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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)

We have previously demonstrated that growth hormone (GH) promotes an increase in tyrosine kinase activity associated with the GH receptor. To gain insight into the role of GH-dependent tyrosine kinase activity in signaling by GH, we investigated the possibility that GH might stimulate MAP kinase, a serine/threonine/tyrosine kinase thought to be a common element in tyrosine kinase-initiated response cascades. Treatment of 3T3-F442A fibroblasts with 100 ng/ml GH results in a 3-6-fold increase in the ability of cell-free extracts to phosphorylate MAP-2 and myelin basic protein. GH-stimulated kinase activity is unaffected by heparin, H7, or cAMP-dependent protein kinase inhibitor peptide, partially reduced by staurosporin and inhibited by fluoride and calcium ions, indicating that the kinase is not protein kinase C or A, casein kinase, or a calcium/calmodulin-dependent protein kinase. Based on gel permeation chromatography, the molecular mass of the GH-stimulated MAP kinase is approximately kDa. Furthermore, anti-phosphotyrosine antibodies revealed the GH-dependent appearance of two phosphotyrosine-containing proteins in cell-free lysates of GH-treated cells that co-migrate with proteins recognized by anti-MAP kinase antibodies. The GH-dependent increase in MAP kinase activity displays a biphasic time course and is dependent on the concentration of GH applied to the cells. GH-dependent MAP kinase activity, partially purified by Mono-Q chromatography, is inactivated by treatment with alkaline phosphatase. Addition of H7 to the cells prior to the addition of GH has no effect, whereas addition of H8 increases MAP kinase activity in control cells with no effect in GH-treated cells, indicating that protein kinase C is unlikely to be an intermediary in the GH-dependent stimulation of MAP kinase activity. These findings indicate that signaling by GH in 3T3-F443A cells may, at least in part, utilize a kinase cascade similar to those that have been proposed for other membrane receptors with associated tyrosine kinase activity.
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PMID:Stimulation by growth hormone of MAP kinase activity in 3T3-F442A fibroblasts. 131 28

The activating factor of ATP.Mg-dependent protein phosphatase (FA) has been identified in brain microtubules. When using purified MAP-2 (microtubule associated protein 2) and tau proteins as substrates, FA could phosphorylate MAP-2 to 16 moles of phosphates per mole of protein with a Km value of 0.4 microM, and tau proteins to 4 moles of phosphates per mole of proteins with a Km value of about 3 microM. When using microtubules as substrates, FA could enhance many-fold the endogenous phosphorylation of many microtubule-associated proteins including MAP-2, tau proteins, and several low-molecular-weight MAPs. In contrast to other reported MAP kinases, such as cAMP-dependent protein kinase and Ca+2/phospholipid-dependent protein kinase, the FA-catalyzed phosphorylation of tau proteins could cause an electrophoretic mobility shift on sodium dodecyl sulfate polyacrylamide gel electrophoresis, suggesting that a dramatic conformational change of tau proteins was produced by FA. Peptide mapping analysis of the phosphopeptides derived from SV8 protease digestion revealed that FA could phosphorylate MAP-2 and tau proteins on at least four specific sites distinctly different from those phosphorylated by cAMP-dependent and Ca+2/phospholipid-dependent MAP kinases. Quantitative analysis further indicated that approximately 19% of the total endogenous kinase activity in brain microtubules was due to FA. Taken together, the results provide initial evidence that the ATP.Mg-dependent protein phosphatase activating factor (FA) is a potent and unique MAP kinase, and may represent one of the major factors involved in phosphorylation of brain microtubules.
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PMID:Identification and characterization of the ATP.Mg-dependent protein phosphatase activator (FA) as a microtubule protein kinase in the brain. 165 23

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

We detected expression of two Raf isoforms, c-Raf and A-Raf, in neonatal rat heart. Both isoforms phosphorylated, activated, and formed complexes with mitogen-activated protein kinase kinase 1 in vitro. However, these isoforms were differentially activated by hypertrophic stimuli such as peptide growth factors, endothelin-1 (ET1), or 12-O-tetradecanoylphorbol-13-acetate (TPA) that activate the mitogen-activated protein kinase cascade. Exposure of cultured ventricular myocytes to acidic fibroblast growth factor activated c-Raf but not A-Raf. In contrast, TPA produced a sustained activation of A-Raf and only transiently activated c-Raf. ET1 transiently activated both isoforms. TPA and ET1 were the most potent activators of c-Raf and A-Raf. Both utilized protein kinase C-dependent pathways, but stimulation by ET1 was also partially sensitive to pertussis toxin pretreatment. cRaf was inhibited by activation of cAMP-dependent protein kinase although A-Raf was less affected. Fetal calf serum, phenylephrine, and carbachol were less potent activators of c-Raf and A-Raf. These results demonstrate that A-Raf and c-Raf are differentially regulated and that A-Raf may be an important mediator of mitogen-activated protein kinase cascade activation when cAMP is elevated.
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PMID:Hypertrophic agonists stimulate the activities of the protein kinases c-Raf and A-Raf in cultured ventricular myocytes. 759 40

Activation of the mitogen-activated protein kinase (MAP kinase) isoforms ERK1 and ERK2 was investigated in rat adipocytes. Kinase activities were measured by using myelin basic protein as substrate after the isoforms were resolved by Mono Q chromatography or by immunoprecipitation with specific antibodies. Insulin increased the activity of both isoforms by 3- to 4-fold. The beta-adrenergic agonist isoproterenol was without effect in the absence of insulin but markedly reduced the increases in ERK1 and ERK2 activities produced by the hormone. MAP kinase activation was also attenuated by forskolin and glucagon, which increase intracellular cAMP, and by dibutyryl-cAMP, 8-bromo-cAMP, and 8-(4-chlorophenylthio)-cAMP. Thus, increasing cAMP is associated with decreased activation of MAP kinase by insulin. Forskolin also inhibited activation of MAP kinase by several agents (epidermal growth factor, phorbol 12-myristate 13-acetate, and okadaic acid) that act independently of insulin receptors. Moreover, forskolin did not inhibit insulin-stimulated tyrosine phosphorylation of the insulin receptor substrate IRS-1. Therefore, the inhibitory effect on MAP kinase did not result from compromised functioning of the insulin receptor. The inhibitory effect was not confined to adipocytes, as forskolin and dibutyryl-cAMP inhibited the increase in MAP kinase activity by phorbol 12-myristate 13-acetate in wild-type CHO cells. In contrast, these agents did not inhibit MAP kinase activity in mutant CHO cells (line 10248) that express a cAMP-dependent protein kinase resistant to activation by cAMP. Our results suggest that activation of cAMP-dependent protein kinase represents a general counter-regulatory mechanism for opposing MAP kinase activation.
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PMID:Increasing cAMP attenuates activation of mitogen-activated protein kinase. 769 90

Cellular growth control requires the coordination and integration of multiple signaling pathways which are likely to be activated concomitantly. Mitogenic signaling initiated by thyrotropin (TSH) in thyroid cells seems to require two distinct signaling pathways, a cyclic AMP (cAMP)-dependent signaling pathway and a Ras-dependent pathway. This is a paradox, since activated cAMP-dependent protein kinase disrupts Ras-dependent signaling induced by growth factors such as epidermal growth factor and platelet-derived growth factor. This inhibition may occur by preventing Raf-1 protein kinase from binding to Ras, an event thought to be necessary for the activation of Raf-1 and the subsequent activation of the mitogen-activated protein (MAP)/extracellular signal-regulated kinase (ERK) kinases (MEKs) and MAP kinase (MAPK)/ERKs. Here we report that serum-stimulated hyperphosphorylation of Raf-1 was inhibited by TSH treatment of Wistar rat thyroid cells, indicating that in this cell line, as in other cell types, increases in intracellular cAMP levels inhibit activation of downstream kinases targeted by Ras. Ras-stimulated expression of genes containing AP-1 promoter elements was similarly inhibited by TSH. On the other hand, stimulation of thyroid cells with TSH resulted in stimulation of DNA synthesis which was Ras dependent but both Raf-1 and MEK independent. We also show that Ras-stimulated DNA synthesis required the use of this kinase cascade in untreated quiescent cells but not in TSH-treated cells. These data suggest that in TSH-treated thyroid cells, Ras might be able to signal through effectors other than the well-studied cytoplasmic kinase cascade.
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PMID:Thyrotropin-induced mitogenesis is Ras dependent but appears to bypass the Raf-dependent cytoplasmic kinase cascade. 786 10

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

MAP kinase kinase (MAPKK), a key component of the MAP kinase cascade, is activated through phosphorylation by several protein kinases, including the oncogene v-Mos and its cellular counterpart, c-Mos. The v-Mos-catalyzed phosphorylation sites on recombinant MAPKK1 were identified by electrospray ionization mass spectrometry as S218 and S222, located within a sequence that aligns with the T loop structure of cAMP-dependent protein kinase; these are the same as the Raf-1 phosphorylation site identified previously [Alessi, D. R., et al. (1994) EMBO J. 13, 1610-1619]. Phosphorylation of these sites was kinetically ordered, with S222 preferred over S218. Intramolecular autophosphorylation of these sites was kinetically ordered, with S222 preferred over S218. Intramolecular autophosphorylation of MAPKK occurred at several residues and was increased upon the stimulation of MAPKK activity by v-Mos. Major autophosphorylation sites were residues S298 and Y300. Minor autophosphorylation sites included T23, S299, S218, and either S24 or S25. Sequence similarities were noted between MAPKK autophosphorylation sites and exogenous phosphorylation sites on MAP kinase. Phosphorylation of either S218 or S222 was sufficient for partial MAPKK activation by Mos, and phosphorylation of S222 alone was sufficient for autophosphorylation at S298 and Y300. Mass spectral analysis was also performed on MAPKK1 purified from rabbit skeletal muscle. The peptide containing S218 and S222 was observed in only a singly phosphorylated form, and the peptide containing S298, S299, and Y300 was observed in multiply phosphorylated forms, suggesting that MAPKK is only partially phosphorylated within the T loop but significantly modified in the autophosphorylation loop under physiological conditions.
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PMID:Determination of v-Mos-catalyzed phosphorylation sites and autophosphorylation sites on MAP kinase kinase by ESI/MS. 787 42

Nuclear factor kappa B (NF-kappa B), consisting of p50 and p65, is bound to a cytoplasmic retention protein, I kappa B, in a resting state, and the stimulation of cells with a variety of inflammatory stimuli induces the dissociation of NF-kappa B from I kappa B and the nuclear translocation of NF-kappa B, thereby activating several genes involved in inflammatory responses, such as interleukin (IL)-6, IL-8, and tumor necrosis factor alpha. In order to elucidate the precise mechanism of NF-kappa B activation, we have established lipopolysaccharide (LPS)-dependent NF-kappa B activation in a cell-free system using plasma membrane-enriched, cytosol, and nuclear fractions extracted from a human monocytic cell line, THP-1, by disruption with sonication followed by a differential centrifugation. The combination of plasma membrane-enriched fraction and cytosol was sufficient to activate NF-kappa B in a LPS/CD14-dependent manner only in the presence of ATP as judged by the binding of NF-kappa B to the IL-8 gene kappa B site on an electrophoretic mobility shift assay. LPS-dependent NF-kappa B activation was inhibited by protein kinase inhibitors, such as staurosporine, herbimycin A, tyrphostin, and genistein, but not mitogen-activated protein kinase substrate, cGMP-dependent protein kinase, cAMP-dependent protein kinase, protein kinase C, and calmodulin-dependent protein kinase II inhibitory peptides, suggesting that staurosporine-sensitive kinase(s) as well as tyrosine kinase(s) are involved in LPS-mediated NF-kappa B activation. In addition, LPS induced the phosphorylation of I kappa B-alpha, starting at 5 min after the stimulation in a cell-free system. Moreover, the phosphorylation was inhibited by herbimycin A and tyrphostin, but not staurosporine, suggesting that these protein kinase inhibitors act at distinct steps of signal transmission. Establishment of ligand-dependent activation of NF-kappa B in a cell-free system will facilitate identification of protein kinase(s) and its substrate(s) involved in LPS-mediated NF-kappa B activation.
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PMID:Establishment of lipopolysaccharide-dependent nuclear factor kappa B activation in a cell-free system. 787 68

There is ample evidence that intracellular protein phosphorylation is a mandatory event in the process of macrophage activation by LPS, yet how this event is initiated and what roles the phosphorylated proteins are assigned to are poorly understood. We previously isolated a 65-kDa cytosolic protein (pp65) that was phosphorylated specifically in LPS-stimulated murine macrophages. In the present study, the complete primary structure of pp65 was determined on the basis of the cDNA containing an open reading frame of 1881 bases. The sequence of pp65 revealed that it is a murine homologue of human L-plastin, recently identified as a novel transformation-induced polypeptide of neoplastic human cells, and that it contains a unique series of Ca2+, calmodulin, and actin binding domains. A single phosphorylated peptide was isolated from the tryptic digest of pp65 by reverse-phase HPLC. From the amino acid sequence of the dodecapeptide Gly-Ser-Val-Ser-Asp-Glu-Glu-Met-Met-Glu-Leu-Arg, the phosphorylation site of pp65 was located at the N-terminal region adjacent to the first Ca2+ binding domain. This sequence contains a repeat of the casein kinase II motif Ser-Xxx-Xxx-Glu/Asp and, together with the preceeding Arg residue, constitutes the consensus sequence Arg-Xxx-Ser for cAMP-dependent protein kinase (PKA) and protein kinase C (PKC), but not mitogen-activated protein kinase (MAPK)-specific motif is found. These results, taken together with previous observations on the process of macrophage activation by LPS, demonstrate that pp65 is phosphorylated by an LPS-induced protein kinase other than MAPK and exerts its function on the cytoskeleton in a Ca2+/calmodulin-dependent manner.
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PMID:Complete primary structure and phosphorylation site of the 65-kDa macrophage protein phosphorylated by stimulation with bacterial lipopolysaccharide. 789 27


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