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)

The present studies have characterized the regulation of interleukin-6 (IL-6) gene expression during pokeweed mitogen (PWM)-driven human B-cell differentiation. PWM induced an early and transient increase in the expression of immediate-early response genes of the jun/fos leucine zipper family (c-jun, jun B, c-fos, and fos-B). The induction of c-jun mRNA by PWM was concentration dependent. Nuclear run-on assays showed that PWM treatment is associated with an increased rate of c-jun gene transcription. The induction of c-jun mRNA precedes the induction of IL-6 gene expression and IL-6 secretion by the B cells. c-Jun antisense, but not sense, oligodeoxynucleotide (ODN) significantly decreases PWM-related B-cell (1) proliferation; (2) IL-6 mRNA induction; (3) IL-6 secretion; and (4) nuclear extract binding to AP-1 in electrophoretic mobility shift assay. In contrast, c-Fos anti-sense ODN did not effect either IL-6 mRNA induction or IL-6 secretion triggered in B cells by PWM. The results further show activation of c-Raf-1 kinase in PWM-treated B cells. Raf-1 acts upstream to mitogen-activated protein (MAP) kinase; therefore, studies were performed to assay for MAP kinase activation in these cells. The results show an increase in phosphorylation of myelin basic protein (MBP) and c-Jun "Y" peptide in PWM-treated B cells. Taken together, these findings suggest that PWM is able to initiate an intracytoplasmic signaling cascade in normal human splenic B cells, which, at least in part, involves serine/threonine protein kinases. These results show transient induction of immediate-early response genes in B cells and support a potential role for the c-jun gene product in regulation of IL-6 transcription and secretion.
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PMID:Identification of upstream signals regulating interleukin-6 gene expression during in vitro treatment of human B cells with pokeweed mitogen. 791 42

The kinase negative aminoterminal domain of c-Raf-1 expressed as glutathione S-transferase fusion protein was phosphorylated in vitro after treatment with lysates from A431 cells and subsequent in vitro protein kinase assay. This phosphorylation was independent of stimulation of the cells with EGF; it occurred exclusively on serine and was mapped to Ser259. The identical site of c-Raf-1 was phosphorylated in A431 cells by metabolic labelling in vivo. The kinase binding domain was mapped by various GST-Raf deletion mutants to c-Raf-1 aminoacid residues 181 to 255.
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PMID:The aminoterminus of c-Raf-1 binds a protein kinase phosphorylating Ser259. 798 May 51

Around the time of birth, cardiac muscle cells lose the capacity to divide and, from this time on, growth of the heart occurs by hypertrophy where each cells gets bigger. The hypertrophic response is characterized by changes in gene expression including expression of the atrial natriuretic factor (ANF) and myosin light chain-2 (MLC-2) genes. In cultured neonatal ventricular myocytes, hypertrophy also involves reorganization of contractile proteins into sarcomeric units. We have investigated the role of the Raf-1 kinase in this response. Activation of an estradiol-regulated Raf-1 protein kinase led to activation of mitogen-activated protein (MAP) kinase and activated expression from the ANF and MLC-2 promoters. Raf-1-induced activation of these genes was inhibited by a kinase deficient mutant of the 44-kDa MAP kinase, Erk1 indicating a requirement for MAP kinases in the Raf-1-induced response. However, activation of Raf-1 was not sufficient to induce the organization of actin into sarcomeric units. Transfection of dominant negative Raf-1 inhibited phenylephrine-induced activation of the ANF and MLC-2 promoters. Transactivation was rescued by the introduction of increased amounts of c-Raf suggesting a role for Raf-1 in the response to alpha-adrenergic agonists. These results suggest that activation of Raf-1 kinase is a critical component of the signal transduction pathway leading to changes in gene expression associated with hypertrophy but that Raf-1 is not sufficient for the regulation of actin organization during the hypertrophic response.
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PMID:Raf-1 kinase activity is necessary and sufficient for gene expression changes but not sufficient for cellular morphology changes associated with cardiac myocyte hypertrophy. 798 77

c-Raf-1 is a serine/threonine-specific protein kinase which is regulated by phosphorylation. A putative c-AMP dependent protein kinase PKA phosphorylation site with the consensus sequence RRXS, Ser43, and a predominant phosphorylation site of c-Raf-1, Ser259, can be phosphorylated by PKA in vitro as shown by comparison of phosphopeptide maps of recombinant wild-type c-Raf-1 and the corresponding mutants. In vivo stimulation of the PKA pathway by treatment of A431 cells with Forskolin results in increase of phosphorylation in Ser43. Forskolin reduces the upshift of c-Raf-1 induced by EGF-treatment. It inhibits the EGF-activation of the c-Raf-1 protein kinase activity tested in vitro with a peptide substrate.
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PMID:Phosphorylation of c-Raf-1 by protein kinase A interferes with activation. 800 10

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

Genetic and biochemical evidence suggests that the Ras protooncogene product regulates the activation of the Raf kinase pathway, leading to the proposal that Raf is a direct mitogenic effector of activated Ras. Here we report the use of a novel competition assay to measure in vitro the relative affinity of the c-Raf-1 regulatory region for Ras-GTP, Ras-GDP, and 10 oncogenic and effector mutant Ras proteins. c-Raf-1 associates with normal Ras and the oncogenic V12 and L61 forms of Ras with equal affinity. The moderately transforming mutant Ras[E30K31] also bound to the c-Raf-1 regulatory region with normal affinity. Transformation-defective Ras effector mutants Ras[N33], Ras[S35], and Ras[N38] bound poorly. In contrast, the transformation defective Ras[G26I27] and Ras[E45] mutants bound to the c-Raf-1 regulatory region with nearly wild-type affinity. A stable, high-affinity Ras-binding region of c-Raf-1 was mapped to a 99-amino-acid subfragment of the first 257 residues. The smallest Ras-binding region identified consisted of N-terminal residues 51 to 131, although stable expression of the domain and high-affinity binding were improved by the presence of residues 132 to 149. Deletion of the Raf zinc finger region did not reduce Ras-binding affinity, while removal of the first 50 amino acids greatly increased affinity. Phosphorylation of Raf[1-149] by protein kinase A on serine 43 resulted in significant inhibiton of Ras binding. demonstrating that the mechanism of cyclic AMP downregulation results through structural changes occurring exclusively in this small Ras-binding domain.
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PMID:Critical binding and regulatory interactions between Ras and Raf occur through a small, stable N-terminal domain of Raf and specific Ras effector residues. 803 10

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

We have identified, in Xenopus oocyte cytosol, a protein kinase named REKS (Ras-dependent extracellular signal-regulated kinase (ERK)/mitogen-activated protein kinase kinase (MEK) stimulator), which phosphorylates and activates recombinant ERK2 through recombinant MEK in a recombinant GTP gamma S (guanosine 5'-(3-O-thio)triphosphate)-Ras-dependent manner. We show here that this REKS activity is synergistically enhanced by a combination of mammalian recombinant GTP gamma S-KiRas and 14-3-3 protein purified from rat brain. 14-3-3 protein is known to activate tyrosine and tryptophan hydroxylases, to modulate the protein kinase C activity, to stimulate secretion, and to show phospholipase A2 activity per se. 14-3-3 protein did not affect the MEK activity. 14-3-3 protein neither interacted with Ki-Ras nor affected the neurofibromin activity to stimulate the GTPase activity of Ki-Ras under the conditions where the recombinant N-terminal fragment of c-Raf-1 inhibited it. These results suggest that 14-3-3 protein has an additional function in the regulation of the Ras-MEK-ERK cascade pathway through the activation of REKS.
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PMID:Synergistic activation by Ras and 14-3-3 protein of a mitogen-activated protein kinase kinase kinase named Ras-dependent extracellular signal-regulated kinase kinase stimulator. 808 86

To investigate the regulation of expression of the human mdr1 gene, the response of the mdr1 promoter to signals involved in cell proliferation was examined. The activity of the mdr1 promoter was measured in transiently transfected NIH 3T3 cells, which were stimulated to enter the cell cycle by addition of serum, platelet-derived growth factor, or transforming growth factor alpha. Addition of serum to quiescent NIH 3T3 cells resulted in a 6-8-fold activation of mdr1 promoter activity, which peaked at 10 h, just prior to S-phase. Treatment of serum-starved cells with the serum mitogens platelet-derived growth factor and transforming growth factor alpha also activated the mdr1 promoter. To define components of the signal cascade resulting in mdr1 promoter activation, the role of c-Raf kinase, a serine/threonine kinase important in mitogen-activated signal transduction, was examined. We measured the effects of a constitutively activated Raf kinase, v-raf, and a dominant negative Raf mutant, c-Raf-C4, on mdr1 promoter activity in NIH 3T3 and HepG2 cells. In serum-starved NIH 3T3 cells, v-raf increased mdr1 promoter activity approximately 10-fold compared to a v-raf frame-shift control. Raf responsiveness of the mdr1 promoter was localized to sequences between -69 and -41, relative to the initiation site. Serum stimulation of the mdr1 promoter was blocked by co-transfection of NIH 3T3 cells with the dominant negative Raf mutant c-Raf-C4. In the human hepatoma cell line HepG2, which has high endogenous Raf kinase activity (Bruder, J. T., Heidecker, G., and Rapp, U. R. (1992) Genes & Dev. 6, 545-556), co-transfection with c-Raf-C4 decreased mdr1 promoter activity 20-fold. Taken together, these data suggest that the mdr1 gene is transcriptionally regulated by normal cellular signaling events involving activation of c-Raf kinase.
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PMID:A signal transduction pathway for activation of the mdr1 promoter involves the proto-oncogene c-raf kinase. 810 39

The c-Raf-1 protein kinase plays a central role in the mitogenic response of cells to growth factors, cytokines, and many oncogenes. Despite the critical importance of this enzyme, very little is known of its biochemical properties or mechanisms of regulation. In these experiments, we used the only candidate physiologic substrate identified as yet for c-Raf-1, mitogen-activated protein kinase kinase (MAPKK), to examine enzymatic characteristics and candidate modulators of c-Raf-1, c-Raf-1 was purified from Sf9 cells infected with recombinant baculovirus encoding a histidine-tagged c-Raf-1. The Km values of c-Raf-1 for ATP and MAPKK were 11.6 microM and 0.8 microM, respectively, and the stoichiometry of phosphorylation of MAPKK by c-Raf-1 was 1.67 mol of phosphate per mol of MAPKK. In contrast to prior reports, Mg2+ was the preferred cation at Mg2+ and Mn2+ concentrations > 5 mM. c-Raf-1 substrate specificity was extremely restricted, consistent with the identification of only one candidate physiologic substrate to date and highlighting the necessity of using MAPKK rather than artificial substrates in c-Raf-1 activity assays. Of multiple potential substrates tested, the only one phosphorylated to > 20% of the level of MAPKK phosphorylation was myelin basic protein (22%). Heat-denatured MAPKK was phosphorylated at only 2% the level of native MAPKK, indicating that the restricted substrate specificity may be due to tertiary-structural requirements. We also examined whether c-Raf-1 activity is modulated by lipid binding to the cysteine finger region in its regulatory domain. Of multiple mitogen-stimulated or cell-membrane lipids tested, only phosphatidylserine and diacylglycerol in the presence of Ca2+ (2.5 mM) increased c-Raf-1 kinase activity significantly (1.5-fold). The increase is probably not of physiologic significance because it was about two orders of magnitude less than the stimulation of protein kinase C by these lipids. On gel-filtration chromatography, the peak of c-Raf-1 kinase activity and immunoreactivity eluted at a predicted molecular mass of > 150 kDa, suggesting that active c-Raf-1 (but not inactive c-Raf-1) exists as a multimeric complex. This complex may not include p21ras, however, because immunoreactive p21ras was not identified in the active fractions.
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PMID:Enzymatic characteristics of the c-Raf-1 protein kinase. 810

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