EC:2.7.12.2 - FACTA Search

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mitogen-activated protein (MAP) kinase cascade is a key regulator of mammalian cell proliferation and differentiation. In this study, we examined the roles of 2 members of the MAP kinase family, extracellular signal-regulated kinase 1 (Erk1) and Erk2, in erythropoietin (EPO)-induced erythroid differentiation and thrombopoietin (TPO)-induced megakaryocytic differentiation. UT-7/GM was used as a model system because this cell line is an erythroid/megakaryocytic bipotent cell line that can be induced to differentiate into the erythroid and megakaryocytic lineages by EPO and TPO, respectively. The kinetics of activation of Erk1 and Erk2 were examined during erythroid and megakaryocytic differentiation of UT-7/GM cells. EPO induced a transient activation of these kinases, peaking after 1 minute of stimulation and then declining quickly almost to the basal level. In contrast, TPO-induced activation of the kinases peaked at 10 minutes and persisted for up to 60 minutes, similar to the activation by granulocyte-macrophage colony-stimulating factor. The percentage of EPO-induced hemoglobin-positive cells was elevated by the addition of PD98059, a specific inhibitor of MEK1 (MAP kinase/ERK kinase 1). In contrast, PD98059 clearly reduced the amount of glycoprotein IIb/IIIa antigens induced by TPO on UT-7/GM cells. Thus, inactivation of Erk1 and Erk2 kinases promoted EPO-induced erythroid differentiation and suppressed TPO-induced megakaryocytic differentiation of UT-7/GM cells. In conclusion, the activation of Erk1 and Erk2 kinases may be a critical event in the determination of cell fate and the differentiation processes of the erythroid and megakaryocytic lineages.
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PMID:A functional role of mitogen-activated protein kinases, erk1 and erk2, in the differentiation of a human leukemia cell line, UT-7/GM: a possible key factor for cell fate determination toward erythroid and megakaryocytic lineages. 1137 59

At a low-oxygen tension, cells increase the expression of several genes (such as erythropoietin, the vascular endothelial growth factor, and glycolytic enzymes) in order to adapt to hypoxic stress. A common transactivator, named the hypoxia-inducible factor 1 (HIF-1) activates these genes. HIF-1 is a heterodimeric transactivator that is composed of alpha and beta subunits. HIF-1 activity is primarily determined by the hypoxia-induced stabilization of the alpha subunit, whereas the HIF-1beta subunit is expressed constitutively. Our previous observation implied that the MEK-1/p42/p44 MAPK pathway is involved in the hypoxia-induced transactivation ability, but not in the stabilization and DNA binding of HIF-1alpha. In this paper, we dissected the transactivation domain of HIF-1alpha in more detail, and tested the correlation between specific domains of HIF-1alpha and specific signaling pathways. We designed several fusion proteins that contain deletion mutants of HIF-1alpha that is linked to the DNA binding domain of the yeast protein Gal4. By using the Gal4-driven reporter system, we tested the transactivation activities of the Gal4/HIF-1alpha fusion proteins in Hep3B cells. Our findings suggest that tyrosine kinases, the MEK-1/p42/p44 MAPK pathway, but not the PI-3 kinase/Akt pathway, are involved in the hypoxia-induced transactivation of HIF-1alpha. We have shown that the functional transactivation activities are located at both 522-649 and 650-822 amino acids of HIF-1alpha. Treatment of PD98059, a MEK-1 inhibitor, blocked the hypoxia-induced transactivation abilities of both the 522-649 and 650-822 amino acids of the C-terminal half of HIF-1alpha. This implies that the MEK-1/p42/p44 MAPK signaling pathway cannot distinguish between the two hypoxia-induced transactivation domains.
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PMID:Two transactivation domains of hypoxia-inducible factor-1alpha regulated by the MEK-1/p42/p44 MAPK pathway. 1224 58

We previously reported that erythropoietin (Epo) has a mitogenic effect on rat vascular smooth muscle cells (VSMC) and that activation of the mitogen-activated protein kinase (MAPK) cascade is an important mediator for Epo-induced mitogenesis. An increase in intracellular cAMP has an antiproliferative effect on VSMC. We therefore hypothesized that cAMP effectors inhibit Epo-induced MAPK activation in rat VSMC. When we exposed VSMC to recombinant human Epo (rHuEpo), DNA synthesis was increased. Forskolin (Fsk) or cilostazol (Cil) decreased the DNA synthesis stimulated by rHuEpo. Coincubation with Rp-cAMPS triethylamine canceled the suppression of DNA synthesis and MAPK activity by Fsk. Both rHuEpo and phorbol 12-myristate 13-acetate upregulated phosphorylations of MEK and MAPK. Pretreatment with Fsk inhibited these phosphorylations. Protein kinase C inhibitors also suppressed MEK and MAPK phosphorylations. Moreover, Fsk induced phosphorylation of Raf-1 at serine-259. These results indicated that cAMP inhibited Epo-induced MAPK activation and that this suppression might be regulated upstream or at Raf-1. The results also suggested that these agents, which could accumulate cAMP, might be protective for Epo-stimulated direct action.
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PMID:Modulation of the erythropoietin-induced proliferative pathway by cAMP in vascular smooth muscle cells. 1241 9

We studied the effects of cyclosporin A (CsA) on the erythroid differentiation of human erythroid leukemia cell line K562. After K562 was treated with CsA for 4 days, the percentage of hemoglobinized cells was increased by 3.3 times. Because it was reported p38 MAPK (p38) and ERK are involved in erythropoietin-induced erythroid differentiation, we studied their roles using specific inhibitors. p38 inhibitor (SB203580) prevented CsA-induced hemoglobin synthesis in K562 cells, although MEK/ERK inhibitor (U0126) enhanced it by 3.3 times in K562 cells. These results indicate activation of p38 and inactivation of ERK are involved in CsA-induced erythroid differentiation of K562 cells.
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PMID:Cyclosporin A induces erythroid differentiation of K562 cells through p38 MAPK and ERK pathways. 1250 71

We have shown that Fv2, the Friend virus susceptibility 2 locus, encodes a naturally occurring amino-terminally truncated form of the STK receptor tyrosine kinase (Sf-Stk). Sf-Stk appears to interact with the viral glycoprotein gp55 and drive erythropoietin (Epo)-independent expansion of Friend virus-infected erythroblasts. Presumably, Sf-Stk provides signals that cooperate with EpoR signaling to induce the polyclonal expansion of infected cells. In this report, we show that macrophage-stimulating protein (MSP), the ligand for full-length STK, can also cooperate with Epo to enhance burst-forming units-erythroid (BFU-E) formation. To evaluate the signals induced by MSP/STK in primary erythroid progenitor cells, we adapted a method for the expansion of murine bone marrow mononuclear cells. The expanded progenitor cells express STK and respond to MSP in a colony assay. Furthermore, we demonstrate that low doses of MSP and Epo stimulation of the expanded cells cooperate to induce the phosphorylation of MAP kinase. Using the MEK inhibitor PD98059, we show that the activation of ERK is required for the enhanced BFU-E formation in response to MSP. These findings suggest that MSP has the ability to enhance erythroid colony formation in response to Epo, and that this response is dependent on the ability of MSP to induce the MAP kinase pathway.
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PMID:Macrophage-stimulating protein cooperates with erythropoietin to induce colony formation and MAP kinase activation in primary erythroid progenitor cells. 1280 76

Increases in fetal hemoglobin have been identified after birth in several clinical settings associated with stressed or malignant erythropoiesis. To better understand the relationship between the expression of this fetal protein and growth, donated human erythroid progenitor cells were cultured in the presence of erythropoietin (EPO) plus the growth-modifying cytokine stem cell factor (SCF), and several growth-related signaling pathways were interrogated. Only the MEK1/2 inhibitor (PD98059) demonstrated significant effects on fetal hemoglobin. In the absence of PD98059, levels of fetal hemoglobin averaged 27.4% +/- 7.9% in EPO+SCF compared with 1.26% +/- 1.7% in EPO alone (P =.02). A linear dose response in levels of fetal hemoglobin to PD98059 was detected (0.16 microM = 27.13%, 0.8 microM = 19.6%, 4 microM = 12.2%, 20 microM = 1.54%). Western blot analyses revealed that SCF was required for phosphorylation of MEK and p44MAPK in this setting, and quantitative polymerase chain reaction demonstrated a significant increase in gamma-globin mRNA. Particular perturbations of growth-related signaling may also function to activate tissue-specific genes normally expressed during fetal development. This concept may be relevant for the development of new treatment rationales for beta hemoglobinopathies.
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PMID:A signaling mechanism for growth-related expression of fetal hemoglobin. 1459 35

The effect of erythropoietin (Epo) on the expression of mitogen-activated protein kinase (MAPK) target genes egr-1 and c-fos was investigated in Epo-responsive murine erythroblastic cell line ELM-I-1. Epo induced a transient rise in egr-1 mRNA without a similar effect on c-fos expression. The induction of egr-1 correlated with a rapid ERK1/2 phosphorylation and was prevented with MEK1/2 inhibitors PD 98059 and UO126. The p38 inhibitor SB 203580 enhanced ERK1/2 phosphorylation and egr-1 mRNA levels. Longer incubations of ELM-I-1 cells with Epo revealed a second later phase of increase in egr-1 expression which was also prevented by MEK1/2 inhibitors, whereas SB 203580 had a stimulatory effect. In contrast, the beta-globin mRNA production was enhanced in the presence of PD 98059 and UO126 and reduced by SB 203580. The results suggest a regulatory role of egr-1 expression in Epo signal transduction and provide pharmacological evidence for the negative modulation of differentiation-specific gene expression by the ERK1/2 pathway in murine erythroleukemia cells.
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PMID:Opposite effects of inhibitors of mitogen-activated protein kinase pathways on the egr-1 and beta-globin expression in erythropoietin-responsive murine erythroleukemia cells. 1463 92

The recombinant growth factors (GFs) erythropoietin (Epo) and granulocyte-macrophage colony stimulating factor (GM-CSF) have important roles in the management of cancer patients. However, the effects of these GFs at a cellular level are not well understood. We examined the effect of GFs alone, and in combination with cytotoxic chemotherapy, in a panel of seven cell lines. Flow cytometric analysis showed varying levels of receptor expression, which correlated with phosphorylated MAPK expression. Additionally, there were also concomitant increases in BCL-2 protein levels in those cells with high levels of MAPK activation. Although culturing cells with Epo or GM-CSF did not alter cell viability by themselves, GF pretreatment in cell lines expressing higher receptor levels resulted in a reduced magnitude of cell kill following exposure to cytotoxic IC50 concentrations of cisplatin. Subsequent co-culture with either the MEK inhibitor U0126 or the GM-CSF antagonist E21R negated this induced resistance to cytotoxic chemotherapy, confirming the importance of the GF receptor as well as MAPK in mediating these effects. These results suggest that the use of GFs during chemotherapy may be detrimental in those cancers expressing higher levels of the specific receptor. Conversely, our results also suggest that GFs are safe to use in chemotherapeutic regimens if the cancer cells do not overexpress the particular receptor.
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PMID:Effect of haemopoietic growth factors on cancer cell lines and their role in chemosensitivity. 1464 27

Stimulation of the erythropoietin (EPO) receptor triggers a cascade of signaling events. We reported that EPO upregulates c-myc expression through 2 pathways in BaF3-EpoR cells--a phosphatidylinositol 3-kinase (PI3K) pathway operating on transcriptional initiation and a Raf-1-mitogen-activated protein kinase (MAPK) pathway affecting elongation. We now show that EPO induces phosphorylation of Raf-1 at serine 338 and within the carboxy-terminal domain, resulting in an electrophoretic mobility change (hyperphosphorylation). Importantly, MEK 1 inhibitor PD98059 blocked only the hyperphosphorylation of Raf-1 but not the phosphorylation at serine 338. This inhibition of Raf-1 hyperphosphorylation resulted in increased kinase activity of Raf-1 and increased phosphorylation of MEK, suggesting that the hyperphosphorylation of Raf-1 inhibits its MEK kinase activity. Deletion of the first 184 amino acids of Raf-1, which are involved in its interaction with Ras, had no effect on EPO-induced phosphorylation. Introducing the dominant-negative N17Ras or GAP had no effect on EPO-induced kinase activity of Raf-1 and ELK activation. N17Ras failed to inhibit ELK activation in another cell line-Rauscher murine erythroleukemia- which expresses the EPO receptor endogenously and differentiates in response to the hormone. These results indicate the presence of a Ras-independent mechanism for Raf-1 and MEK activation in these cells.
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PMID:Erythropoietin regulation of Raf-1 and MEK: evidence for a Ras-independent mechanism. 1502 17

Oncogenic mutations in ras genes frequently occur in patients with myeloid disorders, and in these patients erythropoiesis is often affected. Previously, we showed that expression of oncogenic H-ras in purified mouse primary fetal liver erythroid progenitors blocks terminal erythroid differentiation and supports erythropoietin (Epo)-independent proliferation. As a first step in understanding the underlying molecular mechanisms we examined the signaling pathways downstream of Ras in primary erythroid cells. We found that 3 major pathways are abnormally activated by oncogenic H-ras: Raf/ERK (extracellular signal-regulated kinase), phosphatidyl inositol 3 (PI3)-kinase/Akt, and RalGEF/RalA. However, only constitutive activation of the MEK (MAPK [mitogen-activated protein kinase]/ERK kinase)/ERK pathway alone could recapitulate all of the effects of oncogenic H-ras expression in blocking erythroid differentiation and inducing Epo-independent proliferation. Although expression of a constitutively active Akt kinase (ca.Akt) in erythroid progenitors does not significantly affect erythroid differentiation in the presence of Epo, coexpression of ca.Akt together with a constitutively active MEK causes prolonged Epo-independent proliferation of erythroid progenitors in addition to a block in differentiation. Moreover, the effects of oncogenic H-ras expression on primary erythroid cells are blocked by the addition of U0126, a specific inhibitor of MEK1 and MEK2, allowing normal terminal erythroid proliferation and differentiation. Our data suggest that the interruption of constitutive MEK/ERK signaling is a potential therapeutic strategy to correct impaired erythroid differentiation in patients with myeloid disorders.
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PMID:Constitutive activation of the MEK/ERK pathway mediates all effects of oncogenic H-ras expression in primary erythroid progenitors. 1516 36

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