EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Numerous studies have been published these last few years on the involvement of MAP kinases in signal transduction reflecting their importance in cell cycle and cell growth controls. The identification and the characterization of their direct upstream activator has considerably enlarged our understanding of the phosphorylation network. The MAP kinase kinases (MAPKKs) are dual-specificity protein kinases which phosphorylate and activate MAP kinases. To date, MAPKK homologues have been found in yeast, invertebrates, amphibians, and mammals. Moreover, the MAPKK/MAPK phosphorylation switch constitutes a basic module activated in distinct pathways in yeast and in vertebrates. MAPKK regulation studies have led to the discovery of at least four MAPKK convergent pathways in higher organisms. One of these is similar to the yeast pheromone response pathway which includes the ste11 protein kinase. Two other pathways require the activation of either one or both of the serine/threonine kinase-encoded oncogenes c-Raf-1 and c-Mos. Additionally, recent studies suggest a possible effect of the cell cycle control regulator cyclin-dependent kinase 1 (cdc2) on MAPKK activity. Finally, MAPKKs seem to be essential transducers through which signals must pass before reaching the nucleus.
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PMID:MAP kinase kinase: a node connecting multiple pathways. 800 6

Serpentine receptors coupled to the heterotrimeric G protein, Gi2, are capable of stimulating DNA synthesis in a variety of cell types. A common feature of the Gi2-coupled stimulation of DNA synthesis is the activation of the mitogen-activated protein kinases (MAPKs). The regulation of MAPK activation by the Gi2-coupled thrombin and acetylcholine muscarinic M2 receptors occurs by a sequential activation of a network of protein kinases. The MAPK kinase (MEK) which phosphorylates and activates MAPK is also activated by phosphorylation. MEK is phosphorylated and activated by either Raf or MEK kinase (MEKK). Thus, Raf and MEKK converge at MEK to regulate MAPK. Gi2-coupled receptors are capable of activating MEK and MAPK by Raf-dependent and Raf-independent mechanisms. Pertussis toxin catalyzed ADP-ribosylation of alpha i2 inhibits both the Raf-dependent and -independent pathways activated by Gi2-coupled receptors. The Raf-dependent pathway involves Ras activation, while the Raf-independent activation of MEK and MAPK does not involve Ras. The Raf-independent activation of MEK and MAPK most likely involves the activation of MEKK. The vertebrate MEKK is homologous to the Ste11 and Byr2 protein kinases in the yeast Saccharomyces cerevisiae and Schizosaccharomyces pombe, respectively. The yeast Ste11 and Byr2 protein kinases are involved in signal transduction cascades initiated by pheromone receptors having a 7 membrane spanning serpentine structure coupled to G proteins. MEKK appears to be conserved in the regulation of G protein-coupled signal pathways in yeast and vertebrates. Raf represents a divergence in vertebrates from the yeast pheromone-responsive protein kinase system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:How does the G protein, Gi2, transduce mitogenic signals? 801 90

Expression of the GTPase-deficient G alpha 16 polypeptide G alpha 16Q212L, a member of the Gq family of heterotrimeric G proteins, constitutively activated phospholipase C beta activity in Swiss 3T3 cells. Expression of G alpha 16Q212L appears to persistently stimulte a low level of protein kinase C activity which also increases protein kinase A activity in Swiss 3T3 cells. Growth of G alpha 16Q212L expressing cells was significantly inhibited relative to wild-type Swiss 3T3 cells. Bombesin-stimulated DNA synthesis was completely inhibited in G alpha 16Q212L expressing clones, whereas the growth responses to platelet-derived growth factor (PDGF) and serum were inhibited 50-80% relative to wild-type cells. In addition to the inhibition of cell growth, G alpha 16Q212L expression significantly inhibited the stimulation of protein kinase C, Raf-1, MEK, mitogen-activated protein kinase, phospholipase A2 activity, and Ca2+ mobilization in response to PDGF. In contrast, PDGF receptor activation of phospholipase C gamma, phosphatidylinositol 3-kinase, and Ras GTP loading was similar in wild-type and G alpha 16Q212L expressing clones. PDGF regulation of membrane ruffling and actin fiber assembly, responses mediated in part by phosphatidylinositol 3-kinase, were unaffected in G alpha 16Q212L expressing clones. The growth inhibitory action of G alpha 16Q212L expression in Swiss 3T3 cells is downstream of the initial SH2 domain-encoded signal transduction proteins regulated in response to PDGF receptor autophosphorylation. The findings demonstrate that constitutively activated G alpha 16Q212L persistently activates phospholipase C activity and effectively inhibits a subset of cytoplasmic signal transduction pathways involved in growth factor tyrosine kinase receptor stimulation of cell growth. G16/Gq-regulated signal transduction can acutely stimulate specific response pathways involved in mitogenesis; but persistent activation of G16/Gq-regulated effectors, including phospholipase C beta, inhibit tyrosine kinase-initiated mitogenesis. One role for G16/Gq response systems may be to modulate growth factor receptor signaling.
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PMID:Expression of GTPase-deficient G alpha 16 inhibits Swiss 3T3 cell growth. 802 Dec 43

In response to various external stimuli, MAP kinases are activated by phosphorylation on tyrosine and threonine by MAP kinase kinase (MAPKK), a dual specificity kinase. This kinase is in turn activated via Raf-1 and MAPKK kinase (MAPKKK). To determine regulatory phosphorylation sites of MAPKK, we isolated a Chinese hamster cDNA, that we epitope-tagged and expressed in fibroblasts. This hamster MAPKK (MEK1 isoform) can reactivate recombinant p44mapk when immunoprecipitated from growth factor-stimulated cells or when incubated with an active form of MAPKKK. Mutations at either of two residues that are conserved among kinases, D208N or S222A, abolished MAPKK activity. However, only S222A/MAPKK showed a reduction in phosphorylation in response to active MAPKKK and exerted a dominant negative effect on the serum-stimulated endogenous MAPKK. Finally, replacing Ser222 with Asp, a negatively charged residue, restored MAPKK activity independently of the upstream kinase. These results strongly suggest that Ser222 represents one key MAPKKK-dependent phosphorylation site switching on and off the activity of MAPKK, an event crucial for growth control.
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PMID:Constitutive mutant and putative regulatory serine phosphorylation site of mammalian MAP kinase kinase (MEK1). 803 96

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

Raf-1, a serine/threonine kinase, is required for the mitogenic action of ras p21. It has been recently demonstrated that ras p21 directly associates with Raf-1. The C-terminal region of ras p21 is modified by farnesylation and carboxyl methylation. This modification is necessary for ras p21 function. To elucidate the role of post-translational modification of ras p21 in Raf-1 activation, we examined ras p21-dependent Raf-1 activity in baculovirus/Sf9 cells overexpressing Raf-1 and ras p21. Coexpression of Raf-1 with v-ras p21 in Sf9 cells stimulated the autophosphorylating activity of Raf-1. The activity of Raf-1, as assessed by its ability to activate extracellular signal-regulated kinase kinase (MEK) in vitro, was also increased when Raf-1 was coexpressed with v-ras p21. However, neither the autophosphorylating activity of Raf-1 nor its ability to activate MEK was stimulated by v-ras p21 mutants which are not post-translationally modified. Raf-1 formed a complex with v-ras p21 and the v-ras p21 mutants in Sf9 cells. These results indicate that the post-translational modification of ras p21 is necessary for Raf-1 activation but that the association of Raf-1 with ras p21 is not sufficient to activate Raf-1.
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PMID:The post-translational modification of ras p21 is important for Raf-1 activation. 805 Oct 91

We have studied the role of Raf-1 in mitogenesis and cellular transformation induced by G protein-coupled receptors in NIH 3T3 cells transfected with the human m1 muscarinic receptor. We have observed that in m1-expressing NIH 3T3 cells, the cholinergic agonist carbachol induces a dose- and time-dependent shift in the electrophoretic mobility of p72Raf-1, equivalent to that observed when using phorbol esters or platelet-derived growth factor as stimulants. Phosphoamino acid analysis of slower mobility forms of p72Raf-1 revealed both phosphoserine and phosphothreonine. Carbachol potently induced c-Raf activity as judged by its in vitro phosphorylating activity using MEK as a substrate. However, induction of Raf-1 kinase activity by carbachol occurred much earlier than changes in its electrophoretic mobility. Raf-1 kinase activation followed a kinetic similar to that exhibited by an epitope-tagged ERK2 protein when coexpressed in the same cells. Conventional protein kinase C (PKC) inactivation by means of sustained phorbol ester treatment or by a new nontoxic PKC-specific inhibitor, GF 109203X, abolished p72Raf-1 mobility shift induced by carbachol or by phorbol esters. However, c-Raf and ERK2 enzymatic activity in response to carbachol was at least 50-80% PKC-independent. Furthermore, inhibition of PKC failed to affect DNA synthesis or focus formation induced by carbachol in cells expressing m1 receptors. In contrast, cotransfection of NIH 3T3 cells with the Raf-1 dominant negative mutant Raf-301 (K375W) drastically decreased the transforming ability of m1 receptors. Thus, our findings implicate Raf-1 activation in transformation by G protein-coupled receptors. In addition, our data suggest that activation of p72Raf-1 and ERK2 by G protein-coupled receptors involves PKC-independent pathways.
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PMID:Signaling through transforming G protein-coupled receptors in NIH 3T3 cells involves c-Raf activation. Evidence for a protein kinase C-independent pathway. 806 29

To identify proteins that may participate in the activation of the protein kinase Raf, proteins that interact with Raf were selected in a two-hybrid screen. Two members of the 14-3-3 protein family were isolated that interacted with both the amino terminal regulatory regions of Raf and the kinase domain of Raf, but did not compete with the guanine nucleotide-binding protein Ras for binding to Raf. 14-3-3 proteins associated with Raf in mammalian cells and accompanied Raf to the membrane in the presence of activated Ras. In yeast cells expressing Raf and MEK, mammalian 14-3-3 beta or 14-3-3 zeta activated Raf to a similar extent as did expression of Ras. Therefore, 14-3-3 proteins may participate in or be required for the regulation of Raf function. These findings suggest a role for 14-3-3 proteins in Raf-mediated signal transduction.
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PMID:Binding of 14-3-3 proteins to the protein kinase Raf and effects on its activation. 808 58

Human neutrophils respond to chemoattractants, resulting in their accumulation at an inflammatory site. Chemoattractants such as the C5a peptide, derived from the C5 complement factor, bind to inhibitory guanine nucleotide binding protein (Gi)-coupled seven membrane-spanning receptors expressed in neutrophils. C5a receptor activation results in the Gi-dependent activation of the mitogen-activated protein (MAP) kinase pathway in human neutrophils. C5a receptor ligation activates both B-Raf and Raf-1, with B-Raf activation overlapping but temporally distinct from that of Raf-1. B-Raf and Raf-1 both efficiently phosphorylate MAP kinase kinase (MEK-1). C5a also stimulates guanine nucleotide exchange and activation of Ras. Ras and Raf activation in response to C5a involves protein kinase C-dependent and -independent pathways. Activation of both Raf-1 and B-Raf was inhibited by protein kinase A stimulation, consistent with the inhibitory effects of increased cAMP levels on neutrophil function. The findings define a functional signal transduction pathway linking the neutrophil C5a chemoattractant receptor to the regulation of Ras, B-Raf, Raf-1, and MAP kinase.
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PMID:Mapping of the C5a receptor signal transduction network in human neutrophils. 809 Jul 90

The protein kinase cascade Raf-MAPKK/MEK-MAPK/ERK connects protein tyrosine kinase receptors in the membrane with control of transcription factor activity in the nucleus. We have examined whether Raf is obligatory for activation of this cascade and whether this signaling pathway is relevant to transformation. By use of transient assays with epitope-tagged ERK-1 cDNA and a dominant inhibitory mutant of Raf-1 we found that serum and 12-O-tetradecanoylphorbol-13-acetate as well as representatives of three classes of oncogenes (protein tyrosine kinases abl/src, Ras, and protein serine/threonine kinases mos/cot) were all Raf-dependent for stimulation of MAPK. All of the MAPK stimulating oncogenes were also activators of Raf kinase as judged by shift induction. It thus appears that there is little or no redundancy in pathways used by growth regulators for activation of MAPK/ERK. Furthermore, the ability to stimulate MAPK/ERK appears to be critical for transformation by oncogenic Raf-1 and ERK-1 and -2 synergized with v-raf in a focus induction assay on NIH3T3 cells and kinase dead mutants of ERK-2 were inhibitory. Raf/ERK synergism was also observed in transcriptional transactivation of the oncogene-response element in the polyoma enhancer. We conclude that this Raf signaling pathway, which connects to many upstream activators and downstream effectors, is essential for transformation by most oncogenes.
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PMID:Mitogen-activated protein kinase/extracellular signal-regulated protein kinase activation by oncogenes, serum, and 12-O-tetradecanoylphorbol-13-acetate requires Raf and is necessary for transformation. 812 67

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