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)

When the supernatant fractions from extracts of control and nerve growth factor (NGF)- or dibutyryl cyclic AMP-treated PC12D cells were applied to DEAE-Sepharose columns and proteins were eluted with a gradient of NaCl, three separate peaks of kinase activity that phosphorylated microtubule-associated proteins (MAPs) were recovered. Enhancement of the kinase activity in peak 1 was noted in the case of dibutyryl cyclic AMP-treated cells. In contrast, the kinase activity in the third peak was markedly elevated, in terms of the ability to phosphorylate MAP1 and MAP2, in the case of the extract from NGF-treated cells. This activity was designated previously as NGF-dependent MAP kinase. The apparent molecular mass of the active kinase was 45-50 kDa. The apparent Km value was 35 microM for ATP with either MAP1 or MAP2 as substrate. When the kinase activity in the fractions from the DEAE-Sepharose column was assayed in the presence of Mn2+ instead of Mg2+, another NGF-stimulated kinase activity was detected in the fractions eluted by a lower concentration of NaCl than that which eluted the Mg(2+)-activated kinase. Other growth factors, namely, epidermal growth factor and basic fibroblast growth factor, also stimulated the activity of NGF-dependent MAP kinase. Possible involvement of the kinase in the outgrowth of neurites has been suggested. The NGF-induced activation of NGF-dependent MAP kinase was blocked by the presence of K-252a. In contrast, the activation of NGF-dependent MAP kinase by basic fibroblast growth factor and by epidermal growth factor was not blocked, but actually stimulated by K-252a, a result that correlates well with the analogous actions of the drug on the outgrowth of neurites that is induced by these growth factors. The latter observation strengthens the possibility of a close relationship between the outgrowth of neurites and the activation of NGF-dependent MAP kinase.
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PMID:Chromatographic resolution and characterization of a nerve growth factor-dependent kinase that phosphorylates microtubule-associated proteins 1 and 2 in PC12 cells. 132 17

To examine signal transduction events activated by oncogenic p21ras, we have studied kinases that are activated following the scrape loading of p21ras into quiescent cells. We observe rapid activation of 42 kDa and 46 kDa protein kinases. The 42 kDa kinase is the mitogen and extracellular-signal regulated kinase ERK2, (MAP2 kinase), which is activated by phosphorylation on tyrosine and threonine in response to oncogenic p21ras, while the 46 kDa kinase is likely to be another member of the ERK family. Stimulation of these kinases by oncogenic p21ras does not require the presence of growth factors, showing that oncogenic p21ras uncouples kinase activation from external signals. In ras transformed cell lines, these kinases are constitutively activated. We propose that the kinases are important components of the signal transduction pathway activated by p21ras oncoprotein.
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PMID:Activation of extracellular signal-regulated kinase, ERK2, by p21ras oncoprotein. 137 63

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

In rat 1 fibroblasts, insulin has little or no stimulatory effect on the activities of either MAP2 protein kinase or ribosomal protein S6 kinase. In contrast, in rat 1 cells that overexpress the normal human insulin receptor (rat 1 HIRc B; McClain et al. (1987) J. Biol. Chem. 262, 14663-14671), insulin activates both MAP2 and S6 kinase activities close to 5-fold. A MAP2 kinase has been purified from insulin-treated rat 1 HIRc B cells over 6300-fold by chromatography on Q-Sepharose, phenyl-Sepharose, S-Sepharose, phosphocellulose, QAE-Sepharose, UltrogelAcA54, DEAE-cellulose, and a second Q-Sepharose. Its specific activity is approximately 0.8-1 mumol.min-1.mg-1 with MAP2 and 3 mumol.min-1.mg-1 with myelin basic protein. The enzyme preparation contains one major band of Mr = 43,000 upon SDS-polyacrylamide gel electrophoresis, which is immunoblotted by antibodies to phosphotyrosine. A sequence from the 43-kDa band led to the isolation of a cDNA encoding the enzyme, which we have named ERK1 for extracellular signal-regulated kinase (Boulton et al. (1990) Science 249, 64-67).
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PMID:Purification and properties of extracellular signal-regulated kinase 1, an insulin-stimulated microtubule-associated protein 2 kinase. 184 91

Staurosporine, a potent inhibitor of protein kinase C, arrests fission yeast cell elongation specifically at a stage immediately after cell division. We isolated two genes, which, when carried on multicopy plasmids, confer drug resistance in fission yeast. One, spk1+, encodes a protein kinase highly similar (54% identity) to those encoded by the mammalian ERK1/MAP2 kinase and the budding yeast KSS1 and FUS3 genes. It is not essential for vegetative growth of Schizosaccharomyces pombe cells but is required for conjugation. The spk1+ gene product is a 45-kD protein enriched in the nucleus, and its level increases 10-fold after addition of staurosporine. The other gene pap1+ encodes an AP-1-like transcription factor that contains a region rich in basic amino acids followed by a "leucine zipper" motif. The pap1+ gene is required for spk1(+)-conferred staurosporine resistance. These two genes appear to function as a part of the fission yeast growth control pathway.
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PMID:Fission yeast genes that confer resistance to staurosporine encode an AP-1-like transcription factor and a protein kinase related to the mammalian ERK1/MAP2 and budding yeast FUS3 and KSS1 kinases. 189 30

We have established a subline of PC12 cells (PC12D) that extend neurites very quickly in response not only to nerve growth factor (NGF) but also to cyclic AMP (cAMP) in the same way as primed PC12 cells (NGF-pretreated cells). When phosphorylation of brain microtubule proteins by extracts of these cells was monitored, two distinct kinase activities were found to be increased [from three-to eightfold in terms of phosphorylation of microtubule-associated protein (MAP) 2] by a brief exposure of cells to NGF or to dibutyryl cAMP (dbcAMP). The effect of the combined stimulation with both NGF and dbcAMP was additive in terms of the phosphorylation of MAP2. The apparent molecular mass of the kinase activated by dbcAMP was 40 kDa, and this kinase appears to be cAMP-dependent protein kinase. The molecular mass of the kinase activated by NGF was 50 kDa. The latter was activated to a measurable extent after 5 min of exposure of cells to NGF: it required Mg2+ for activity but not Mn2+ or Ca2+. This kinase appears to be distinct from previously reported kinases in PC12 cells, and it has been designated as NGF-dependent MAP kinase, although its physiological substrates are not known at present. An inhibitor of protein kinases, K-252a, selectively inhibited the outgrowth of neurites from PC12D cells in response to NGF but not to dbcAMP. When this inhibitor was added to the incubation medium of cells exposed simultaneously to NGF or dbcAMP, the increase in activity of the NGF-dependent MAP kinase was selectively abolished.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A nerve growth factor-dependent protein kinase that phosphorylates microtubule-associated proteins in vitro: possible involvement of its activity in the outgrowth of neurites from PC12 cells. 216 66

Treatment of PC12 cells with either nerve growth factor (NGF), a differentiating factor, or epidermal growth factor (EGF), a mitogen, resulted in 7-15-fold activation of a protein kinase activity in cell extracts that phosphorylated microtubule-associated protein (MAP) 2 on serine and threonine residues in vitro. Both the NGF-activated kinase and the EGF-activated kinase could be partially purified by sequential chromatography on DEAE-cellulose, phenyl-Sepharose and hydroxylapatite, and were identical with each other in their chromatographic behavior, apparent molecular mass (approximately 40 kDa) on gel filtration, substrate specificity, and phosphopeptide-mapping pattern of MAP2 phosphorylated by each kinase. Moreover, both kinases were found to be indistinguishable from a mitogen-activated MAP kinase previously described in growth-factor-stimulated or phorbol-ester-stimulated fibroblastic cells, based on the same criteria. Kinase assays in gels after SDS/polyacrylamide gel electrophoresis revealed further that the NGF- or EGF-activated MAP kinase in PC12 cells, as well as the EGF-activated MAP kinase in fibroblastic 3Y1 cells resided in two closely spaced polypeptides with an apparent molecular mass of approximately 40 kDa. In addition, these MAP kinases were inactivated by either acid phosphatase treatment or protein phosphatase 2A treatment. These results indicate that MAP kinase may be activated through phosphorylation by a differentiating factor as well as by a mitogen. MAP kinase activation by EGF was protein kinase C independent; it reached an almost maximal level 1 min after EGF treatment and subsided rapidly within 30-60 min. On the other hand, NGF-induced activation of MAP kinase was partly protein kinase C dependent and continued for at least 2-3 h.
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PMID:Microtubule-associated-protein (MAP) kinase activated by nerve growth factor and epidermal growth factor in PC12 cells. Identity with the mitogen-activated MAP kinase of fibroblastic cells. 217 61

A cell-free assay has been developed to detect and characterize a nerve growth factor (NGF)-stimulated protein kinase activity in PC12 cells that phosphorylates high molecular weight microtubule-associated proteins (HMW-MAPs). The activity was partially purified and separated from other endogenous nonregulated HMW-MAP kinase activities by chromatography on heparin-Sepharose and Mono-Q resin. Characterization of the NGF-activated kinase (designated HMK) revealed the following features. 1) Both MAP1 and MAP2 are phosphorylated with approximately equal efficiencies. 2) Activation reaches a plateau within 3 min of NGF treatment and persists for approximately 60 min; subsequently, a substantial decline occurs by 5 h. 3) Maximal activation reaches 15-20-fold; activation is nearly as high with fibroblast growth factor, an agent that mimics NGF in promoting PC12 cell neuronal differentiation. 4) Epidermal growth factor and depolarizing levels of K+ stimulate HMK activity by only 2-4-fold; additional agents without PC12 cell differentiation activity (insulin, phorbol ester, and a permeant cAMP analogue) do not stimulate HMK activity. 5) The divalent cation requirement shows a preference for Mn2+ over Mg2+. 6) There is inhibition by 10 mM 2-aminopurine but not by 6-thioguanine, heparin, or NaF. 7) HMW-MAPs and myelin basic protein are effective substrates while histones IIIs and H1, dephospho-beta-casein, and S6 protein are not phosphorylated by HMK. These and other features appear to distinguish HMK from a variety of other well-characterized protein kinases as well as from other previously described NGF-activated kinases. The properties of HMK indicate that it could play a role in the signaling pathway for growth-factor-promoted neuronal differentiation.
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PMID:Nerve growth factor and fibroblast growth factor selectively activate a protein kinase that phosphorylates high molecular weight microtubule-associated proteins. Detection, partial purification, and characterization in PC12 cells. 239 35

p34cdc2 protein is found in prophase, metaphase and activated Xenopus oocytes at a similar level whereas its kinase activity oscillates within meiosis. Using an anti-PSTAIRE antibody that recognizes Xenopus p34cdc2, it was demonstrated that the major part of p34cdc2 was associated with microtubules isolated in vitro from Xenopus oocytes. Conversely, tubulin was recovered in association with p34cdc2 in p13-Sepharose pellets. The abundance of the fraction of p34cdc2 which was associated with microtubules did not oscillate during the meiotic maturation and the activation process. By contrast, the histone H1 kinase activity of p34cdc2 estimated in microtubular oocyte pellets was much higher in metaphase than in prophase oocytes. Cyclin B, which is associated in vivo with p34cdc2 in prophase and metaphase oocytes, was also present in the microtubular fractions. However, cyclin was not necessary for the binding of p34cdc2 to microtubules since p34cdc2 from activated eggs, where cyclin was missing, still copurified with microtubules. Purified MAP2, but not tubulin, was able to bind to p34cdc2, demonstrating that the association between p34cdc2 and microtubules was mediated by microtubule-associated proteins. During the meiotic maturation of Xenopus oocytes, several protein kinases were activated, among them MAP kinase. MAP kinase also associated with microtubules. It was demonstrated that both p34cdc2 kinase and MAP kinase purified from Xenopus oocytes were able to phosphorylate in vitro rat brain MAP2. However both protein kinases phosphorylated different domains of MAP2, suggesting that they might regulate microtubules in different ways.
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PMID:Association of p34cdc2 kinase and MAP kinase with microtubules during the meiotic maturation of Xenopus oocytes. 777 87

The trkB gene encodes a tyrosine kinase receptor, gp145trkB, for brain-derived neurotrophic factor (BDNF) and neurotrophin-4 (NT-4). To understand the role of gp145trkB in the nervous system, we have investigated its expression in embryonic rat hippocampal pyramidal cell cultures and examined the effects of BDNF on signal transduction in the primary neurons. The expression of trkB transcripts was established by PCR analysis and in situ hybridization. In addition to gp145trkB, the pyramidal neuronal cultures expressed transcripts specific for the NT-3 receptor gp145trkC, but not for the high-affinity NGF receptor gp140trk or for p75LNGFR, a low-affinity receptor for all known members of the NGF family of neurotrophins including the gp145trkB ligands, BDNF and NT-4. The presence of gp145trkB receptors in the primary neuronal cultures was confirmed by immunocytochemical analysis in which > 90% of the cells stained with affinity-purified polyclonal antibodies to gp145trkB. Immunoblots using this antibody revealed a single approximately 140 kDa protein in both adult hippocampus and pyramidal cultures. Addition of recombinant BDNF to these cultures induced the tyrosine phosphorylation of gp145trkB, as determined by antiphosphotyrosine staining of gp145trkB immunoprecipitates. Moreover, BDNF treatment activated the microtubule-associated protein (MAP) kinases, as determined by an increase in MAP2 phosphorylation in vitro. Both the 41 and 44 kDa forms of MAP kinase were activated by BDNF. BDNF also increased c-fos expression in over 90% of the cells. These results indicate that gp145trkB does not require p75LNGFR to form a functional receptor for BDNF in hippocampal pyramidal neurons.
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PMID:Signal transduction events mediated by the BDNF receptor gp 145trkB in primary hippocampal pyramidal cell culture. 841 Jan 87

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