EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Depolarization of cultured bovine adrenal chromaffin cells with KCl increased the activity of a proline-directed protein kinase that phosphorylates tyrosine hydroxylase. Characterization of the KCl-activated protein kinase activity revealed that it shared similar biochemical and chromatographic properties with the microtubule-associated protein-2 kinase/extracellularly regulated kinase (MAP/ERK) family of protein kinases. This protein kinase activity was found to elute from Mono Q, Superose, and phenyl-Sepharose columns under conditions described for MAP/ERK kinases, and active fractions were found to react with specific antibodies directed against ERKs. The KCl-activated protein kinase was found to phosphorylate the serine 31 site of endogenous bovine adrenal tyrosine hydroxylase. This phosphorylation resulted in an approximately 2-fold activation of tyrosine hydroxylase.
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PMID:Microtubule-associated protein kinase-2 phosphorylates and activates tyrosine hydroxylase following depolarization of bovine adrenal chromaffin cells. 798 31

A colony-stimulating factor 1 (CSF-1)-dependent murine macrophage cell line (BAC1.2F5) and peritoneal macrophages were used to investigate the relationship between growth factor-dependent phosphorylation/activation of the 85-kDa cytosolic phospholipase A2 (cPLA2) and arachidonic acid metabolism. The addition of CSF-1 to quiescent BAC1.2F5 cells was followed by the rapid phosphorylation, electrophoretic gel retardation, and stable increase in the specific activity of cPLA2 that correlated with the activation of ERK kinases. cPLA2 phosphorylation depended on the presence of growth factor and persisted throughout the cell cycle. CSF-1 inhibited prostaglandin E2 production and did not enhance arachidonic acid release or increase the levels of lysophosphatidylcholine or glycerophosphocholine. Treatment of BAC1.2F5 cells with the calcium ionophore A23187 plus CSF-1 did not stimulate eicosanoid release. Instead, CSF-1 enhanced the rate of exogenous arachidonic acid incorporation into phosphatidylcholine and its subsequent transfer to phosphatidylethanolamine suggesting that higher rates of arachidonic acid acylation may contribute to the suppression of prostaglandin production. In peritoneal macrophages, ERK kinase activity was stimulated and cPLA2 was phosphorylated and activated in response to CSF-1. However, CSF-1 did not trigger eicosanoid release but did augment arachidonic acid mobilization and prostaglandin E2 production elicited by zymosan and A23187. Thus, cPLA2 phosphorylation/activation and calcium mobilization are not the only determinants for eicosanoid release, and additional components in differentiated tissue macrophages are also required.
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PMID:Regulation of cytosolic phospholipase A2 phosphorylation and eicosanoid production by colony-stimulating factor 1. 798 42

The stress-activated protein kinases (SAPKs), which are distantly related to the MAP kinases, are the dominant c-Jun amino-terminal protein kinases activated in response to a variety of cellular stresses, including treatment with tumour-necrosis factor-alpha and interleukin-beta (refs 1, 2). SAPK phosphorylation of c-Jun probably activates the c-Jun transactivation function. SAPKs are part of a signal transduction cascade related to, but distinct from, the MAPK pathway. We have now identified a novel protein kinase, called SAPK/ERK kinase-1 (SEK1), which is structurally related to the MAP kinase kinases (MEKs). SEK1 is a potent activator of the SAPKs in vitro and in vivo. An inactive SEK1 mutant blocks SAPK activation by extracellular stimuli without interfering with the MAPK pathway. Although alternative mechanisms of SAPK activation may exist, as an immediate upstream activator of the SAPKs, SEK1 further defines a signalling cascade that couples cellular stress agonists to the c-Jun transcription factor.
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PMID:Role of SAPK/ERK kinase-1 in the stress-activated pathway regulating transcription factor c-Jun. 799 69

Bradykinin activates adenylate cyclase via a pathway that involves the 'up-stream' regulation of phospholipase D (PLD)-catalysed hydrolysis of phosphatidylcholine and activation of protein kinase C (PKC) in airway smooth muscle [Stevens, Pyne, Grady and Pyne (1994) Biochem. J. 297, 233-239]. Coincident signal (Gs alpha and PKC) amplification of the cyclic AMP response can be completely attenuated either by diverting PLD-derived phosphatidate or by inhibiting PKC. In this regard, the coincident signal detector type II adenylate cyclase is expressed as a 110/112 kDa polypeptide in these cells. PKC alpha is not involved in the activation of adenylate cyclase, since a B2-receptor antagonist (NPC567, 10 microM) blocked its bradykinin-stimulated translocation to the membrane and was without effect against both bradykinin-stimulated PLD activity and cyclic AMP formation. Cyclic AMP formation can also be activated by platelet-derived growth factor (PDGF), via a PKC-dependent pathway, although the magnitude of the response is less than that elicited by bradykinin. Nevertheless, these results indicate that multiple receptor types employ PKC to initiate cyclic AMP signals. PDGF (10 ng/ml) elicited the marked sustained activation of extracellular-signal-regulated kinase-2 (ERK-2), whereas bradykinin (1 microM) provoked only modest transient activation of ERK-2. Deoxyadenosine (0.1 mM), a P-site inhibitor of adenylate cyclase, blocked bradykinin-stimulated cyclic AMP formation and converted the activation of ERK-2 into a sustained response. Thus the PKC-stimulated cyclic AMP response can limit the activation of ERK-2 in response to bradykinin. These studies indicate that the integration of distinct signal pathways by adenylate cyclase can determine the kinetics of ERK activation, an enzyme that appears to be important for mitogenic progression.
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PMID:Protein kinase C-dependent cyclic AMP formation in airway smooth muscle: the role of type II adenylate cyclase and the blockade of extracellular-signal-regulated kinase-2 (ERK-2) activation. 799 98

c-Jun transcriptional activity is augmented by expression of oncogenic Ras and Raf proteins. This study demonstrates a direct correlation between Ras transforming activity and c-Jun activation, supporting an important role for c-Jun in transformation by Ras. Since we observed that Ras activated c-Jun transcriptional activity by increasing phosphorylation of the c-Jun activation domain at residues Ser-63/Ser-73 and that oncogenic Ras proteins activated extracellular signal-regulated protein kinases (ERK1 and ERK2) (also known as mitogen-activated protein kinases), we evaluated the possibility that ERKs were directly responsible for c-Jun activation. Coexpression of wild-type ERKs with oncogenic Ras proteins potentiated, while kinase-defective ERKs inhibited, Ras-induced transcriptional activation from the Ras-responsive element (Ets-1/AP-1) present in the NVL-3 enhancer and the serum-response element in the c-fos promoter. In contrast, coexpression of either wild-type or kinase-defective ERKs inhibited Ras and Raf activation of c-Jun transcriptional activity. Thus, although activation of both ERK and c-Jun are downstream consequences of activation of the Ras signal transduction pathway, our results suggest that Ras-induced c-Jun phosphorylation and transcriptional activation are not a direct consequence of ERK1 and ERK2 activation.
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PMID:Oncogenic Ras activates c-Jun via a separate pathway from the activation of extracellular signal-regulated kinases. 801 10

The ERK gene has been isolated as a genomic DNA encoding a part of the receptor protein-tyrosine kinase which belongs to the EPH subfamily. We previously identified a partial complementary DNA (cDNA) encompassing the catalytic domain of ERK from the expression library of human gastric cancer with an antiphosphotyrosine antibody. Using this cDNA as a probe, the cDNAs encoding mature ERK protein were isolated. The putative mature ERK protein, a total of 967 deduced amino acid residues, showed high homology with chicken Cek5 (92.5%) and mouse Nuk (99.1%). Chromosomal in situ hybridization revealed that human ERK cDNA is localized to chromosome 1p34-35. In Northern blot analysis of normal human tissues, the ERK gene was ubiquitously expressed mainly in cells of epithelial origin but not in the brain. Studies on RNAs from 76 human tumor tissues and cell lines showed that ERK is expressed at higher levels in various tumors of epithelial origin than in corresponding normal tissues, most frequently in gastric cancers (12 of 16, 75.0%). Overexpression of ERK was also detected in one osteosarcoma cell line. These findings suggest that ERK plays some significant role in carcinogenesis in the stomach and other tissues.
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PMID:Overexpression of ERK, an EPH family receptor protein tyrosine kinase, in various human tumors. 803 77

Src homology/collagen (SHC) proteins are thought to participate in signaling through both receptor tyrosine kinases, such as the insulin receptor and the EGF (epidermal growth factor) receptor, and cytoplasmic tyrosine kinases, such as v-src and v-fps. Here we approached the insulin-induced and the insulin-like-growth-factor-I-induced (IGF-I-induced) phosphorylation of SHC proteins, and the possible role of these proteins in insulin and IGF-I signaling. First, we showed that SHC proteins are phosphorylated on tyrosine residues upon insulin and IGF-I treatment of fibroblasts transfected with a SHC cDNA construct. More important, ligand-activated insulin and IGF-I receptors phosphorylate SHC proteins in vitro, indicating that SHC proteins could be direct substrates for insulin and IGF-I receptors. Further, insulin or IGF-I treatment of SHC-transfected fibroblasts leads to immunoprecipitation of SHC proteins with insulin-receptor substrate 1 (IRS-1). We next looked at the possible effect of SHC proteins on biological responses in SHC-transfected fibroblasts. We found that the expression of exogenous SHC proteins results in an increased basal MEK (MAPK/ERK-activating kinase) activity. Further, neither the basal nor the insulin-induced or IGF-I-induced PtdIns-3-kinase activity were modified by expression of exogenous SHC proteins. These results illustrate that SHC proteins are implicated in the MAP (mitogen-activated protein)-kinase pathway, but not in that of PtdIns-3-kinase. Finally, we show that SHC-transfected cells, unlike control cells, are able to advance into the early phases of the cell cycle, and are more sensitive to the growth-promoting effect of insulin. In conclusion, SHC proteins are substrates for insulin and IGF-I receptors, and would appear to function as early post-receptor signaling components.
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PMID:Involvement of Src-homology/collagen (SHC) proteins in signaling through the insulin receptor and the insulin-like-growth-factor-I-receptor. 803 92

Chemoattractants bind to seven transmembrane-spanning, G-protein-linked receptors on polymorphonuclear leukocytes (neutrophils) and induce a variety of functional responses, including activation of microtubule-associated protein (MAP) kinase. Although the pathways by which MAP kinases are activated in neutrophils are unknown, we hypothesized that activation of the Ras/Raf pathway leading to activation of MAP/ERK kinase (MEK) would be induced by the chemoattractant f-met-leu-phe. Human neutrophils exposed to 10 nM FMLP for 30 s exhibited an MAP kinase kinase activity coeluting with MEK-1. Immunoprecipitation of Raf-1 kinase after stimulation with FMLP revealed an activity that phosphorylated MEK, was detectable at 30 s, and peaked at 2-3 min. Immunoprecipitation of Ras from both intact neutrophils labeled with [32P]orthophosphate and electropermeabilized neutrophils incubated with [32P]GTP was used to determine that FMLP treatment was associated with activation of Ras. Activation of both Ras and Raf was inhibited by treatment of neutrophils with pertussis toxin, indicating predominant linkage to the Gi2 protein. Although phorbol esters activated Raf, activation induced by FMLP appeared independent of protein kinase C, further suggesting that Gi2 was linked to Ras and Raf independent of phospholipase C and protein kinase C. Dibutyryl cAMP, which inhibits many neutrophil functional responses, blocked the activation of Raf by FMLP, suggesting that interruption of the Raf/MAP kinase pathway influences neutrophil responses to chemoattractants. These data suggest that Gi2-mediated receptor regulation of the Ras/Raf/MAP kinase pathway is a primary response to chemoattractants.
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PMID:FMLP activates Ras and Raf in human neutrophils. Potential role in activation of MAP kinase. 804 Feb 99

The simian virus 40 small tumor antigen (small t) specifically interacts with protein phosphatase type 2A (PP2A) in vivo and alters its catalytic activity in vitro. Among the substrates for PP2A in vitro are the activated forms of MEK and ERK kinases. Dephosphorylation of the activating phosphorylation sites on MEK and ERKs by PP2A in vitro results in a decrease in their respective kinase activities. Recently, it has been shown that overexpression of small t in CV-1 cells results in an inhibition of PP2A activity toward MEK and ERK2 and a constitutive upregulation of MEK and ERK2 activity. Previously, we have observed that overexpression of either ERK1, MEK1, or a constitutively active truncated form of c-Raf-1 (BXB) is insufficient to activate AP-1 in REF52 fibroblasts. We therefore examined whether overexpression of small t either alone or in conjunction with ERK1, MEK1, or BXB could activate AP-1. We found that coexpression of small t and either ERK1, MEK1, or BXB resulted in an increase in AP-1 activity, whereas expression of either small t or any of the kinases alone did not have any effect. Similarly, coexpression of small t and ERK1 activated serum response element-regulated promoters. Coexpression of kinase-deficient mutants of ERK1 and ERK2 inhibited the activation of AP-1 caused by expression of small t and either MEK1 or BXB. Coexpression of an interfering MEK, which inhibited AP-1 activation by small t and BXB, did not inhibit the activation of AP-1 caused by small t and ERK1. In contrast to REF52 cells, we observed that overexpression of either small or ERK1 alone in CV-1 cells was sufficient to stimulate AP-1 activity and that this stimulation was not enhanced by expression of small t and ERK1 together. These results show that the effects of small t on immediate-early gene expression depend on the cell type examined and suggest that the mitogen-activated protein kinase activation pathway is distinctly regulated in different cell types.
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PMID:Simian virus 40 small t antigen cooperates with mitogen-activated kinases to stimulate AP-1 activity. 806 56

Intact bovine adrenal medullary chromaffin cells were preincubated with 32PO4, and the multiple-site phosphorylation of tyrosine hydroxylase (TH) was studied. Up to eight 32P-labeled peptides were produced by tryptic hydrolysis of TH; however, all of the tryptic phosphopeptides were derived from four phosphorylation sites--Ser8, Ser19, Ser31 and Ser40. In situ regulation of 32P incorporation into the latter three sites was demonstrated with a diverse set of pharmacological agents. 32P incorporation into Ser19 was preferentially increased by brief exposures to depolarizing secretagogues. Longer treatments also increased Ser31 and Ser40 phosphorylation. Nicotine, muscarine and vasoactive intestinal polypeptide--reflecting cholinergic and non-cholinergic components of sympatho-adrenal transmission--each produced different patterns of multiple-site phosphorylation of TH. Nicotine, bradykinin and histamine increased 32P incorporation at each of the three sites whereas muscarine, angiotensin II, endothelin III, prostaglandin E1, GABA and ATP selectively increased Ser31 phosphorylation. Nerve growth factor did not influence TH phosphorylation in chromaffin cells from adult adrenal glands but selectively increased Ser31 phosphorylation in chromaffin cells isolated from calf adrenal glands. 32P incorporation into Ser40 was selectively increased by forskolin and other cAMP-acting agents whereas vasoactive intestinal polypeptide increased Ser31 and Ser40 phosphorylation. Thus, the phosphorylation of TH in bovine chromaffin cells appears to be regulated at three sites by three separate intracellular signaling pathways--Ser19 via Ca2+/calmodulin-dependent protein kinase II; Ser31 via ERK (MAP2 kinases); and Ser40 via cAMP-dependent protein kinase. These signaling pathways, as well as the extracellular signals that were effective in stimulating them, are similar to those previously described for TH in rat pheochromocytoma cells. However, several of the pharmacological agents produced different patterns of multiple-site TH phosphorylation in the bovine chromaffin cells. These differences between tissues could be accounted for by differences in the coupling/access between the extracellular signal transduction systems and the intracellular signaling pathways as opposed to differences in the intracellular signaling pathways per se.
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PMID:Multiple signaling pathways in bovine chromaffin cells regulate tyrosine hydroxylase phosphorylation at Ser19, Ser31, and Ser40. 809 28

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