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)

Neutral endopeptidase 24.11 (NEP, CD10) is a cell-surface enzyme expressed by prostatic epithelial cells that cleaves and inactivates neuropeptides implicated in the growth of androgen-independent prostate cancer (PC). NEP substrates such as bombesin and endothelin-1 induce cell migration. We investigated the mechanisms of NEP regulation of cell migration in PC cells, including regulation of phosphorylation on tyrosine of focal adhesion kinase (FAK). Western analyses and cell migration assays revealed an inverse correlation between NEP expression and the levels of FAK phosphorylation and cell migration in PC cell lines. Constitutively expressed NEP, recombinant NEP, and induced NEP expression using a tetracycline-repressive expression system inhibited bombesin- and endothelin-1-stimulated FAK phosphorylation and cell migration. This results from NEP-induced inhibition of neuropeptide-stimulated association of FAK with cSrc protein. Expression of a mutated catalytically inactive NEP protein also resulted in partial inhibition of FAK phosphorylation and cell migration. Coimmunoprecipitation experiments show that NEP associates with tyrosine-phosphorylated Lyn kinase, which then binds the p85 subunit of phosphatidylinositol 3-kinase (PI3-K) resulting in an NEP-Lyn-PI3-K protein complex. This complex competitively blocks FAK-PI3-K interaction, suggesting that NEP protein inhibits cell migration via a protein-protein interaction independent of its catalytic function. These experiments demonstrate that NEP can inhibit FAK phosphorylation on tyrosine and PC cell migration through multiple pathways and suggest that cell migration which contributes to invasion and metastases in PC cells can be regulated by NEP.
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PMID:Neutral endopeptidase inhibits prostate cancer cell migration by blocking focal adhesion kinase signaling. 1110 93

Cyclosporin A (CsA) nephropathy is associated with altered expression of apoptosis regulatory genes such as Fas-ligand and Bcl-2 family members in the glomerular, tubulointerstitial, and vascular compartments. Both hepatocyte growth factor (HGF) and insulin-like growth factor (IGF-I) protect against apoptosis, and HGF specifically up-regulates Bcl-xL, a protein that regulates apoptosis. We investigated whether Bcl-xL and Fas/Fas-ligand were regulated by CsA in cultured podocytes and whether CsA-induced apoptosis was prevented by HGF or IGF-I. A murine podocyte cell line was treated with CsA in the presence or absence of HGF or IGF-I. Apoptosis was quantitated by ELISA and by flow cytometry; Bcl-xL, Fas, and Fas-ligand were measured by Western blotting. Inhibitors of MAP kinase/ERK kinase (MEK)-1 and of phosphatidylinositol 3'-kinase (PI3'-K) were used to determine the signaling pathways involved in Bcl-xL regulation. Apoptosis was induced by CsA in a dose- and time-dependent fashion. CsA also decreased Bcl-xL levels. HGF, but not IGF-I, prevented apoptosis and restored Bcl-xL levels. The regulation of Bcl-xL by HGF was mediated by the PI3'-K but not by the MEK-1 pathway. In summary, we showed that CsA induces apoptosis in podocytes. Apoptosis was prevented by pretreatment with HGF but not IGF-I. Decreased apoptosis appeared to be mediated by regulation of Bcl-xL via the PI3'-K pathway. Our data suggest that the effect of CsA on podocytes may contribute to the glomerular damage and that HGF could provide protection.
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PMID:Hepatocyte growth factor, but not insulin-like growth factor I, protects podocytes against cyclosporin A-induced apoptosis. 1114 1

Big mitogen-activated protein kinase 1 (BMK1) is a new member of mitogen-activated protein kinase (MAPK) family. In the present study, we investigated whether glial cell line-derived neurotrophic factor (GDNF) can induce activation of BMK1 through RET tyrosine kinase. Its activation reached a maximal level at 30 min and continued at least for 120 min after GDNF stimulation. In addition, we detected BMK1 activation in NIH3T3 cells expressing RET with a multiple endocrine neoplasia (MEN) 2A mutation. The level of BMK1 activation markedly decreased by replacement of tyrosine 1062 with phenylalanine (designated Y1062F) in RET, indicating the importance of downstream signaling via tyrosine 1062. However, although both RAS/MAPK and phosphatidylinositol 3-kinase (PI3-K)/AKT signaling pathways are activated via tyrosine 1062, BMK1 activation by GDNF was not significantly impaired by treatment with an MEK1 inhibitor, PD98059, or two distinct PI3-K inhibitors, LY294002 and wortmannin, suggesting that the RAS and PI3-K signaling pathways are not crucial for BMK1 activation by GDNF. Moreover, luciferase reporter assays revealed that RET-MEN2A mutant proteins can activate the MEF2C transcription factor that is known to be a cellular target for BMK1, and that its activation is impaired by the Y1062F mutation or by expression of a dominant negative form of MEK5.
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PMID:Activation of BMK1 via tyrosine 1062 in RET by GDNF and MEN2A mutation. 1123 12

Steel factor (SLF) plus GM-CSF induces proliferative synergy in factor-dependent cell line MO7e and hematopoietic progenitor cells. We previously reported ERK1/2 involvement in this synergy, but its downstream signaling molecules are not defined. Here, we investigated activation of the 90-kDa ribosomal S6 kinase (RSK) proteins by measuring the phosphorylation status and in vitro kinase activity in MO7e cells. Both GM-CSF and SLF induced activation of RSK, and the combined stimulation with these two cytokines induced synergistic and persistent activation of RSK. RSK activity was reduced by PI3 kinase inhibitor LY294002 or MEK1 inhibitor PD98059, suggesting that the ERK as well as the PI3 kinase pathways are involved in regulation of RSK activity. Sensitivities of RSK activity to inhibitory drugs correlated well with those of c-fos gene induction. Taken together, synergistic activation of RSK may contribute, at least in part, to the synergistic induction of c-fos after combined stimulation with GM-CSF plus SLF.
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PMID:Synergistic activation of RSK correlates with c-fos induction in MO7e cells stimulated with GM-CSF plus Steel factor. 1123 44

The members of the mitogen-activated protein (MAP) kinase family -- p44/p42 MAP kinase (ERK), c-jun N-terminal kinase (JNK) and p38 MAP kinase (p38) are known to be important mediators of the physiological plasticity or neurotoxicity induced in the striatum by activation of ionotropic glutamate receptors. However, our knowledge of the class of glutamate receptor and the intracellular pathways involved derives totally from studies on embryonic neurons, where the mechanisms are likely to be totally different from those operating in mature neurons. In superfused striatal slices from adult rats, NMDA and kainate, but not AMPA, were found to activate ERK. No activation of p38 or JNK was detected following treatment with any ionotropic glutamate receptor agonist. The activation of ERK by kainate was blocked by the ERK kinase (MEK) inhibitor PD98059, and the PI3 kinase inhibitor wortmannin, but not by the p38 MAP kinase inhibitor SB203580. This provides evidence for a novel pathway linking striatal kainate receptors to ERK activation via PI3 kinase and MEK.
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PMID:Activation of p44/p42 MAP kinase in striatal neurons via kainate receptors and PI3 kinase. 1131 83

Signal transduction by HGF receptor, the tyrosine kinase encoded by the MET oncogene, switches on a genetic program called 'invasive growth' inducing epithelial cell dissociation, migration, growth, and ultimately leading to differentiation into branched tubular structures. Sustained tyrosine phosphorylation of the downstream adaptor protein Gab1 is required for the HGF response. Here we show that serine/threonine phosphorylation of Gab1 provides a control mechanism for negative regulation. Treatment with okadaic acid, a potent inhibitor of the serine/threonine protein phosphatases PP1 and PP2A, was followed by activation of a number of serine/threonine kinases, hyper-phosphorylation in serine and threonine of Gab1 and severe inhibition of the HGF-induced biological responses. Under these conditions, Gab1 was found to be concomitantly hypo-phosphorylated in tyrosine, and thus endowed with reduced ability to recruit SH2 containing signal transducers such as PI3 kinase. Among the serine-threonine kinases activated by PP1 and PP2A inhibition, we found that PKC-alpha and PKC-beta1 are required for negative regulation of Gab1. These data provide a novel negative mechanism for the HGF receptor signaling pathways and highlight a potentially useful target for inhibitors of invasive growth.
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PMID:Gab1 phosphorylation: a novel mechanism for negative regulation of HGF receptor signaling. 1131 45

Receptor tyrosine kinase (RTK) activation is associated with modulation of heptahelical receptor-stimulated adenylyl cyclase responses. The mechanisms underlying the RTK-mediated enhancement of adenylyl cyclase function remain unclear. In the present studies, we show that the tyrosine kinase-dependent enhancement of adenylyl cyclase isoform VI function parallels an enhancement in serine phosphorylation of the enzyme. This effect was mediated by both RTK activation, with IGF-1, and by tyrosine phosphatase inhibition, with sodium orthovanadate. This enhancement of adenylyl cyclase function was not attenuated by inhibitors of ERK, PKC, PKA, or PI3 kinase activity but was blunted by inhibition of endogenous p74(raf-1)() activity. To characterize the molecular site of this effect we identified multiple candidate serine residues in and adjacent to the adenylyl cyclase VI C1b catalytic region and performed serine-to-alanine site-directed mutagenesis using adenylyl cyclase VI as a template. Mutation of serine residues 603 and 608 or serine residues 744, 746, 750, and 754 attenuated both the tyrosine kinase-mediated enhancement of enzyme phosphorylation as well as the sensitization of function. Together, these data define a novel tyrosine kinase-mediated mechanism leading to serine phosphorylation of adenylyl cyclase isoform VI and the sensitization of adenylyl cyclase responsiveness.
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PMID:Tyrosine kinase-mediated serine phosphorylation of adenylyl cyclase. 1132 30

The mitogen-activated protein kinase (MAP kinase) signalling cascade activated by fibroblast growth factors (FGF1 and FGF2) was analysed in a model system, Xenopus oocytes, expressing fibroblast growth factor receptors (FGFR1 and FGFR4). Stimulation of FGFR1 by FGF1 or FGF2 and FGFR4 by FGF1 induced a sustained phosphorylation of extracellular signal-regulated protein kinase 2 (ERK2) and meiosis reinitiation. In contrast, FGFR4 stimulation by FGF2 induced an early transient activation of ERK2 and no meiosis reinitiation. FGFR4 transduction cascades were differently activated by FGF1 and FGF2. Early phosphorylation of ERK2 was blocked by the dominant negative form of growth factor-bound protein 2 (Grb2) and Ras, for FGF1-FGFR4 and FGF2-FGFR4. The phosphatidylinositol 3-kinase (PI3 kinase) inhibitors wortmannin and LY294002 only prevented the early ERK2 phosphorylation triggered by FGF2-FGFR4 but not by FGF1-FGFR4. ERK2 phosphorylation triggered by FGFR4 depended on the Grb2/Ras pathway and also involved PI3 kinase in a time-dependent manner.
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PMID:Fibroblast growth factors 1 and 2 differently activate MAP kinase in Xenopus oocytes expressing fibroblast growth factor receptors 1 and 4. 1133 93

ErbB4 is a member of the epidermal growth factor receptor (EGFR, ErbB) family that mediates responses to neuregulins and other EGF-like growth factors. ErbB4 is a central regulator of cardiovascular and neural development as well as differentiation of the mammary gland. A role for ErbB4 has also been implicated in malignancies and heart diseases. Four structurally and functionally distinct ErbB4 isoforms have recently been identified. One pair of isoforms differs within their extracellular juxtamembrane domains. These juxtamembrane ErbB4 isoforms are either susceptible or resistant to proteolytic processing that release a soluble receptor ectodomain. Another pair of ErbB4 isoforms differs within their cytoplasmic tails. Analysis of the intracellular signal transduction pathways indicates that both cytoplasmic ErbB4 isoforms can couple to the Shc-MAPK signaling pathway, while the other one is incapable of coupling to the phosphoinositide 3-kinase (PI3-K)-Akt pathway. The differences in the activation of signaling cascades are reflected in the cellular responses stimulated via the cytoplasmic isoforms. Both cytoplasmic ErbB4 isoforms can stimulate proliferation, but the isoform that cannot activate PI3-K is defective in stimulating cellular survival and chemotaxis. Together these four naturally occurring receptor variants provide a new level of diversity to the control of growth factor-stimulated cellular responses. Thus, the ErbB4 isoforms may have distinct and specific roles in the regulation of various developmental and pathological processes.
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PMID:Erbb4 and its isoforms: selective regulation of growth factor responses by naturally occurring receptor variants. 1134 71

MSP is a serum protein belonging to the plasminogen-related kringle domain protein family. In addition to macrophages, epithelial cells are also MSP targets. MSP is a multifunctional factor regulating cell adhesion and motility, growth and survival. MSP mediates its biological activities by activating a transmembrane receptor tyrosine kinase called RON in humans or SKT in mice. MSP can protect epithelial cells from apoptosis by activating two independent signals in the PI3-K/AKT or the MAPK pathway. The MAPK pathway mediates the MSP antiapoptotic effect only if additional signaling pathways are activated through adhesion. This indicates that MSP receptors and integrins, the receptors mediating cell-matrix-dependent adhesion, can collaborate in promotion of cell survival. This adhesion-dependent pathway, which is essential for the MAPK-mediated anti-apoptotic effect, remains to be identified. A hypothesis that Stat3 might represent a key component of the adhesion-induced anti-apoptotic pathway is presented in this review.
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PMID:Anti-apoptotic action of macrophage stimulating protein (MSP). 1138 67

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