagged versions of Raf-1 and MEK and kinase-inactive mutants of each protein were expressed in Sf9 cells, and ERK1 was purified as a glutathione S-transferase fusion protein from bacteria. Raf-1 purified from Sf9 cells which had been coinfected with v-src or v-ras was able to phosphorylate kinase-active and kinase-inactive MEK. A kinase-inactive version of Raf-1 purified from cells that had been coinfected with v-src or v-ras was not able to phosphorylate MEK. Raf-1 phosphorylation of MEK activated it, as judged by its ability to stimulate the phosphorylation of myelin basic protein by glutathione S-transferase-ERK1. We conclude that MEK is a direct substrate of Raf-1 and that the activation of MEK by Raf-1 is due to phosphorylation by Raf-1, which is sufficient for MEK activation. We also tested the ability of protein kinase C to activate Raf-1 and found that, although protein kinase C phosphorylation of Raf-1 was able to stimulate its autokinase activity, it did not stimulate its ability to phosphorylate MEK.
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PMID:Reconstitution of the Raf-1-MEK-ERK signal transduction pathway in vitro. 841 57

Cross-linking membrane Ig (mIg) on B cells stimulates tyrosine phosphorylation of proteins involved in signal transduction including the mIg-associated proteins Ig-alpha and Ig-beta, the tyrosine kinases p53/p56lyn, p55blk, p59fyn, and PTK72, phosphatidylinositol 3-kinase, phospholipase C gamma 1 and gamma 2, and the mitogen-activated protein kinase. We now show that the p21ras GTPase-activating protein (GAP) is also a substrate for mIg-activated tyrosine kinases. p21ras is a key regulator of cell growth and GAP may act as both a regulator of p21ras activity and as a downstream effector of p21ras. We found that mIg cross-linking caused a rapid increase in tyrosine phosphorylation of GAP in the immature B cell line WEHI-231, the mature B cell lines BAL 17 and Daudi, and the IgG-bearing B cell line A20. In fibroblasts, tyrosine kinase activation causes GAP to associate with two other tyrosine-phosphorylated proteins, p62 and p190, which have homologies to an RNA-binding protein and a transcriptional repressor, respectively. Similarly, mlg cross-linking induced the association of GAP with a 62-kDa tyrosine-phosphorylated protein in BAL 17, WEHI-231, and Daudi cells. Anti-Ig treatment also increased the amount of a 190-kDa tyrosine-phosphorylated protein associated with GAP in WEHI-231 and Daudi cells. After separation by SDS-PAGE and transfer to nitrocellulose, the tyrosine-phosphorylated p62 and p190 present in anti-GAP immunoprecipitates from B cells were capable of binding radiolabeled recombinant GAP, as previously reported for the GAP-associated p62 and p190 from fibroblasts. The amount of p62 that could be detected in this way after immunoprecipitation with antiphosphotyrosine antibodies was much greater from anti-IgM-treated BAL 17 cells than from unstimulated BAL 17 cells. This probably reflects anti-Ig-induced tyrosine phosphorylation of p62. In any case, GAP, p62, and/or p190 may be involved in signal transduction by mIg in B cells.
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PMID:Targets of B lymphocyte antigen receptor signal transduction include the p21ras GTPase-activating protein (GAP) and two GAP-associated proteins. 841 71

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