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)

One of the earliest cellular responses to growth factors is the rapid induction of primary response genes. One group of such genes was originally isolated as tetradecanoyl phorbol acetate (TPA) inducible sequences (TIS genes) from mouse 3T3 cells. Proteins encoded by the TIS genes include two transcription factors: TIS8 (also known as egr1/NGFIA/zif268) and TIS1 (also known as NGFIB/nur77/N10). We have examined the inducibility of these two genes in a skeletal muscle cell line in response to agents that have been reported to block muscle differentiation. We report here that basic fibroblast growth factor (bFGF) induced the expression of both TIS1 and TIS8 in mouse C2C12cells. Both genes were also inducible by TPA while forskolin which activates the cAMP-dependent pathway induced TIS1 but not TIS8. Down-regulation of protein kinase C (PKC) activity by TPA pretreatment repressed the bFGF induction of TIS1 but had little effect on the bFGF-stimulated expression of TIS8. Moreover, while both TPA and bFGF stimulated the hyperphosphorylation of c-RAF and the activity of MAP kinase, TPA pretreatment failed to block RAF phosphorylation or the stimulation of MAP kinase activity by bFGF. Induction of the two TIS genes in skeletal myoblasts therefore appeared to be dependent to different extents on the activation of protein kinase A (PKA), PKC and MAP kinase.
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PMID:Differential regulation of primary response gene expression in skeletal muscle cells through multiple signal transduction pathways. 771 27

The nonactivated estrogen receptor (naER) has been isolated and purified to absolute homogeneity from the goat uterine cytosol. It is a 66-kDa protein, sedimenting at 4.2 S on linear sucrose density gradients and having a Stokes radius of 36 A. It displays high affinity and specificity for estradiol and diethyl stilbestrol with a Kd of 1 x 10(-10) M. CNBr peptide analysis reveals that it has a primary structure distinctly different from that of the regular estrogen receptor even though anti-ER antibody cross-reacts with the nonactivated ER. The protein gains access to the DNA only upon dimerization with the estrogen receptor activation factor (E-RAF), a DNA-binding protein having no capacity to bind estradiol. Analysis reveals that both naER and E-RAF are protein kinases. While the E-RAF is a serine kinase, naER functions as a tyrosine kinase. No protein kinase activity is displayed by the regular estrogen receptor. The protein kinase activity of the naER is inhibited in the presence of estradiol. Similarly, the protein kinase activities associated with the proteins disappear when the naER and E-RAF are brought together.
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PMID:The nonactivated estrogen receptor (naER) of the goat uterus is a tyrosine kinase. 813 28

We used a Saccharomyces cerevisiae genetic system to detect the physical interaction of RAS and RAF oncoproteins. We also observed interaction between RAS and byr2, a protein kinase implicated as a mediator of the Schizosaccharomyces pombe ras1 protein. Interaction with RAS required only the N-terminal domains of RAF or byr2 and was disrupted by mutations in either the guanine nucleotide-binding or effector-loop domains of RAS. We observed interaction between MEK (a kinase that phosphorylates mitogen-activated protein kinases) and the catalytic domain of RAF. RAS and MEK also interacted but only when RAF was overexpressed.
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PMID:Complex formation between RAS and RAF and other protein kinases. 832 1

The role of Raf and MAPK (mitogen-activated protein kinase) during the maturation of Xenopus oocytes was investigated. Treatment of oocytes with progesterone resulted in a shift in the electrophoretic mobility of Raf at the onset of germinal vesicle breakdown (GVBD), which was coincident with the activation of MAPK. Expression of a kinase-defective mutant of the human Raf-1 protein (KD-RAF) inhibited progesterone-mediated MAPK activation. MAPK activation was also inhibited by KD-Raf in oocytes expressing signal transducers of the receptor tyrosine kinase (RTK) pathway, including an activated tyrosine kinase (Tpr-Met), a receptor tyrosine kinase (EGFr), and Ha-RasV12. KD-RAF completely inhibited GVBD induced by the RTK pathway. In contrast, KD-RAF did not inhibit GVBD and the progression to Meiosis II in progesterone-treated oocytes. Injection of Mos-specific antisense oligodeoxyribonucleotides inhibited MAPK activation in response to progesterone and Tpr-Met, but failed to inhibit these events in oocytes expressing an oncogenic deletion mutant of Raf-1 (delta N'Raf). Injection of antisense oligodeoxyribonucleotides to Mos also reduced the progesterone- and Tpr-Met-induced electrophoretic mobility shift of Xenopus Raf. These results demonstrate that RTKs and progesterone participate in distinct yet overlapping signaling pathways resulting in the activation of maturation or M-phase promoting factor (MPF). Maturation induced by the RTK pathway requires activation of Raf and MAPK, while progesterone-induced maturation does not. Furthermore, the activation of MAPK in oocytes appears to require the expression of Mos.
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PMID:Requirement for Raf and MAP kinase function during the meiotic maturation of Xenopus oocytes. 833 90

We have identified and characterized two genes in Drosophila whose products are required for activated RAS to signal with normal efficiency, but do not appear to effect signaling by activated RAF. One encodes the beta subunit of type I geranylgeranyl transferase, a prenylation enzyme essential for targeting RAS to the plasma membrane. The other encodes a protein kinase that we have named kinase suppressor of ras (ksr). By genetic criteria, we show that KSR functions in multiple receptor tyrosine kinase pathways. We have isolated mammalian homologs of KSR that, together with the Drosophila gene, define a novel class of kinases. Our results suggest that KSR is a general and evolutionarily conserved component of the RAS signaling pathway that acts between RAS and RAF.
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PMID:KSR, a novel protein kinase required for RAS signal transduction. 852 6

The oncogenes RAS and RAF came to view as agents of neoplastic transformation. However, in normal cells, these genes can have effects that run counter to oncogenic transformation, such as arrest of the cell division cycle, induction of cell differentiation, and apoptosis. Recent work has demonstrated that RAS elicits proliferative arrest and senescence in normal mouse and human fibroblasts. Because the Raf/MEK/MAP kinase signaling cascade is a key effector of signaling from Ras proteins, we examined the ability of conditionally active forms of Raf-1 to elicit cell cycle arrest and senescence in human cells. Activation of Raf-1 in nonimmortalized human lung fibroblasts (IMR-90) led to the prompt and irreversible arrest of cellular proliferation and the premature onset of senescence. Concomitant with the onset of cell cycle arrest, we observed the induction of the cyclin-dependent kinase (CDK) inhibitors p21(Cip1) and p16(Ink4a). Ablation of p53 and p21(Cip1) expression by use of the E6 oncoprotein of HPV16 demonstrated that expression of these proteins was not required for Raf-induced cell cycle arrest or senescence. Furthermore, cell cycle arrest and senescence were elicited in IMR-90 cells by the ectopic expression of p16(Ink4a) alone. Pharmacological inhibition of the Raf/MEK/MAP kinase cascade prevented Raf from inducing p16(Ink4a) and also prevented Raf-induced senescence. We conclude that the kinase cascade initiated by Raf can regulate the expression of p16(Ink4a) and the proliferative arrest and senescence that follows. Induction of senescence may provide a defense against neoplastic transformation when the MAP kinase signaling cascade is inappropriately active.
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PMID:Senescence of human fibroblasts induced by oncogenic Raf. 976 2

The mechanisms used by insulin to activate the multifunctional intracellular effectors, extracellular signal-regulated kinases 1 and 2 (ERK1/2), are only partly understood and appear to vary in different cell types. Presently, in rat adipocytes, we found that insulin-induced activation of ERK was blocked (a) by chemical inhibitors of both phosphatidylinositol 3-kinase (PI3K) and protein kinase C (PKC)-zeta, and, moreover, (b) by transient expression of both dominant-negative Deltap85 PI3K subunit and kinase-inactive PKC-zeta. Further, insulin effects on ERK were inhibited by kinase-inactive 3-phosphoinositide-dependent protein kinase-1 (PDK-1), and by mutation of Thr-410 in the activation loop of PKC-zeta, which is the target of PDK-1 and is essential for PI3K/PDK-1-dependent activation of PKC-zeta. In addition to requirements for PI3K, PDK-1, and PKC-zeta, we found that a tyrosine kinase (presumably the insulin receptor), the SH2 domain of GRB2, SOS, RAS, RAF, and MEK1 were required for insulin effects on ERK in the rat adipocyte. Our findings therefore suggested that PDK-1 and PKC-zeta serve as a downstream effectors of PI3K, and act in conjunction with GRB2, SOS, RAS, and RAF, to activate MEK and ERK during insulin action in rat adipocytes.
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PMID:Protein kinase C-zeta and phosphoinositide-dependent protein kinase-1 are required for insulin-induced activation of ERK in rat adipocytes. 1052 30

Fibroblast growth factor-2 (FGF-2) acts as both a potent mitogen and differentiation factor for CNS glia. In the present study, we provide evidence that intracellular cAMP determines the proliferation-differentiation decision of astroglia to FGF-2 by either facilitating FGF-2 signalling to extracellular signal-related protein kinase (ERK) or cAMP response element binding protein (CREB). Pharmacologically increasing intracellular cAMP levels in cultured cortical astroglia by treatment with dbcAMP or forskolin attenuated FGF-2-induced ERK phosphorylation and glial cell proliferation. Similarly, FGF-2-induced glial proliferation was attenuated in the presence of the MEK inhibitor, PD98059, thus, confirming a direct correlation between FGF-2-induced ERK activation and glial cell proliferation. On the other hand, increases in intracellular cAMP levels in cortical astroglia prolonged FGF-2-induced CREB phosphorylation and subsequently potentiated the cAMP response element-dependent transcription of the immediate early gene, c-fos. Moreover, the effects of cAMP on the time-course of FGF-2-dependent CREB phosphorylation were mimicked by PD98059, suggesting that the cAMP-induced redirection of FGF-2-signalling is linked to the RAF-MEK-ERK signalling pathway.
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PMID:Cyclic AMP modulates the response of central nervous system glia to fibroblast growth factor-2 by redirecting signalling pathways. 1155 71

We discuss the biology of Ras signal transduction and the epidemiology of ras mutations in association with disease as a background for the development of a Raf kinase inhibitor, BAY 43-9006. Knowledge of Ras effector pathways has permitted genetic validation of numerous targets involved in the Ras signaling cascade. A key Ras effector pathway involves the kinase cascade RAF/MEK/ERK (MEK: MAP/ERK kinase; ERK: extracellular signal related kinase). Indeed, we present studies of cell lines stably expressing mutant MEK constructs, which point to Raf kinase as a target for therapeutics with selective anti-tumor activity. Finally, a small molecule drug discovery program based on inhibition of Raf kinase activity is outlined and the initial pre-clinical development process of the Raf kinase inhibitor BAY 43-9006 is discussed.
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PMID:Discovery of a novel Raf kinase inhibitor. 1156 13

Sorbitol, "osmotic stress", stimulates GLUT4 glucose transporter translocation to the plasma membrane and glucose transport by a phosphatidylinositol (PI) 3-kinase-independent mechanism that reportedly involves non-receptor proline-rich tyrosine kinase-2 (PYK2) but subsequent events are obscure. In the present study, we found that extracellular signal-regulated kinase (ERK) pathway components, growth-factor-receptor-bound-2 protein, son of sevenless (SOS), RAS, RAF and mitogen-activated protein (MAP) kinase/ERK kinase, MEK(-1), operating downstream of PYK2, were required for sorbitol-stimulated GLUT4 translocation/glucose transport in rat adipocytes, L6 myotubes and 3T3/L1 adipocytes. Furthermore, sorbitol activated atypical protein kinase C (aPKC) through a similar mechanism depending on the PYK2/ERK pathway, independent of PI 3-kinase and its downstream effector, 3-phosphoinositide-dependent protein kinase-1 (PDK-1). Like PYK2/ERK pathway components, aPKCs were required for sorbitol-stimulated GLUT4 translocation/glucose transport. Interestingly, sorbitol stimulated increases in phospholipase D (PLD) activity and generation of phosphatidic acid (PA), which directly activated aPKCs. As with aPKCs and glucose transport, sorbitol-stimulated PLD activity was dependent on the ERK pathway. Moreover, PLD-generated PA was required for sorbitol-induced activation of aPKCs and GLUT4 translocation/glucose transport. Our findings suggest that sorbitol sequentially activates PYK2, the ERK pathway and PLD, thereby increasing PA, which activates aPKCs and GLUT4 translocation. This mechanism contrasts with that of insulin, which primarily uses PI 3-kinase, D3-PO(4) polyphosphoinositides and PDK-1 to activate aPKCs.
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PMID:Sorbitol activates atypical protein kinase C and GLUT4 glucose transporter translocation/glucose transport through proline-rich tyrosine kinase-2, the extracellular signal-regulated kinase pathway and phospholipase D. 1187 94

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