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)

In the last few years several potential substrates of the insulin receptor tyrosine kinase have been identified, purified, and their cDNAs isolated. These putative substrates include: 1) pp15, a fatty acid-binding protein; 2) pp120, a plasma membrane ecto-ATPase; 3) pp42, a MAP serine/threonine kinase; 4) pp85, a subunit of the Type 1 phosphatidylinositol kinase; and 5) pp185, a phosphatidylinositol kinase binding protein. Although the tyrosine phosphorylation of several of these substrates correlates with the signalling capabilities of various mutant receptors, the role of these substrates in mediating any one of insulin's many biological responses is still unknown. In addition, recent data indicate that the tyrosine phosphorylation of pp42 may in fact be due to autophosphorylation, thereby removing it from the list of putative substrates of the insulin receptor kinase. Finally, the present review discusses the question of whether signalling occurs as a result of the tyrosine phosphorylation of substrates or via the formation of signalling complexes.
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PMID:Substrates and signalling complexes: the tortured path to insulin action. 131 56

Nerve growth factor (NGF) binds to two structurally unrelated transmembrane proteins on the surface of PC-12 cells, a 75-kDa glycoprotein with a short cytoplasmic sequence, and the trk protooncogene (pp140c-trk), a protein tyrosine kinase activated by NGF. Immediately after binding to cells, NGF induces changes in serine/threonine phosphorylation of several proteins. We have explored the relative roles of these two NGF binding proteins in mediating the activation of two intracellular kinases that may be responsible for some of these phosphorylations. The raf-1 protooncogene is a serine/threonine kinase activated by several growth factors and oncogenic proteins. Treatment of PC-12 cells with NGF increases the serine and threonine phosphorylation of raf-1 in an anti-raf-1 immunoprecipitate kinase assay. This increased phosphorylation observed in vitro is dose-dependent and transient and is accompanied by the NGF-dependent shift in the mobility of immunoblotted raf-1 on SDS sodium dodecyl sulfate-polyacrylamide gel electrophoresis, an effect thought to reflect phosphorylation. NGF-dependent activation of raf-1 is not dependent on protein kinase C, since prolonged exposure to phorbol esters under conditions that cause down-regulation of cellular protein kinase C activity has no effect on the NGF response. Expression of pp140c-trk in 3T3 fibroblasts (3T3-c-trk), as evidenced by cross-linking of 125I-NGF to the 140-kDa protein, permits the NGF-dependent activation of raf-1 kinase, detected in the immunoprecipitate kinase assay, anti-raf immunoblot shift on gel electrophoresis, and incorporation of [32P]orthophosphate into the raf-1 protein. The concentration dependence of raf-1 activation is identical in 3T3-c-trk and PC-12 cells, despite the absence of the 75-kDa NGF binding protein in 3T3-c-trk cells. NGF is without effect in untransfected 3T3 cells or in Chinese hamster ovary cells overexpressing p75, although raf-1 is present in these cells. Similarly, the NGF-dependent activation of mitogen-activated protein (MAP) kinase is detected in 3T3-c-trk cells, but not in untransfected 3T3 or Chinese hamster ovary cells overexpressing p75. As described for raf-1 activation, the NGF dose responses for MAP kinase activation in 3T3-c-trk and PC-12 cells are virtually superimposable. These data indicate that the activation of these two serine/threonine kinases by NGF is mediated solely by binding to and activating the pp140c-trk receptor.
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PMID:Nerve growth factor stimulates the activities of the raf-1 and the mitogen-activated protein kinases via the trk protooncogene. 132 11

Transcription of the proto-oncogene c-fos is stimulated rapidly and transiently by serum growth factors and mitogens. Critical for this response is the serum-response element which is bound in vivo in a ternary complex containing the transcription factors p67SRF and p62TCF (ref. 2). Disruption of the ternary complex correlates with impaired induction by serum and phorbol ester. Mitogen-activated protein (MAP) kinase is a serine/threonine kinase which is activated 1-5 minutes after treatment of cells with mitogens and growth factors that induce re-entry into the cell cycle, making MAP kinase a candidate for the transmission of proliferative signals. Here we show that p62TCF is phosphorylated by MAP kinase in vitro and that phosphorylation results in enhanced ternary complex formation. Serum-starved Swiss 3T3 cells treated with epidermal growth factor, which induces MAP kinase in these cells, are induced to express c-fos and yield p62TCF active in ternary complex formation. In contrast, treatment of Swiss 3T3 cells with insulin, which does not activate MAP kinase under these conditions, does not lead to enhanced ternary complex formation nor does it induce c-fos transcription. Our results link the expression of the human c-fos proto-oncogene to signal transduction pathways known to be activated before its own induction.
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PMID:Phosphorylation of transcription factor p62TCF by MAP kinase stimulates ternary complex formation at c-fos promoter. 132 99

Mitogen-activated protein (MAP) kinase is a serine/threonine kinase whose function is thought to be essential for the transduction of mitogenic signals. MAP kinase is activated by phosphorylation induced by a variety of extracellular stimuli, and its direct upstream activator has been identified. Using amphibian and mammalian systems, we show here that ras can activate MAP kinase and its activator. Injection of v-Ha-ras p21 into Xenopus immature oocytes activated both MAP kinase and maturation-promoting factor (MPF) activities. The activation of MAP kinase preceded that of MPF, demonstrating that ras activates MAP kinase in an MPF-independent pathway. Moreover, we found that the MAP kinase activator is also activated in ras-injected oocytes. Activation of MAP kinase and its activator occurred also when the v-Ki-ras gene was conditionally induced in rat fibroblastic 3Y1 cells. Furthermore, we observed that ras activated MAP kinase and its activator in a cell-free system prepared from Xenopus oocytes. Using an antibody against the Xenopus 45-kDa MAP kinase activator, we demonstrated that the 45-kDa activator molecule was activated by ras. These findings suggest that the MAP kinase activator/MAP kinase system may be the downstream components of ras signal transduction pathways.
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PMID:Activation of mitogen-activated protein kinase and its activator by ras in intact cells and in a cell-free system. 132 97

We have investigated the activation of mitogen-activated protein kinase (MAP-kinase) in KB human epidermoid carcinoma cells treated with interleukin 1 (IL-1). MAP-kinase activity was transient; the time required for activity to reach a maximal level was dependent upon the dose of IL-1, ranging from 15 minutes to 45 minutes. The level of kinase induction correlated well with dose-response curves for two characteristic IL-1-induced responses, PGE2 and IL-6 production. MAP-kinase activity returned to basal levels within 2 hours regardless of the amount of IL-1 added to the system. Exposure of KB cells to free IL-1 was accordingly restricted to periods of 2 hours or less, by replacing IL-1 with an excess of IL-1 receptor antagonist. Even after 2 hours exposure, the ability of IL-1 to induce IL-6 or PGE2 was still IL-1ra-inhibitable by more than 80%, suggesting that events downstream of, or parallel to MAP-kinase activation, requiring the continual formation of new IL-1 receptor complexes, are needed to fully elicit these responses. Two general serine/threonine kinase inhibitors, K252a and quercetin, were found to strongly inhibit MAP kinase in vivo with ED50s of c. 100 nM and 30 microM, respectively. At these concentrations, both compounds effectively inhibited IL-1-driven PGE2 and IL-6 induction without affecting general protein synthesis or secretion. Other non-selective kinase inhibitors had less effect on MAP-kinase activation or IL-1-induced biological responses. The transient activation of MAP-kinase induction correlated strikingly with activation of the transcription factor NF-kappa B. IL-1-induced NF-kappa B activation was, however, relatively insensitive to inhibition by K252a or quercetin. We suggest that MAP-kinase is likely to be a necessary, but not sufficient, intermediate in some (IL-6, PGE2 induction) but not all (NF-kappa B activation) IL-1 responses in these cells.
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PMID:Evidence that MAP (mitogen-activated protein) kinase activation may be a necessary but not sufficient signal for a restricted subset of responses in IL-1-treated epidermoid cells. 133 84

MAP (mitogen-activated protein) kinase is shown to phosphorylate baculovirally expressed Raf-1 in vitro, generating one major tryptic phosphopeptide which co-migrated with a peptide from Raf-1 32P-labelled in situ. This peptide also undergoes an insulin-dependent increase in labelling. Thus the serine/threonine kinase Raf-1 may be a substrate for MAP kinase in vivo.
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PMID:Raf-1 is a potential substrate for mitogen-activated protein kinase in vivo. 165 Jan 88

Engagement of membrane IgM on a number of human and murine B-cell lines induced activation of a Mn(2+)-preferring serine/threonine kinase that phosphorylated microtubule-associated protein-2 (MAP-2) in vitro. B-cell MAP-2 kinase (MAP-2K) activity could be fractionated into two peaks by sequential DEAE and hydrophobic chromatography. Although peak I included two tyrosine phosphoproteins of molecular mass 36 and 38 kDa, peak II showed a single 42-kDa tyrosine phosphoprotein (pp42). Since all kinase activity could be removed from peak II material over an antiphosphotyrosine immune affinity column, it suggests that pp42 is identical with lymphoid MAP-2K. Although peak I activity showed a similarity to peak II with regard to its preference for Mn2+, sensitivity to phosphatase exposure, and resistance to a range of common serine kinase inhibitors, it is not clear whether these activities are related. MAP-2 kinase activity could also be induced by treatment with the phorbol ester, phorbol myristate 13-acetate, suggesting that protein kinase C may also be involved with MAP-2K regulation. Although MAP-2K activity reached a peak response within minutes of receptor ligation, there were differences in the rates of dephosphorylation of pp42 and decline of MAP-2K activity in different B-cell lines. The tyrosine phosphatase inhibitor, vanadate, transformed a rapidly reversible MAP-2K response in BAL 17.2 cells into a sustained state of activation that resembled the kinetics of activation in WEHI-231 cells. The latter finding implies involvement of a tyrosine phosphatase, which opposes the effect of an inducing tyrosine kinase.
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PMID:Stimulation of B-cells via the membrane immunoglobulin receptor or with phorbol myristate 13-acetate induces tyrosine phosphorylation and activation of a 42-kDa microtubule-associated protein-2 kinase. 165 69

The protein kinase MAP kinase, also called MAP2 kinase, is a serine/threonine kinase whose activation and phosphorylation are induced by a variety of mitogens, and which is thought to have a critical role in a network of protein kinases in mitogenic signal transduction. A burst in kinase activation and protein phosphorylation may also be important in triggering the dramatic reorganization of the cell during the transition from interphase to mitosis. The interphase-metaphase transition of microtubule arrays is under the control of p34cdc2 kinase, a central control element in the G2-M transition of the cell cycle. Here we show that a Xenopus kinase, closely related to the mitogen-activated mammalian MAP kinase, is phosphorylated and activated during M phase of meiotic and mitotic cell cycles, and that the interphase-metaphase transition of microtubule arrays can be induced by the addition of purified Xenopus M phase-activated MAP kinase or mammalian mitogen-activated MAP kinase to interphase extracts in vitro.
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PMID:In vitro effects on microtubule dynamics of purified Xenopus M phase-activated MAP kinase. 170 78

Bacterial expression of mouse gene Erk-1 yielded an active kinase with the same substrate specificity shown for ERK1 protein purified from rat cells. Although rat gene ERK1 is believed to encode a serine/threonine kinase based on sequence data and known ERK1 substrate phosphorylation sites, bacterially-produced mouse Erk-1 (bt-Erk-1) autophosphorylated on tyrosine in addition to serine and threonine residues. The bt-Erk-1 protein also had the capacity to reactivate the ribosomal protein S6 kinase (S6KII). Furthermore, treatment of bt-Erk-1 with either serine/threonine-specific phosphatase 2A or tyrosine-specific phosphatase 1B significantly decreased its kinase activity. These findings predict that autophosphorylation may play an important role in Erk-1/ERK1 regulation.
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PMID:Mouse Erk-1 gene product is a serine/threonine protein kinase that has the potential to phosphorylate tyrosine. 171 89

Protein phosphorylation is considered an early cellular mechanism of signal transduction by surface immunoglobulins (sIg) and other receptors of B cells. Using intact human peripheral blood B cells of young subjects labeled with orthophosphate, increased phosphorylation levels of serine/threonine and tyrosine substrates were demonstrated on indicator phosphoproteins corresponding to the CD20 isoforms and microtubule-associated protein 2 kinase after cross-linking sIg and costimulation with phorbol diesters. By contrast, stimulated B cells from certain elderly subjects displayed substantial alterations in the phosphorylation patterns of serine/threonine or tyrosine indicator phosphoproteins. Also, age-related impairments in sIg stimulated mobilization of cytosolic protein kinase C (PKC) enzymatic activity and in cytosolic calcium [Ca2+]i responses of B cells were observed with the altered phosphorylation reactions. Comparison of the substrate phosphorylation profiles to the proliferative responses of stimulated B cells from individual elderly subjects suggested a model of signal transduction in which differing stimuli have different dependencies on phosphorylation reactions. Diminished proliferative responses after sIg ligation coincided with decreased phosphorylations of either tyrosine or serine/threonine indicator substrates. However, the decreased proliferative responses of B cells from elderly subjects with substantial reductions of tyrosine phosphorylation after sIg ligation were enhanced by the direct stimulation of serine/threonine kinase activity with phorbol diesters or CD40 ligation. Experiments with kinase inhibitors evaluated the relative dependency of different B cell stimuli on tyrosine and serine/threonine phosphorylation reactions. The proliferative responses of normal B cells to sIg ligation were quite sensitive to the tyrosine kinase inhibitor genistein whereas those observed following costimulations with phorbol diesters or CD40 ligation were more resistant. However, treatment of B cells with H7, an inhibitor of PKC activity, led to a more uniform reduction of B-cell responses after different stimuli. Results from RNase protection assays of c-myc expression also suggested that different B-cell stimuli might utilize distinct intracellular signaling pathways. Both the type of stimuli and mode of sIg ligation were important in determining the stimulated levels of c-myc mRNA expression. Thus, the current findings suggest that age-related defects are present in human B cell signaling pathways as reflected by tyrosine and serine/threonine phosphorylation reactions. Also, these age-related defects can coexist with altered mobilization of PKC enzymatic activity and with alterations in [Ca2+]i and proliferative responses.
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PMID:Signal transduction in human B cells during aging: alterations in stimulus-induced phosphorylations of tyrosine and serine/threonine substrates and in cytosolic calcium responsiveness. 180 9


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