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:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A central feature of signal transduction downstream of both receptor and oncogenic tyrosine kinases is the Ras-dependent activation of a protein kinase cascade consisting of Raf-1, Mek (MAP kinase kinase) and ERKs (MAP kinases). To study the role of tyrosine kinase activity in the activation of Raf-1, we have examined the properties of p74Raf-1 and oncogenic Src that are necessary for activation of p74Raf-1. We show that in mammalian cells activation of p74Raf-1 by oncogenic Src requires pp60Src to be myristoylated and the ability of p74Raf-1 to interact with p21Ras-GTP. The Ras/Raf interaction is required for p21Ras-GTP to bring p74Raf-1 to the plasma membrane for phosphorylation at tyrosine 340 or 341, probably by membrane-bound pp60Src. When oncogenic Src is expressed with Raf-1, p74Raf-1 is activated 5-fold; however, when co-expressed with oncogenic Ras and Src, Raf-1 is activated 25-fold and this is associated with a further 3-fold increase in tyrosine phosphorylation. Thus, p21Ras-GTP is the limiting component in bringing p74Raf-1 to the plasma membrane for tyrosine phosphorylation. Using mutants of Raf-1 at Tyr340/341, we show that in addition to tyrosine phosphorylation at these sites, there is an additional activation step resulting from p21Ras-GTP recruiting p74Raf-1 to the plasma membrane. Thus, the role of Ras in Raf-1 activation is to bring p74Raf-1 to the plasma membrane for at least two different activation steps.
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PMID:Ras recruits Raf-1 to the plasma membrane for activation by tyrosine phosphorylation. 754 86

Protein phosphorylation has evolved as the most versatile posttranslational modification widely used by cells. Signal transduction pathways mediated by activation of MAP kinases and protein kinase C trigger the exit of cells from the quiscence (Go-->G1 transition). Indeed, binding of growth factors at the cell surface triggers their receptors, usually possessing a tyrosine kinase on the cytoplasmic side, to phosphorylate other molecules passing on the information sequentially to GRB2 protein, to p21ras, to c-Raf-1, to MAP kinase kinase, to MAP kinase, to p90rsk, to transcription factors. Activated PKC, MAP kinase, and pp90src can translocate to the nucleus where they phosphorylate a number of protein transcription regulators in a cell cycle-dependent manner or in response to cell stimulation for exit from quiescence. The cell cycle is mainly regulated by p34cdc2 or otherwise called cdc2 in association with cyclins B at G2/M and by Cdk2 in association with cyclins A, D1, and E at G1/S checkpoints; phosphorylation of histone H1 and lamins by cdc2 triggers chromosome assembly and nuclear envelope breakdown, respectively, as a prelude to mitosis. Cdc2 activities functioning as a G2/M regulator are controlled by its phosphorylation and dephosphorylation at Ser/Thr residues. MAP kinases might be the missing link in the chain connecting the Go to G1 transition with the cell cycle regulation, whereas phosphorylation of replication protein factors, retinoblastoma, and p53 might link the G1 to S transition with the control of DNA synthesis. A number of transcription factors are known to stimulate DNA replication, including p53, c-Myc, AP-1, Oct-1, T-antigen; the DNA binding activities of all these proteins and their interaction with other transcription factors are controlled by phosphorylation. The nuclear import of several proteins including NF kappa B, Dorsal, glucocorticoid receptor, ISGF3, rNFIL-6, T antigen, and the kinases PKC, MAP, and p90rsk, are dependent on their phosphorylation at specific sites. Histone phosphorylation stimulated at discrete stages of the cell cycle or in response to cAMP or other stimuli might induce profound changes in chromatin organization.
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PMID:Phosphorylation of transcription factors and control of the cell cycle. 754 80

We have shown that the interaction of interleukin (IL)-5 with the receptor activates Lyn tyrosine kinase within 1 min and Jak2 tyrosine kinase within 1-3 min. IL-5 also stimulates GTP binding to p21ras. The signal is subsequently propagated through the activation of Raf-1, MEK, and MAP kinases as shown by their increased autophosphorylation in vitro and phosphorylation in situ. Jak2 kinase has been shown to phosphorylate STAT nuclear proteins. The activation of STAT nuclear factors was studied by electrophoretic mobility shift assay using a gamma activation site (GAS) probe. We found that IL-5 induces two GAS-binding proteins in eosinophils, one of which is STAT1. We conclude that IL-5 induced signals are propagated through two distinct pathways: (1) Lyn-->Ras-->Raf-1-->MEK-->MAP kinase and (2) Jak2-->STAT1.
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PMID:The interleukin-5/receptor interaction activates Lyn and Jak2 tyrosine kinases and propagates signals via the Ras-Raf-1-MAP kinase and the Jak-STAT pathways in eosinophils. 761 38

LPS-stimulated macrophages (M phi) produce inflammatory mediators that are largely responsible for the pathophysiology associated with septic shock. M phi respond to LPS with rapid protein phosphorylation and dephosphorylation on serine, threonine, and tyrosine residues. If these events are critical for the cellular response to LPS, the kinases and/or phosphatases involved may be vulnerable targets for pharmacologic intervention. Recent studies demonstrated that tyrosine kinase inhibitors block LPS-induced tyrosine phosphorylation of MAP kinases as well as TNF-alpha and IL-1 beta production. To investigate a role for serine/threonine phosphatases, we evaluated the effect of calyculin A, a potent serine/threonine phosphatase inhibitor, on LPS stimulation of murine M phi. Pretreatment of M phi with calyculin A inhibited LPS-induced expression of six immediate-early genes: TNF-alpha, IL-1 beta, IFN-beta, IP-10, IRF-1, and TNFR-2. Calyculin A added 1.5 h after LPS treatment greatly reduced accumulation of IP-10, IRF-1, and TNFR-2 mRNA, but not TNF-alpha, IL-1 beta, and IFN-beta mRNA. Calyculin A, in the absence or presence of LPS, resulted in sustained tyrosine phosphorylation of the MAP kinases. These findings suggest that an "early" serine/threonine phosphatase activity is essential for LPS stimulation of M phi and that the activation of MAP kinases is not sufficient for the induction of these immediate-early genes. The requirement for a "late" phosphatase activity for expression of a subset of LPS-inducible genes dissociates at least two regulatory pathways in LPS signal transduction.
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PMID:The serine/threonine phosphatase inhibitor, calyculin A, inhibits and dissociates macrophage responses to lipopolysaccharide. 763 5

Insulin is a key hormone regulating glucose homeostasis. Its major target tissues are the liver, the skeletal muscle and the adipose tissue. At the cellular level, insulin activates glucose and amino acids transport, lipid and glycogen metabolism, protein synthesis, and transcription of specific genes. Insulin-induced biological responses are mediated by a specific cell-surface receptor with tyrosine kinase activity. This receptor is a heterotetrameric protein consisting of two extracellular alpha subunits containing the ligand binding site, and two transmembrane beta subunits containing the hormone-sensitive enzymatic activity. The first step following insulin binding consists in receptor autophosphorylation on multiple specific sites and phosphorylation of cellular substrates. We will review the receptor structure, its mechanism of activation, and the autophosphorylation process. Two of the insulin receptor substrates have been identified as IRS-1 and Shc. IRS-1 is phosphorylated at several sites by the insulin receptor, and acts as a docking protein by associating several SH2-containing proteins. One of these proteins is the p85 subunit of P13-kinase which is rapidly stimulated by insulin in adipocytes and skeletal muscle. The phosphorylated IRS-1 also associates Grb2, as does the phosphorylated Shc. This allows recruitment of the preformed complex Grb2-Sos to the plasma membrane. Sos is then capable of stimulating the Ras protein, which in turn activates Raf, the first element of the MAP-kinase cascade. The role of these proteins in insulin signalling will be discussed.
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PMID:[Mechanism of insulin action]. 764 65

The ability of the receptor for the hematopoietic cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF) to function in non-hematopoietic cells is unknown. NIH3T3 fibroblasts were transfected with cDNAs encoding the alpha and beta subunit of the human GM-CSF receptor and a series of stable transformants were isolated that bound GM-CSF with either low (KD = 860 - > 1000 pM) or high affinity (KD = 20-80 pM). Low affinity receptors were not functional. However, the reconstituted high affinity receptors were found to be capable of activating a number of signal transduction pathways, including tyrosine kinase activity, phosphorylation of Raf-1, and the transient induction of c-fos and c-myc mRNAs. The activation of protein tyrosine phosphorylation by GM-CSF in NIH3T3 cells was rapid (< 1 min) and transient (peaking at 5-20 min) and resulted in the phosphorylation of proteins of estimated molecular weights of 42, 44, 52/53 and 58-60 kDa. Some of these proteins co-migrated with proteins from myeloid cells that were phosphorylated on tyrosine residues in response to GM-CSF. In particular, p42 and p44 were identified as mitogen-activated protein kinases (MAP kinases), and the phosphorylation on tyrosine residues of p42 and p44 MAP kinases occurred at the same time as the phosphorylation of Raf-1. However, despite evidence for activation of many mitogenic signal transduction molecules, GM-CSF did not induce significant proliferation of transfected NIH3T3 cells. These results suggest that murine fibroblasts contain signal transducing molecules that can effectively interact with the human GM-CSF receptor, and that are sufficient to activate at least some of the same signal transduction pathways this receptor activates in myeloid cells, including activation of one or more tyrosine kinase(s). However, the level of activation of signal transduction is either below a threshold of necessary activity or at least one mitogenic signal necessary for proliferation is missing.
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PMID:The human granulocyte-macrophage colony-stimulating factor receptor is capable of initiating signal transduction in NIH3T3 cells. 768 77

Many tyrosine kinase growth factor receptors activate the MAP Kinase (MAPK) pathway by stimulating the activity of the RAF kinase. In some, but not all cell types, the expression of activated RAF is sufficient to induce constitutive MAPK activation. In BAC-1.2F5 macrophages the expression of virally activated RAF does not correlate with constitutive MAPK activation; on the contrary, growth factor-mediated stimulation of MAPK activity is suppressed in these cells. Suppression correlates with v-RAF expression, as MAPK activation is normal in a revertant cell line that stopped expressing v-RAF. Inhibition of MAPK activation is associated with lack of ERK-2 tyrosine phosphorylation, and is not due to the suppression of CSF-1-mediated MEK activation. Pretreatment with vanadate restores growth factor-stimulated activation and tyrosine phosphorylation of MAPK in v-RAF-expressing macrophages, indicating the involvement of a tyrosine phosphatase. Interestingly, v-RAF-expressing macrophages contain low constitutive levels of MKP-1 mRNA, an immediate early gene that encodes a MAPK-specific phosphatase and is induced in the parental cell line by CSF-1 treatment. The restoration of MAPK activation by vanadate pretreatment and the presence of MKP-1 mRNA in v-RAF-expressing macrophages raise the intriguing possibility that in macrophages RAF may be feeding back on the MAPK pathway by participating in the control of MKP-1 expression.
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PMID:Suppression of growth factor-mediated MAP kinase activation by v-raf in macrophages: a putative role for the MKP-1 phosphatase. 770 Jun 43

Vascular endothelial growth factor (VEGF; also known as vascular permeability factor) is a secreted angiogenic growth factor. It is highly specific for endothelial cells, and its receptor, the fms-like tyrosine kinase (flt), has been localized only to endothelial cells in vivo. Here we describe the expression of mRNA encoding flt in human trophoblast as revealed by in situ hybridization. This mRNA is highly expressed in the cytotrophoblast shell and columns and also highly expressed by the extravillous trophoblast (EVT) in the maternal decidua both in the first trimester and at term. The trophoblast-like choriocarcinoma cell line BeWo also expresses this receptor and the related receptor, kinase domain-containing receptor (KDR), which is also a receptor for VEGF. Treatment of the cell line BeWo with VEGF165 stimulated 3H-thymidine incorporation and tyrosine phosphorylation of MAP (mitogen-activated protein) kinase in a time- and dose-dependent fashion. This study is the first demonstration of the presence of flt on non-endothelial cells in vivo and suggests a role for VEGF in the growth and differentiation of cytotrophoblast at implantation.
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PMID:Vascular endothelial growth factor receptor localization and activation in human trophoblast and choriocarcinoma cells. 780 24

Stimulation of Gi-coupled receptors leads to the activation of mitogen-activated protein kinases (MAP kinases). In several cell types, this appears to be dependent on the activation of p21ras (Ras). Which G-protein subunit(s) (G alpha or the G beta gamma complex) primarily is responsible for triggering this signaling pathway, however, is unclear. We have demonstrated previously that the carboxyl terminus of the beta-adrenergic receptor kinase, containing its G beta gamma-binding domain, is a cellular G beta gamma antagonist capable of specifically distinguishing G alpha- and G beta gamma-mediated processes. Using this G beta gamma inhibitor, we studied Ras and MAP kinase activation through endogenous Gi-coupled receptors in Rat-1 fibroblasts and through receptors expressed by transiently transfected COS-7 cells. We report here that both Ras and MAP kinase activation in response to lysophosphatidic acid is markedly attenuated in Rat-1 cells stably transfected with a plasmid encoding this G beta gamma antagonist. Likewise in COS-7 cells transfected with plasmids encoding Gi-coupled receptors (alpha 2-adrenergic and M2 muscarinic), the activation of Ras and MAP kinase was significantly reduced in the presence of the coexpressed G beta gamma antagonist. Ras-MAP kinase activation mediated through a Gq-coupled receptor (alpha 1-adrenergic) or the tyrosine kinase epidermal growth factor receptor was unaltered by this G beta gamma antagonist. These results identify G beta gamma as the primary mediator of Ras activation and subsequent signaling via MAP kinase in response to stimulation of Gi-coupled receptors.
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PMID:Direct evidence that Gi-coupled receptor stimulation of mitogen-activated protein kinase is mediated by G beta gamma activation of p21ras. 780 6

Flt-1 (fms-like tyrosine kinase-1), a receptor-type tyrosine kinase of sharing similar features with two other flt-family encoded proteins KDR/Flk-1 and Flt-4, has been recently identified as a receptor for Vascular Endothelial Growth Factor (VEGF) known to induce the proliferation of vascular endothelial cells. In this study, we demonstrate that Flt-1 encodes for a 180 kDa glycoprotein, binds VEGF with high affinity, undergoes autophosphorylation but does not generate any mitogenic response in transfected NIH3T3 fibroblasts. Interestingly, the immediate early gene c-myc was not induced, whereas the c-fos was induced very weakly in Flt-1 expressing NIH3T3 cells. A comparative analysis of the Flt-1 signal cascade in the environment of endothelial cells with that of Flt-1 expressing NIH3T3 cells showed that VEGF induced phosphorylation of PLC gamma and GAP complex on tyrosine in both type of cells. However, a strong activation of MAP kinases was observed only in endothelial cells. Further, different from many other receptor tyrosine kinases, tyrosine phosphorylation of Shc protein, an important adaptor for signal transduction from many receptor kinases, was very weak in both Flt-1-NIH3T3 cells and endothelial cells. These results suggest that Flt-1 kinase utilizes a unique signal transduction system in endothelial cells, and the activation of the Flt-1 kinase is insufficient to trigger a mitogenic response in NIH3T3 fibroblasts.
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PMID:A unique signal transduction from FLT tyrosine kinase, a receptor for vascular endothelial growth factor VEGF. 782 66


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