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Query: UNIPROT:P51812 (mitogen-activated protein)
10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously reported that epidermal growth factor (EGF) induced the disruption of gap junctional communication (gjc) and serine phosphorylation of connexin43 (Cx43) in T51B rat liver epithelial cells. However, the cascade of events linking EGF receptor activation to these particular responses have not been fully characterized. Furthermore, the serine kinase(s) acting directly on Cx43 remain unidentified. In the current study, we demonstrate that downmodulation of 12-0-tetradecanoylphorbol 13-acetate (TPA)-sensitive protein kinase C (PKC) activity does not affect EGF's ability to reduce junctional permeability or phosphorylate Cx43 in T51B cells. EGF in the presence or absence of chronic TPA treatment stimulated marked increases in Cx43 phosphorylation on numerous sites as determined by two-dimensional tryptic phosphopeptide mapping. Computer-assisted sequence analysis of Cx43 identified several protein kinase phosphorylation consensus sites including two sites for mitogen-activated protein (MAP) kinase. EGF stimulated activation of MAP kinase in a time- and dose-dependent manner where the kinetics of kinase activity corroborated its possible involvement in mediating EGF's effects. Moreover, purified MAP kinase directly phosphorylated Cx43 on serine residues in vitro. Two-dimensional tryptic and chymotryptic phosphopeptide mapping demonstrated that the in vitro phosphopeptides represented a specific subset of the in vivo phosphopeptides produced in response to EGF after chronic TPA treatment. Therefore, EGF-induced disruption of gjc and phosphorylation of Cx43 may be mediated in part by MAP kinase in vivo.
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PMID:Epidermal growth factor stimulates the disruption of gap junctional communication and connexin43 phosphorylation independent of 12-0-tetradecanoylphorbol 13-acetate-sensitive protein kinase C: the possible involvement of mitogen-activated protein kinase. 824 69

p56lck, a member of the src family of non-receptor protein tyrosine kinases, is expressed almost exclusively in cells of lymphoid origin. p56lck is known to associate with the T lymphocyte surface glycoproteins CD4 and CD8, and plays a critical role in both T lymphocyte development and activation. p56lck also associates with the beta-subunit of the IL-2R, and is activated when IL-2 binds to its receptor. Using primary cultures of Con A-activated normal splenic mouse T lymphocytes, we observed an IL-2-induced sequence of events involving p56lck. We saw a rapid (within 1 to 2 min) and transient increase in p56lck kinase activity, which preceded the activation of both the p42erk-2 and p44erk-1 mitogen-activated protein kinases, maximal activation of which was observed after 10 min. We also observed an IL-2-induced shift in the electrophoretic mobility of p56lck from an apparent molecular mass of 56 kDa (p56lck) to 60 kDa (p60lck), which reached a maximum at 15 min, the level of p60lck remaining constant for up to 4 h thereafter. This IL-2-induced shift correlated with the phosphorylation of serine-59 of p56lck, a site that mitogen-activated protein kinases are capable of modifying in vitro. The implications of these results for the understanding of both p56lck function and lymphoid cell receptor signaling pathways are discussed.
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PMID:IL-2 stimulation of T lymphocytes induces sequential activation of mitogen-activated protein kinases and phosphorylation of p56lck at serine-59. 825 96

The substrate specificity of mitogen-activated protein (MAP) kinase-activated protein kinase-2 (MAPKAP kinase-2) was investigated by using synthetic peptides related to the N-terminus of glycogen synthase. The minimum sequence required for efficient phosphorylation was found to be Xaa-Xaa-Hyd-Xaa-Arg-Xaa-Xaa-Ser-Xaa-Xaa, where Hyd is a bulky hydrophobic residue (Phe > Leu > Val >> Ala), and the peptide Lys-Lys-Phe-Asn-Arg-Thr-Leu-Ser-Val-Ala was phosphorylated with a Km of 9.3 microM and Vmax. of 10 mumol/min per mg. MAPKAP kinase-1 (a homologue of ribosomal protein S6 kinase) also requires an arginine three residues N-terminal to the serine (position n-3), but not a hydrophobic residue at position n-5. Neither MAPKAP kinase-1 nor MAPKAP kinase-2 could tolerate a proline residue at position n + 1, indicating that their specificities do not overlap with that of MAP kinase. The specificity of calmodulin-dependent protein kinase-II resembled that of MAPKAP kinase-2, except that it could tolerate replacement of the arginine by a lysine and the phosphorylation-site serine by a threonine residue. Partial cDNAs encoding MAPKAP kinase-2 were isolated from rabbit and human skeletal muscle and human teratocarcinoma libraries, and Northern-blotting experiments revealed a single 3.3 kb mRNA transcript present at similar levels in six human tissues examined. The catalytic domain was most similar (35-40% identity) to calmodulin-dependent protein kinases II and IV, phosphorylase kinase, putative serine kinase H1 and the C-terminal domain of MAPKAP kinase-1, which form one branch of the protein kinase phylogenetic tree. The sequence N-terminal to the catalytic domain is proline-rich and contains two putative SH3-binding sites. The threonine residue phosphorylated by MAP kinase lies immediately C-terminal to the catalytic domain and is followed by a nuclear localization signal, Lys-Lys-(Xaa)10-Lys-Arg-Arg-Lys-Lys, near the C-terminus.
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PMID:The substrate specificity and structure of mitogen-activated protein (MAP) kinase-activated protein kinase-2. 828 84

Treatment of human myeloid leukemia cells with 12-O-tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C (PKC), is associated with induction of monocytic differentiation. Since PKC can act immediately upstream to the cytoplasmic Raf-1 serine/threonine protein kinase, we studied activation of Raf-1 during induction of the differentiated monocytic phenotype. The results demonstrate that Raf-1 is activated during TPA-induced monocytic differentiation of HL-60 cells. In contrast, there was little effect of TPA on this kinase in an HL-60 variant, designated HL-525, which is resistant to TPA-induced differentiation. Treatment of both HL-60 and HL-525 cells with okadaic acid, an inhibitor of serine/threonine protein phosphatases 1 and 2A, was associated with Raf-1 activation and induction of the monocytic phenotype. Since Raf-1 can activate the mitogen-activated protein (MAP) kinases, we also studied the relationship between MAP kinase activation and monocytic differentiation. Treatment of HL-60, but not HL-525, cells with TPA was associated with increased MAP kinase activity as determined by phosphorylation of myelin basic protein and the c-Jun Y peptide. Okadaic acid-induced differentiation of both HL-60 and HL-525 cells was similarly accompanied by increases in MAP kinase activity. These findings indicated that activation of Raf-1/MAP kinase signaling is associated with induction of a differentiated monocytic phenotype and that okadaic acid bypasses a defect in this cascade in TPA-treated HL-525 cells. While recent studies have shown that HL-525 cells are deficient in PKC beta, the present results demonstrate that PKC beta expression is up-regulated in the HL-525 variant by treatment with retinoic acid. The results also demonstrate that retinoic acid-treated HL-525 cells respond to TPA with activation of Raf-1 and MAP kinase, as well as induction of monocytic differentiation. Taken together, the results indicate that activation of Raf-1/MAP kinase signaling is associated with monocytic differentiation and that stimulation of serine/threonine protein phosphorylation by TPA or okadaic acid is sufficient for reversal of the leukemic HL-60 phenotype.
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PMID:Activation of Raf-1 and mitogen-activated protein kinases during monocytic differentiation of human myeloid leukemia cells. 828 41

Insulin exerts diverse effects on mitogenesis, metabolism, gene expression, and protein synthesis depending on the target cell type. A variety of extracellular serine/threonine kinases, including the ribosomal protein S6 kinases pp70-ribosomal S6 kinase (pp70-S6K) and pp90-ribosomal S6 kinase (pp90rsk) and the erk-encoded mitogen-activated protein (MAP) kinases pp44mapk/ERK-1 and pp42mapk/ERK-2, have been postulated as mediators of insulin action. In this study, we have investigated the role of the MAP kinase/pp90rsk signaling pathway in insulin-stimulated glucose transport in 3T3-L1 adipocytes. Differentiation of 3T3-L1 fibroblasts into adipocyte-like cells was accompanied by a marked increase in the capacity of insulin to activate pp90rsk and pp44mapk. Whereas the maximal insulin-stimulated pp90rsk and pp44mapk activities were only approximately 30% of the serum-stimulated activities in preadipocytes, the insulin-stimulated kinase activities in adipocytes were equal to or greater than the serum-stimulated activities. The increase in hormone receptor number accompanying differentiation accounted for the greater sensitivity, as overexpression of human insulin receptors in NIH-3T3 cells also conferred insulin-stimulatable kinase activity. In 3T3-L1 adipocytes, the stimulation of pp90rsk and pp44mapk activities was sufficiently rapid and hormone sensitive to convey a signal for increased hexose uptake. However, epidermal growth factor and fetal bovine serum were equipotent with insulin in stimulating pp90rsk and pp44mapk activities in adipocytes, but were without effect on hexose uptake. These data indicate that activation of these enzymes is not sufficient for the acute stimulation of glucose transport.
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PMID:Characterization of the mitogen-activated protein kinase/90-kilodalton ribosomal protein S6 kinase signaling pathway in 3T3-L1 adipocytes and its role in insulin-stimulated glucose transport. 829 68

Both bombesin and epidermal growth factor (EGF) are potent mitogens in Swiss 3T3 cells that nonetheless have dissimilar receptor structures. To explore possible common intracellular events involved in the stimulation of cellular growth by these two peptides, we have evaluated the regulation of the mitogen-activated protein (MAP) kinase. Exposure of Swiss 3T3 cells to bombesin, EGF or the protein kinase C activator phorbol 12-myristate 13-acetate (PMA) causes the rapid and transient stimulation of the enzyme activity. Pretreatment of cells with the protein kinase inhibitor H-7, or down-regulation of cellular protein kinase C by prolonged exposure to PMA, causes a decrease of over 90% in the activation of MAP kinase by bombesin. In contrast, these treatments have no effect on the stimulation of MAP kinase by EGF. The stimulation of MAP kinase activity by bombesin is dose-dependent, occurring over a narrow concentration range of the peptide. Both EGF and bombesin stimulate the phosphorylation of an immunoprecipitable MAP kinase protein migrating at 42 kDa on SDS/PAGE. Phosphoamino acid analysis of this phosphorylated protein reveals that EGF and bombesin stimulate phosphorylation on tyrosine, threonine and serine residues. Tyrosine phosphorylation of the enzyme, as evaluated by antiphosphotyrosine blotting of the immunoprecipitated protein, reveals that the time course of phosphorylation by both mitogens correlates with stimulation of enzyme activity. These results provide further evidence for the convergence of discrete pathways emanating from tyrosine kinase and G-protein-linked receptors in the regulation of MAP kinase.
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PMID:Bombesin and epidermal growth factor stimulate the mitogen-activated protein kinase through different pathways in Swiss 3T3 cells. 838 Sep 87

Treatment of cells with agents that stimulate the release of arachidonic acid causes increased serine phosphorylation and activation of cytosolic phospholipase A2 (cPLA2). Here we report that cPLA2 is a substrate for mitogen-activated protein (MAP) kinase. Moreover, phosphorylation by MAP kinase increases the enzymatic activity of cPLA2. The site of cPLA2 phosphorylation by MAP kinase, Ser-505, is identical to the major site of cPLA2 phosphorylation observed in phorbol ester-treated cells. Replacement of Ser-505 with Ala resulted in a mutant cPLA2 that is not a substrate for MAP kinase and causes little or no enhanced agonist-stimulated arachidonate release from intact cells. Taken together, these data indicate that MAP kinase mediates, at least in part, the agonist-induced activation of cPLA2.
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PMID:cPLA2 is phosphorylated and activated by MAP kinase. 838 Oct 49

Xenopus 45-kDa mitogen-activated protein (MAP) kinase kinase (MAPKK) is a serine/threonine/tyrosine kinase, which activates MAP kinase (MAPK) by phosphorylating its threonine and tyrosine residues. MAPKK is active only when its threonine and/or serine residues are phosphorylated. We have identified from Xenopus eggs two protein kinases responsible for phosphorylation of MAPKK. The two kinases are separated by Sephacryl S-300 gel filtration chromatography. The higher molecular weight kinase phosphorylates MAPKK previously dephosphorylated and inactivated by phosphatase 2A treatment on mainly serine and slightly threonine residues, and reactivates the MAPKK, and is thus assumed to work as MAPKK kinase (MAPKKK) in vivo. The lower molecular weight kinase, identified as MAPK, phosphorylates the dephosphorylated MAPKK on mainly threonine and faintly serine residues, but does not reactivate the MAPKK activity. As Xenopus MAPKK contains a single phosphorylation consensus sequence (PXT388P) for MAPK in the C-terminal region, this T388 residue may be a major phosphorylation site catalyzed by MAPK. Thus, Xenopus MAPKK is phosphorylated in mature oocytes by not only an upstream kinase, MAPKKK, but also a downstream kinase, MAPK.
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PMID:Phosphorylation of Xenopus mitogen-activated protein (MAP) kinase kinase by MAP kinase kinase kinase and MAP kinase. 838 23

Nerve growth factor treatment of PC12 cells results in the rapid activation of MAP kinases. These enzymes are activated through interaction with a protein "activator." The mitogen-activated protein (MAP) kinase activator has been partially purified by ion exchange and gel filtration chromatography. The activator has an apparent molecular mass of 50-60 kDa. The MAP kinase activator is rapidly generated in response to nerve growth factor (NGF) and can be detected within 30 s of exposure, reaching maximal levels within 2 min and then declining to near basal levels by 15-20 min. The activation of MAP kinase is dependent upon the time of incubation with the activator and on activator concentration. The MAP kinase activator is itself a protein kinase that phosphorylates MAP kinases and mediates their activation. The NGF-stimulated MAP kinase activator phosphorylates MAP kinase on serine, threonine, and tyrosine residues, establishing this enzyme as dual specific kinase. The MAP kinase activator is itself a phosphoprotein whose phosphorylation on tyrosine residues is stimulated upon NGF treatment of the cells. The enzyme activity of MAP kinase activator is abolished by treatment with both the tyrosine-specific phosphatase PTP-1 and the serine/threonine-specific phosphatase PP2A. The activator is produced in response to NGF, epidermal growth factor, and fibroblast growth factor. The protein kinase inhibitor K252a selectively inhibits the ability of NGF to generate MAP kinase activator activity. These data suggest that the upstream events governing MAP kinase activation involve the regulated phosphorylation of dual specificity MAP kinase activator as an immediate consequence of receptor activation.
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PMID:Identification and characterization of a nerve growth factor-stimulated mitogen-activated protein kinase activator in PC12 cells. 838 98

In dog thyroid epithelial cells (thyrocytes) in primary culture, thyrotropin (TSH) acting through cAMP induces proliferation and differentiation expression, whereas epidermal growth factor (EGF) and tumor-promoting phorbol esters induce proliferation and dedifferentiation. In these cells we have demonstrated mitogen-activated protein (MAP) kinase phosphorylation by 32P labeling and two-dimensional gel electrophoresis and by immunodetection with anti-MAP kinase and anti-phosphotyrosine antibodies after one- or two-dimensional gel electrophoresis. MAP kinase localization was demonstrated by immunochemical staining. We show the following results. (i) As in other systems, EGF and phorbol esters induced p42 and p44 MAP kinases phosphorylation on tyrosine, serine, and threonine. This effect was rapid, peaking after 5 and 15 min, respectively, followed by a slow decline thereafter. It preceded a translocation of MAP kinase immunoreactivity from cytoplasm to nucleus. (ii) Carbamylcholine, a potent stimulator of the Ca(2+)-phosphatidylinositol cascade which is unable to induce DNA synthesis, stimulated MAP kinases phosphorylation and nuclear staining with kinetics similar to those observed after EGF action, indicating that MAP kinase phosphorylation was not sufficient for mitogenesis. (iii) The cAMP-dependent mitogenic cascade elicited by TSH and forskolin did not involve the phosphorylation and nuclear translocation of p42 and p44 MAP kinases at any time during the entire prereplicative phase. Activation of MAP kinases by phosphorylation is therefore not a necessary step in the G0-G1 transition in this mitogenic cascade.
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PMID:Phosphorylation of mitogen-activated protein kinases is involved in the epidermal growth factor and phorbol ester, but not in the thyrotropin/cAMP, thyroid mitogenic pathway. 838 60


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