EC:2.7.11.24 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Erythropoietin (EPO) regulates the production of red blood cells primarily by preventing apoptosis of erythroid progenitors. More recently, however, EPO has emerged as a major cytoprotective cytokine in several nonhemopoietic tissues in the setting of stress or injury. The underlying mechanisms of the protective responses of EPO have not been fully defined. Here we show that EPO triggers a phosphatidylinositol 3-kinase-(PI3K)-dependent survival pathway that counteracts endothelial cell death. The protection conferred by PI3K relies on the subsequent induction of Bcl-x(L), a prosurvival member of the Bcl-2 protein family. In addition, EPO counteracts the upregulation of the pro-apoptotic BH3-only protein BIM, which is induced by serum withdrawal. EPO also activates extracellular signal-regulated kinase 1 and 2 (ERK1/2), which are involved in a Bcl-x(L)-independent cytoprotective pathway. EPO caused a prolonged activation of nuclear factor (NF)-kappaB, which was blocked by inhibition of PI3K, but not by inhibition of mitogen-activated protein (MAP)/ERK kinase (MEK), suggesting that EPO-activated NF-kappaB requires PI3K activity. However, the activation of the NF-kappaB pathway was not required for the ability of EPO to counteract endothelial apoptosis. Thus EPO promotes survival of endothelial cells through PI3K-dependent Bcl-x(L)-induction and BIM regulation, as well as through a separate mechanism involving the ERK pathway.
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PMID:Erythropoietin promotes survival of primary human endothelial cells through PI3K-dependent, NF-kappaB-independent upregulation of Bcl-xL. 1723 49

Erythropoietin is a primary regulator of erythropoiesis in the hematopoietic system. More recently erythropoietin has been shown to play a role in neurogenesis and provide neurotrophic support to injured CNS tissue. Here the effects of large systemic doses of erythropoietin on basal levels of adult hippocampal neurogenesis in mice were examined. A 7-day period of recombinant human erythropoietin (rhEPO) administration increased the number of bromodeoxyuridine [BrdU(+)] cells in the sub-granular zone (SGZ) by 30%. Analysis of cell phenotype revealed an increase in mitotically active doublecortin(+) neuronal progenitor cells and glial fibrillary acidic protein(+) SGZ radial astrocytes/stem cells but not mature S100beta(+) astrocytes. These effects appeared to be mediated, in part, by mitogen-activated protein kinase signaling and potentially regulated by suppressor of cytokine signaling-3. Hippocampal levels of phosphorylated extracellular signal-related kinase 42/44 and suppressor of cytokine signaling-3 were increased 2-6 h after a single systemic rhEPO injection. However, rhEPO had no observed effect on the long-term survival of new born cells in the SGZ, with similar numbers of BrdU(+) cells and BrdU(+)/NeuN(+) co-labeled cells after 4 weeks. Therefore, systemically delivered rhEPO transiently increased adult hippocampal neurogenesis without any apparent long-term effects.
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PMID:Systemically delivered Erythropoietin transiently enhances adult hippocampal neurogenesis. 1755 54

Erythropoietin is known to stimulate red cell production and has recently been shown to protect the heart against injury from ischemia/reperfusion. However, it is unknown whether darbepoetin alfa (Dpa), a long-acting analog of erythropoietin, can play a protective role against myocardial infarction. We assessed the potential protective role of Dpa in an in vivo rat model of myocardial ischemia/reperfusion and the underlying mechanisms. We found that a single intravenous Dpa treatment immediately before 30 minutes of regional ischemia reduced myocardial necrosis following 120 minutes of reperfusion in a dose-dependent manner. Optimal protection with Dpa against myocardial infarction was manifest at a dose of 2.5 microg/kg. Dpa conferred cardioprotection when administered after the onset of ischemia and at the start of reperfusion. Dpa (2.5 microg/kg) also reduced infarct size and Troponin I leakage 24 hours after reperfusion. Inhibition of p42/44 MAPK (PD98059), p38 MAPK (SB203580), mitochondrial ATP-dependent potassium (KATP) channels (5-HD), sarcolemmal KATP channels (HMR 1098), but not phosphatidylinositol-3 (PI3) kinase/Akt (Wortmannin and LY 294002) abolished Dpa-induced cardioprotection. Dpa confers immediate and sustained cardioprotection in rats, suggesting a potential therapeutic role of this long-acting erythropoietin analog for the treatment of acute myocardial infarction.
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PMID:Darbepoetin alfa protects the rat heart against infarction: dose-response, phase of action, and mechanisms. 1757 97

Erythropoietin (EPO) is a 30,400 daltons glycoprotein, consisting of 165 amino acids produced mainly in the kidney and in the liver and regulating erythrocyitosis. It primarily acts on erythroid precursor cell at colony-forming units-erythroid stage inhibiting the apoptosis. EPO binds on a specific membrane receptor thereby activating at least three specific intracellular signaling pathways, such as phosphatidylinositol 3-kinase/ protein kinase B, Ras-mitogen-activated protein kinase and some members of the signal transducers and activators of transcription family. In addition to kidney and liver, EPO mRNA has been detected in other tissues; accordingly EPO receptor has been identified in several type of cells and recent reports have suggested new roles for EPO in non-haematopoietic tissues with a robust evidence for neuroprotective and cardioprotective activity. In different animal models, in vitro, in isolated perfused heart and in vivo, recombinant human erythropoietin protects heart from ischemia reperfusion injury and reduces myocardial damage. EPO tissue protective activity can be separated from erythropoietic activity. Molecules owing the first property but not the second one have been described. In patients with acute myocardial infarction serum EPO level correlates inversely with infarct size. Acute coronary syndrome, extracorporeal circulation and percutaneous coronary intervention are potential fields of application for tissue protective EPO activity to reduce myocardial damage, increase cardiac function ad improve outcome.
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PMID:Structure, production and function of erythropoietin: implications for therapeutical use in cardiovascular disease. 1789 76

Erythropoietin (EPO) is a glycoprotein hormone that is a primary regulator of erythropoiesis. In erythroid cells, EPO binds to its receptor (EPOR) to stimulate growth, prevent apoptosis, and promote differentiation. Both EPO and EPOR have been found in many normal and tumor nonerythroid cell types. EPO has been reported to stimulate proliferation and inhibit apoptosis of cancer cells. In this study, we found that EPOR is expressed in brain tumors, glioma cell lines and explants, as well as, normal brain. EPO slightly stimulated the growth of serum-starved glioma cells. Furthermore, EPO increased the phosphorylation of AKT through the PI3K pathway in the glioma cells. It also increased the phosphorylation of ERK, c-jun, JNK, as well as, the expression of BCL-2 and BCL-xl in these cells. These results suggest that the EPO-EPOR pathway may promote glioma cell survival and could become a therapeutic target in brain tumors.
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PMID:Glioblastoma multiforme cells: expression of erythropoietin receptor and response to erythropoietin. 1791 47

Erythropoietin (Epo) receptor (EpoR) is expressed in several cancer cell lines, and the functional consequence of this expression is under extensive study. In this study, we used a cervical cancer cell line in which EpoR was first found to be expressed and to correlate with the severity of the disease. We demonstrate that Epo is a chemoattractant for these cancer cells, enhancing their migration under serum-starved conditions. Using a Transwell migration system, we show that Epo enhances cancer cell migration in a dose- and time-dependent manner. The effect of Epo is dependent on the activity of two signaling pathways: the mitogen-activated protein kinase (MAPK) pathway and the RhoA GTPase pathway. We show that Epo activates both pathways in a Janus kinase-dependent manner and that this activation is required for Epo effects on cell migration. Furthermore, we use both pharmacological and genetic inhibitors to demonstrate that the activation of RhoA GTPase is dependent on the activity of the MAPK pathway, providing the first evidence for interaction between these two signaling cascades.
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PMID:Erythropoietin stimulates cancer cell migration and activates RhoA protein through a mitogen-activated protein kinase/extracellular signal-regulated kinase-dependent mechanism. 1807 57

CNTO 530 is a 58 kD antibody Fc domain fusion protein, created using Centocor's MIMETIBODY platform, that contains two EMP1 sequences as a pharmacophore. CNTO 530 has no sequence homology with EPO but acts as a novel erythropoietin receptor agonist. In UT-7(EPO) cells, CNTO 530 caused protein phosporylation of the erythropoietin receptor associated signaling pathway (Jak2, STAT5, AKT and ERK1/2). CNTO 530 also rescued these cells from apoptosis and mediated proliferation. In mice, pharmacokinetic analysis showed that CNTO 530 was slowly cleared from circulation with a t(1/2) approximately 40 h. Pharmacodynamic analysis in mice showed that a single sc dose of CNTO 530 caused a long-lived stimulation of erythropoiesis that translated into increases in red blood cell counts and hemoglobin values that were maintained for at least 28 d. In conclusion, CNTO 530 is a long-lived EPO-R agonist that stimulates erythropoiesis in a manner similar to epoetin-alpha. These data suggest that CNTO 530 may be an effective treatment of anemia in humans.
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PMID:CNTO 530: molecular pharmacology in human UT-7EPO cells and pharmacokinetics and pharmacodynamics in mice. 1824 52

Erythropoietin (Epo) is synthesized mainly under hypoxic conditions by renal and extrarenal tissues, including liver, spleen, brain, lung, bone marrow, and reproductive organs. Hypoxia abrogates the degradation of hypoxia-inducible factors (HIF)-1 and -2, that can then bind to the hypoxia response element within the Epo gene, activating its transcription. Receptors for Epo are expressed on cells known to synthesize Epo, but also on cardiomyocytes, cardiac fibroblasts, and endothelial, retinal, gastric, prostate and vascular smooth muscle cells. Epo-receptor binding triggers at least three intracellular signalling cascades: (1) janus tyrosine kinase 2 (JAK2)/signal transducer and activator of transcription 5 (STAT5); (2) phosphatidylinositol-3 kinase (PI3K)/Akt, and (3) RAS/mitogen-activated protein kinase (MAPK). Epo also enhances nitric oxide (NO) bioavailability through endothelial NO synthase transcription and activation, and exerts antiapoptotic actions through Bcl-2 and Bcl-XL. NO is a powerful vasodilator, insulin-sensitizer, inhibitor of atherothrombosis and apoptosis, and essential for progenitor mobilization. This article is a concise review of recent advances regarding the molecular and cardiovascular effects of Epo.
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PMID:Erythropoietin in heart and vessels: focus on transcription and signalling pathways. 1833 8

1. The aim of the present study was to determine the critical timing of Akt activation and its interaction with the mitochondrial permeability transition pore (mPTP) in the mechanism of infarct size limitation by erythropoietin (Epo). 2. In an isolated, buffer-perfused preparation, rabbit hearts were subjected to 30 min ischaemia/2 h reperfusion. Infusion of Epo (1 unit/mL) before ischaemia reduced infarct size from 36.6 +/- 2.6% of the risk area to 15.4 +/- 3.2%, whereas a 10-fold higher dose of Epo infused for 65 min commencing 5 min before reperfusion failed to afford significant cardioprotection. The protection afforded by Epo pretreatment was abolished by coinfusion of 5 micromol/L LY294002, a phosphatidylinositol 3-kinase (PI3-K) inhibitor. Infusion of Epo induced phosphorylation of Akt, extracellular signal-regulated kinase, glycogen synthase kinase 3beta and p70s6 kinase before ischaemia and tended to enhance reperfusion-induced phosphorylation of these protein kinases. Erythropoietin increased phospho-Akt in the mitochondria and induced complex formation of Akt with adenine nucleotide translocase (ANT), a major subunit of mPTP, upon reperfusion. 3. In another series of experiments, cardiomyocytes were isolated from rat hearts and loaded with Rhod-2 to determine mitochondrial Ca(2+) levels. Increases in mitochondrial Ca(2+) levels following exposure to 1 mmol/L ouabain for 30 min were similar in untreated and Epo-pretreated cells. However, ouabain-induced hypercontracture was significantly suppressed from 45.1 +/- 1.6 to 39.2 +/- 1.9% by Epo. 4. In conclusion, activation of PI3-K-Akt signalling before ischaemia is crucial for Epo-induced myocardial protection and this protection may be achieved by complex formation of activated Akt with mPTP components upon reperfusion, leading to elevation of the threshold for opening of mPTP.
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PMID:Limitation of infarct size by erythropoietin is associated with translocation of Akt to the mitochondria after reperfusion. 1834 68

Erythropoietin (EPO) regulates the proliferation and differentiation of erythroid cells by binding to its specific transmembrane receptor EPOR. Recent studies, however, have shown that the EPOR is additionally present in various cancer cells and EPO induces the proliferation of these cells, suggesting a different function for EPO other than erythropoiesis. Therefore, the purpose of the present study was to examine EPOR expression and the role of EPO in the proliferation and signaling cascades involved in this process, using the rat pancreatic tumor cell line AR42J. Our results showed that AR42J cells expressed EPOR, and EPO significantly enhanced their proliferation. Cell cycle analysis of EPO-treated cells indicated an increased percentage of cells in the S phase, whereas cell numbers in G0/G1 phase were significantly reduced. Phosphorylation of extracellular regulatory kinase 1/2 (ERK1/2) and c-Jun NH(2) terminal kinase 1/2 (JNK1/2) was rapidly stimulated and sustained after EPO addition. Treatment of cells with mitogen-activated protein/ERK kinase (MEK) inhibitor PD98059 or JNK inhibitor SP600125 significantly inhibited EPO-enhanced proliferation and also increased the fraction of cells in G0/G1 phase. Furthermore, the inhibition of JNK using small interference RNA (siRNA) suppressed EPO-enhanced proliferation of AR42J cells. Taken together, our results indicate that AR42J cells express EPOR and that the activation of both ERK1/2 and JNK1/2 by EPO is essential in regulating proliferation and the cell cycle. Thus both appear to play a key role in EPO-enhanced proliferation and suggest that the presence of both is required for EPO-mediated proliferation of AR42J cells.
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PMID:Erythropoietin enhancement of rat pancreatic tumor cell proliferation requires the activation of ERK and JNK signals. 1855 Jul 1

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