EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The p38 mitogen-activated protein kinase (MAPK) is phosphorylated in response to oxidative stress. Mitochondria in cardiomyocytes increase their generation of reactive oxygen species (ROS) during hypoxia (1-5% O(2)). These ROS participate in signal transduction pathways involved in adaptive responses, including ischemic preconditioning and gene transcription. The present study therefore tested the hypothesis that hypoxia induces p38 MAPK phosphorylation by augmenting mitochondrial ROS generation. In cardiomyocytes, phosphorylation of p38 was observed in a PO(2)-dependent manner during hypoxia. This response was inhibited by rotenone, thenoyltrifluoroacetone, and myxothiazol, inhibitors of mitochondrial complexes I, II, and III, respectively. A similar inhibition was observed in the cells pretreated with anion channel inhibitor DIDS, which may block ROS release from mitochondria. During normoxia, increases in mitochondrial ROS elicited by azide (1-2 mM) or by the mitochondrial inhibitor antimycin A caused increased phosphorylation of p38. Brief treatment with exogenous H(2)O(2) during normoxia also induced phosphorylation of p38 as hypoxia, but this effect was not abolished by myxothiazol or DIDS. The antioxidant N-acetyl-cysteine abolished the p38 response to hypoxia, presumably by scavenging H(2)O(2), but the mitogen extracellular receptor kinase inhibitor PD-98059 did not inhibit p38 phosphorylation during hypoxia. Thus physiological hypoxia leads to p38 phosphorylation through a mechanism that requires electron flux in the proximal region of the mitochondrial electron transport chain, which suggests that either H(2)O(2) or superoxide participates in activating that process.
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PMID:Mitochondrial ROS initiate phosphorylation of p38 MAP kinase during hypoxia in cardiomyocytes. 1200 89

IGF-IR (Insulin-like growth factor receptor 1) is a tetrameric glycoprotein composed of two alpha and two beta subunits. The alpha subunit localizes extra-cellularly for ligand binding, whereas the beta subunit consists of transmembrane chains and a cytoplasmic tyrosine kinase domain for enzymatic activity. IGF-IR ligands, IGF-I and IGF-II, are mitogens and survival factors for many cancer cells. Binding of ligands to the IGF-IR initiates a cascade of events leading to activation of signal transduction pathways, mainly MAPK and PI-3K pathways, to stimulate proliferation/mitogenesis, to induce neoplastic transformation, to inhibit apoptosis, and to promote angiogenesis and metastasis. It has been shown that the presence of IGF-IR was required for transformation induced by many oncogenes and over-expression or constitutive activation of IGF-IR gave rise to transformed phenotypes. Significantly, over-expression of IGF-IR was observed in multiple human cancers including carcinomas of breast, lung, colon, and prostate. Patients with IGF-IR positive cancers had a worse prognosis in some cases. Furthermore, down-regulation or functional inactivation of IGF-IR sensitized tumor cells to apoptosis and reversed tumor cell phenotype. Thus, IGF-IR appears to be a promising cancer target. Indeed, a variety of approaches aimed at targeting IGF-IR have been utilized to prove the concept, or are being developed for potential anticancer therapies. These include targeting functional IGF-IR on cell surface, targeting ligand/receptor interaction, targeting receptor expression and functions, and targeting receptor kinase activity. Cancer patients could eventually benefit from the development of these specific IGF-IR antagonists.
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PMID:Insulin-like growth factor receptor-1 as an anti-cancer target: blocking transformation and inducing apoptosis. 1218 7

As early as 1927, it was recognised that hybridisation of platyfish (Xiphophorus maculatus) and swordtails (Xiphophorus helleri) results in offspring that develop tumours according to Mendelian laws. Most obviously, the primary event, namely the cell lineage-specific overexpression of a structurally altered receptor tyrosine kinase, finds its parallel in many tumours of birds and mammals. Once expressed at high levels, this receptor, the Xiphophorus melanoma inducing receptor kinase Xmrk, shows constitutive activation. By using different pathways, Xmrk induces both proliferative as well as anti-apoptotic signalling in pigment cells finally leading to cell transformation, tumour induction, and progression. Analyses of the different signalling cascades induced by the Xmrk-receptor led to the identification of the src-kinase Fyn, the MAP kinases ERK1 and ERK2, the "Signal Transducer and Activator of Transcription" STAT5, and the PI3-kinase as its major downstream substrates. This review describes some of the genetic findings, as well as the results from the recent molecular analyses of the factors involved in the initiation and manifestation of pigment cell transformation and melanoma development in Xiphophorus.
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PMID:Melanoma development and pigment cell transformation in xiphophorus. 1224 2

In this report we demonstrate that soluble peptides, elastin degradation products stimulate proliferation of arterial smooth muscle cells. We show that these effects are due to generation of intracellular signals transduced through the cell surface elastin receptor, which consists of peripheral 67-kDa elastin-binding protein (EBP) (spliced variant of beta-galactosidase), immobilized to the transmembrane sialidase and the protective protein. We found that elastin receptor-transduced signaling triggers activation of G proteins, opening of l-type calcium channels, and a sequential activation of tyrosine kinases: FAK, c-Src, platelet-derived growth factor-receptor kinase and then Ras-Raf-MEK1/2-ERK1/2 phosphorylation cascade. This, in turn, causes an increase in expression of cyclins and cyclin-dependent kinases, and a consequent increase in cellular proliferation. The EBP-transduced signals also induce tyrosine kinase-dependent phosphorylation of beta-tubulin, LC3, microtubule-associated protein 1, and alpha-actin and troponin-T, which could be linked to reorganization of cytoskeleton. We have also disclosed that induction of these signals can be abolished by anti-EBP antibody or by galactosugars, which cause shedding of EBP from the cell surface. Moreover, elastin-derived peptides did not induce proliferation of EBP-deficient cells derived from patients bearing a nonsense mutation of the beta-galactosidase gene or sialidase-deficient cells from patients with congenital sialidosis.
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PMID:Signaling pathways transduced through the elastin receptor facilitate proliferation of arterial smooth muscle cells. 1224 48

The G protein specificity of multiple signaling pathways of the dopamine-D2S (short form) receptor was investigated in GH4ZR7 lactotroph cells. Activation of the dopamine-D2S receptor inhibited forskolin-induced cAMP production, reduced BayK8644- activated calcium influx, and blocked TRH-mediated p42/p44 MAPK phosphorylation. These actions were blocked by pretreatment with pertussis toxin (PTX), indicating mediation by G(i/o) proteins. D2S stimulation also decreased TRH-induced MAPK/ERK kinase phosphorylation. TRH induced c-Raf but not B-Raf activation, and the D2S receptor inhibited both TRH-induced c-Raf and basal B-Raf kinase activity. After PTX treatment, D2S receptor signaling was rescued in cells stably transfected with individual PTX-insensitive Galpha mutants. Inhibition of adenylyl cyclase was partly rescued by Galpha(i)2 or Galpha(i)3, but Galpha(o) alone completely reconstituted D2S-mediated inhibition of BayK8644-induced L-type calcium channel activation. Galpha(o) and Galpha(i)3 were the main components involved in D2S-mediated p42/44 MAPK inhibition. In cells transfected with the carboxyl-terminal domain of G protein receptor kinase to inhibit Gbetagamma signaling, only D2S-mediated inhibition of calcium influx was blocked, but not inhibition of adenylyl cyclase or MAPK. These results indicate that the dopamine-D2S receptor couples to distinct G(i/o) proteins, depending on the pathway addressed, and suggest a novel Galpha(i)3/Galpha(o)-dependent inhibition of MAPK mediated by c-Raf and B-Raf-dependent inhibition of MAPK/ERK kinase.
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PMID:Dopamine-D2S receptor inhibition of calcium influx, adenylyl cyclase, and mitogen-activated protein kinase in pituitary cells: distinct Galpha and Gbetagamma requirements. 1235 3

Oxidative stress is thought to be a factor influencing many inflammatory responses, including arachidonic acid (AA) release. We have studied the effect of hydrogen peroxide on AA and prostaglandin E(2) release, cytosolic phospholipase (cPLA(2)) steady-state mRNA, cPLA(2) protein levels, cPLA(2) enzyme activity, and cPLA(2) phosphorylation in a human lung epithelial cell line: A549 cells. Hydrogen peroxide caused a dose-dependent increase of A23187-stimulated AA and prostaglandin E(2) release, with a maximum effect at 1 h. This effect is associated with a maximum specific cPLA(2) activity at 1 h, and with a significant increase in cPLA(2) Serine 505 phosphorylation. All these effects were abolished, in a dose-related manner, by the epithelial growth factor receptor kinase inhibitor, AG 1478. To further investigate the pathway leading to the increase cPLA(2) phosphorylation, we used cells transfected with a Ras dominant negative vector and mitogen-activated protein kinase/extracellular signal-regulated kinase (MEK) and p38 kinase inhibitors. Cells transfected with the Ras dominant negative vector exhibited diminished hydrogen peroxide-induced AA release and cPLA(2) phosphorylation as compared with cells transfected with the Ras expression vector. Both MEK and p38 kinase inhibitors inhibited the hydrogen peroxide effect on AA release and specific cPLA(2) activity. Finally, cells stably transfected with an antisense cPLA(2) vector exhibited diminished A23187-stimulated AA release in response to hydrogen peroxide as compared with cells stably transfected with empty expression vector. Collectively, these data show that hydrogen peroxide increases cPLA(2) activity through its phosphorylation utilizing an epithelial growth factor/Ras/extracellular signal-regulated kinase and p38 pathway.
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PMID:Oxidative stress induces arachidonate release from human lung cells through the epithelial growth factor receptor pathway. 1244 32

The hydrophobicity of biomaterials has been recognized as a limitation to the adequate function of anchorage-dependent cells when hydrophobic biomaterials are used for tissue engineering. This is due to flawed solid-state signals from cell adhesion. In this study, a recombinant osteopontin (rOPN17-169) fragment containing the cell adhesion motifs was expressed in E. coli and was precoated on the hydrophobic surface prior to osteoblastic MG63 cell culture. Precoating the hydrophobic surface with rOPN17-169 improved osteoblastic cell adhesion, which was blocked by soluble RGDS. The adhesion of MG63 cells to rOPN17-169 pre-coated surface-activated mitogen-activated protein kinases (MAPK) such as extracellular signal-receptor kinase 1/2, p38, and c-Jun N-terminal kinase (JNK). In addition, p38 MAPK was activated in response to a soluble factor of transforming growth factor-beta in the cells adhered to the hydrophobic surface via rOPN17-169. This suggests that rOPN17-169 precoated on the hydrophobic surface can allow osteoblastic cells to generate adhesion signals sufficient for cell adhesion, MAPK activation, and the cytokine activation of osteoblastic cells.
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PMID:MG63 osteoblastic cell adhesion to the hydrophobic surface precoated with recombinant osteopontin fragments. 1250 28

Constitutive cell surface receptor kinase signaling and persistent phosphorylation/inactivation of the retinoblastoma (pRb) family of proteins (pRb, p107 and p130, known as pocket proteins) have been implicated in conferring uncontrolled growth to melanoma cells. However, the signals linking receptor kinase activity to neutralization of pocket proteins have not yet been fully elucidated. We therefore used specific chemical inhibitors to examine pRb regulation in melanoma cells. The most efficient agent, AG1024, known as an inhibitor of insulin-like growth factor 1 receptor and insulin receptor, arrested melanoma cell growth in vitro at nanomolar concentrations within 24 h of application. AG1024 inhibited the mitogen-activated protein kinase/extracellular signal-regulated kinase pathway and restored pRb tumor suppressive function. The latter was observed by the reduction in the phosphorylated forms of pRb, p107 and p130, and the formation of growth suppressive DNA binding complexes consisting of pRb and E2F1 or E2F3. The loss of phosphorylated forms of pRb at early time points after AG1024 application was not associated with suppression of cyclin-dependent kinases 2 and 4 activity but rather with proteasomal and nonproteasomal degradation. Thus, inhibition of melanoma cell proliferation by AG1024 is mediated by inhibition of mitogen-activated protein kinase/extracellular signal-regulated kinase 2 signaling and activation of pRb by a mechanism involving protein degradation.
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PMID:The tyrphostin AG1024 accelerates the degradation of phosphorylated forms of retinoblastoma protein (pRb) and restores pRb tumor suppressive function in melanoma cells. 1264 8

Carney complex (CNC) is caused by PRKAR1A-inactivating mutations. PRKAR1A encodes the regulatory subunit type I-alpha (RIalpha) of the cAMP-dependent kinase (PKA) holoenzyme; how RIalpha insufficiency leads to tumorigenesis remains unclear. In many cells PKA inhibits the extracellular receptor kinase (ERK1/2) cascade of the mitogen-activated protein kinase (MAPK) pathway leading to inhibition of cell proliferation. We investigated whether the PKA-mediated inhibitory effect on ERK1/2 is affected in CNC cells that carry germline PRKAR1A mutations. PKA activity both at baseline and after stimulation with cAMP was augmented in cells carrying mutations. Quantitative message analysis showed that the main PKA subunits expressed were type I (RIalpha and RIbeta) but RIalpha was decreased in mutant cells. Immunoblot assays of ERK1/2 phosphorylation by the cell- and pathway-specific stimulant lysophosphatidic acid (LPA) showed activation of this pathway in a time- and concentration-dependent manner that was prevented by a specific inhibitor. There was a greater rate of growth in mutant cells; forskolin and isoproterenol inhibited LPA-induced ERK1/2 phosphorylation in normal but not in mutant cells. Forskolin inhibited LPA-induced cell proliferation and metabolism in normal cells, but stimulated these parameters in mutant cells. These data were also replicated in a pituitary tumor cell line carrying the most common PRKAR1A mutation (c.578del TG), and an in vitro construct of mutant PRKAR1A that was recently shown to lead to augmented PKA-mediated phosphorylation. We conclude that PKA activity in CNC cells is increased and that its stimulation by forskolin or isoproterenol increases LPA-induced ERK1/2 phosphorylation, cell metabolism and proliferation. Reversal of PKA-mediated inhibition of this MAPK pathway in CNC cells may contribute to tumorigenesis in this condition.
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PMID:Protein kinase-A activity in PRKAR1A-mutant cells, and regulation of mitogen-activated protein kinases ERK1/2. 1281 76

Integration of Hepatitis B Virus (HBV) DNA into liver cell DNA has been well established, but its implication in liver carcinogenesis is still being debated. In particular, insertion of the viral genome into cellular genes has been viewed as a rare event. By using HBV-Alu PCR, we have now isolated, from nine hepatocellular carcinomas, nine HBV-DNA integration sites showing that the viral genome mutates key regulatory cellular genes: neurotropic tyrosin receptor kinase 2 (NTRK2) gene, IL-1R-associated kinase 2 (IRAK2) gene, p42 mitogen-activated protein kinase 1 (p42MAPK1) gene, inositol 1,4,5-triphosphate receptor type 2 (IP3R2) gene, inositol 1,4,5-triphosphate receptor (IP3R) type 1 (IP3R1) gene, alpha 2,3 sialyltransferase (ST3GAL VI or SITA) gene, thyroid hormone uncoupling protein (TRUP) gene, EMX2-like gene, and human telomerase reverse transcriptase (hTERT) gene. This result brings to 15 the total number of genes targeted by HBV in a study of 22 human liver cancers. Overall, we found that both the inositol 1,4,5-triphosphate receptor gene and the telomerase gene were targeted by HBV in two different tumors. Thus, HBV frequently targets cellular genes involved in cell signalling and some of them may be preferential targets of the viral integration.
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PMID:Hepatitis B virus-related insertional mutagenesis occurs frequently in human liver cancers and recurrently targets human telomerase gene. 1281 64

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