Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The J2E erythroid cell line proliferates and differentiates in response to erythropoietin (epo). Here we demonstrate that the diuretic amiloride can suppress normal and hormone-induced cell division in a dose-dependent manner. In the presence of amiloride, cell numbers did not increase, [3H]thymidine incorporation decreased, and fewer cells were observed in the S, G2, and M phases of the cell cycle. In addition, the levels of proliferating cell nuclear antigen, a subunit of DNA polymerase delta, fell. In marked contrast, epo-initiated differentiation was potentiated when J2E cells were cultured with the drug: the number of benzidine-positive cells increased, hemoglobin content per cell rose, and more morphologically mature cells were produced. Immunoblotting with anti-phosphotyrosine antibodies revealed that amiloride reduced the number of phosphorylated proteins in epo-stimulated cells. Moreover, the protein content of p42 and p44 MAP kinases was noticeably downregulated in amiloride-treated cultures. These data indicate that amiloride may interfere with epo-induced signaling cascades within J2E cells which result in restricted cell division and promotion of maturation.
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PMID:Amiloride suppresses erythropoietin-induced proliferation and MAP kinase, but potentiates differentiation of J2E cells. 754 55

In this work, we show that erythropoietin and inositolphosphate-glycan activate Raf-1 and the mitogen-activated protein kinases (MAP kinases) in normal erythropoietin-responsive cells. Using a protein kinase C (PKC) activator such as the phorbol ester, 12-O-tetradecanoyl-phorbol-13-acetate and the PKC inhibitor GF109203X, we investigated a possible involvement of PKC during activation of Raf-1 and MAP kinase by erythropoietin or inositolphosphate-glycan. We found that erythropoietin increased MAP kinase level with a maximum stimulation reached at 5-10 min. Inositolphosphate-glycan and 12-O-tetradecanoyl-phorbol-13-acetate increased MAP kinase activity in the same manner. This activity was inhibited by cell preincubation with GF109203X. Two MAP kinase isoforms were present in erythroid progenitor cells, the 44 and 42 kDa proteins. We report here that erythropoietin, inositolphosphate-glycan, and 12-O-tetradecanoyl-phorbol-13-acetate activated only the p44 form (erk-1) of MAP kinase and the Raf-1 protein. GF109203X was used at a concentration which inhibited by 50% erythroid colonie (CFU-E) proliferation and differentiation induced by erythropoietin or inositolphosphate-glycan. These results support the hypothesis that erythropoietin and inositolphosphate-glycan activate Raf-1 and MAP kinases in normal erythroid progenitor cells and suggest that this activation involves PKC.
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PMID:Activation of Raf-1 and mitogen-activated protein kinases by erythropoietin and inositolphosphate-glycan in normal erythroid progenitor cells: involvement of protein kinase C. 906 28

p38 MAP kinase (p38) and JNK have been described as playing a critical role in the response to a variety of environmental stresses and proinflammatory cytokines. It was recently reported that hematopoietic cytokines activate not only classical MAP kinases (ERK), but also p38 and JNK. However, the physiological function of these kinases in hematopoiesis remains obscure. We found that all MAP kinases examined, ERK1, ERK2, p38, JNK1, and JNK2, were rapidly and transiently activated by erythropoietin (Epo) stimulation in SKT6 cells, which can be induced to differentiate into hemoglobinized cells in response to Epo. Furthermore, p38-specific inhibitor SB203580 but not MEK-specific inhibitor PD98059 significantly suppressed Epo-induced differentiation and antisense oligonucleotides of p38, JNK1, and JNK2, but neither ERK1 nor ERK2 clearly inhibited Epo-induced hemoglobinization. However, in Epo-dependent FD-EPO cells, inhibition of either ERKs, p38, or JNKs suppressed cell growth. Furthermore, forced expression of a gain-of-function MKK6 mutant, which specifically activated p38, induced hemoglobinization of SKT6 cells without Epo. These results indicate that activation of p38 and JNKs but not of ERKs is required for Epo-induced erythroid differentiation of SKT6 cells, whereas all of these kinases are involved in Epo-induced mitogenesis of FD-EPO cells.
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PMID:Activation of p38 MAP kinase and JNK but not ERK is required for erythropoietin-induced erythroid differentiation. 973 Oct 42

The role of Ras and MAP kinases (MAPKs) in the regulation of erythroid differentiation was studied using a cell line (SKT6) derived from Friend virus (Anemic strain)-induced murine erythroleukemia. This cell line undergoes differentiation in vitro in response to erythropoietin (EPO) or other chemical inducers such as dimethylsulfoxide (DMSO). When a constitutively active ras mutant (ras12V) was expressed in SKT6 cells, EPO-induced differentiation was inhibited. Conversely, a dominant negative ras mutant (ras17N) induced differentiation even in the absence of EPO, suggesting that the basal Ras activity is essential for the maintenance of the undifferentiated phenotype and proliferative potential in this cell line. Rapid inactivation of ERK was observed after expression of ras17N. Slow but significant inactivation of ERK was also observed during EPO-induced differentiation. Furthermore, overexpression of a constitutively active mutant of ERK-activating kinase (MAPKK) was found to suppress erythroid differentiation, while pharmacological inhibition of MAPKK induced differentiation. These findings suggest that down-regulation of Ras/ERK signaling pathway may be an essential event in EPO-induced erythroid differentiation in this system.
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PMID:Induction of erythroid differentiation by inhibition of Ras/ERK pathway in a friend murine leukemia cell line. 1073 9

Inhibition of signaling through Ras in BCR-ABL-positive pluripotent K562 cells leads to apoptosis and spontaneous differentiation. However, Ras-induced activation of the mitogen-activated protein kinase ERK has been suggested to play a critical role in either growth or differentiation in different model systems. We studied the role of ERK activation in the growth-promoting and anti-apoptotic effect of Ras and its involvement in hemin-induced nonterminal erythroid differentiation using the BCR-ABL-positive K562 cell line as a model. K562 cells were stably transfected with ERK1 or the dominant inhibitory mutant of ERK1 (ERK1-KR). Overexpression of ERK1-KR inhibited cell growth with an approximately fourfold increase in doubling time and induced apoptosis in K562 cells. Incubation with the MEK1 inhibitor UO126 inhibited cell growth and induced apoptosis in K562 cells in a dose-dependent manner as well. In the presence of exogenously added hemin, K562 cells differentiate into erythroblasts, as indicated by the production of large amounts of fetal hemoglobin. We examined the activation of MAP kinases during hemin-induced differentiation. The ERK1 and 2 activity increased within 2 h post hemin treatment and remained elevated for 24-48 h. During this time, fetal hemoglobin synthesis also increases from 0.8 to 10 pg/cell. There was no activation of JNK or p38 protein kinases. The hemin-induced accumulation of hemoglobin was inhibited in ERK1-KR overexpressing cells and was enhanced in the wild-type ERK1 transfectants. Our results suggest that ERK activation is involved in both growth and hemin-induced erythroid differentiation in the BCR-ABL-positive K562 cell line.
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PMID:Role of ERK activation in growth and erythroid differentiation of K562 cells. 1126 76

Hydroxyurea (HU), an inhibitor of DNA synthesis, can also induce haemoglobinization in certain erythroid cell lines. In this study, we report that intracellular peroxides levels were increased in HU-treated murine erythroleukaemia (MEL) cells and that l-acetyl-N-cysteine (LNAC), a potent reducing reagent, had a significant inhibitory effect on the HU-mediated induction of beta-globin, delta-aminolaevulinate synthase mRNA expression and haemoglobinization of MEL cells. In contrast, the addition of LNAC to dimethyl sulphoxide (DMSO)-treated MEL cells had a much smaller effect on the number of haemoglobinized cells. These findings suggest that oxidative stress is involved in HU-mediated induction of erythroid differentiation and that HU induces MEL cell differentiation by a mechanism different to that involved in DMSO-mediated differentiation. Our findings also suggest that the induction of MEL cell differentiation by HU does not involve RAS-MAP (mitogen-activated protein) kinase signalling.
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PMID:Oxidative stress is involved in hydroxyurea-induced erythroid differentiation. 1275 10

K562 cells can be induced to differentiate along the erythroid lineage by a variety of chemical compounds, including hemin, butyrate, cisplatin and ara-C. Differential signaling through MAP kinases has been suggested to be involved in this differentiation process. We have investigated the involvement of ERK activation/inhibition in hemin-, butyrate-, cisplatin- and ara-C-induced erythroid differentiation using the K562 cell line. ERK activity decreased for 2-4h after administration of either inducing agent. ERK was then activated by hemin and cisplatin, while ERK phosphorylation remained decreased during incubation with butyrate and ara-C. There was no activation of JNK or p38. The MEK-1 inhibitors UO126 or PD98059 induced erythroid differentiation in K562 cells and acted additively with butyrate. Inhibition of MEK-1 reduced the hemoglobin accumulation by hemin and cisplatin; erythroid differentiation by ara-C was unchanged. The results suggest that inhibition of signaling through ERK in K562 cells may be needed to enter the erythroid differentiation process, while after initiation both activation and inhibition of signaling through ERK enhance erythroid differentiation, which, however, is dependent on the inducing compound.
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PMID:ERK signaling pathway is differentially involved in erythroid differentiation of K562 cells depending on time and the inducing agent. 1519 84

Cyclopentenyl cytosine (CPEC) is a carbocyclic cytidine analog inhibitor of CTP synthetase and experimental drug for combination chemotherapy. CPEC treatment (50 nM) depleted intracellular CTP and induced a specific S-phase arrest and erythroid differentiation of human erythroleukemia K562 cells. The equilibrative nucleoside transporters (ENT1, 2) facilitated uptake of CPEC into K562 cells as evidenced by both NBMPR and dipyridamole inhibition of CPEC-mediated CTP depletion and erythroid differentiation. Incubation with the pyridinylimidazole p38 MAPK inhibitors, SB203580 or SB220025, suppressed both the CPEC-induced cell cycle arrest and differentiation of K562 cells. SB203580 also prevented the cell cycle arrest and erythroid differentiation of K562 cells induced by Leflunomide (LEF), a non-nucleoside inhibitor of the de novo pyrimidine pathway, without affecting LEF-induced depletion of pyrimidine pools. Finally, selective knockdown of p38 MAPK by using Smart Pooltrade mark siRNA to p38 MAPK significantly decreased the CPEC-induced differentiation of K562 cells. These results suggest that endogenous activity of p38 MAP kinases may be required for committing K562 cells to cell cycle arrest and erythroid differentiation under conditions of CTP depletion.
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PMID:CPEC induces erythroid differentiation of human myeloid leukemia K562 cells through CTP depletion and p38 MAP kinase. 1538 35

Polycythemia vera (PV) is a clonal myeloproliferative disorder characterized by excessive erythrocyte production. Most patients with PV harbor an activating JAK2 mutation, but the molecular links between this mutation and erythrocyte overproduction are unknown. The interaction between death receptors and their ligands contributes to the physiological regulation of erythropoiesis through the inhibition of erythroblast proliferation and differentiation. With the use of an in vitro culture system to generate differentiating erythroid cells, we found that erythroblasts derived from patients with PV harboring the JAK2 V617F mutation were able to proliferate and generate higher numbers of mature erythroid cells in the presence of inhibitory signals delivered by CD95 (Fas/Apo-1) and TRAIL receptor stimulation. JAK2-mutated PV erythroblasts showed lower levels of CD95-induced caspase activation and incomplete caspase-mediated cleavage of the erythroid transcription factor GATA-1, which was entirely degraded in normal erythroblasts on CD95 stimulation. JAK2 mutation was associated in PV erythroblasts with cytokine-independent activation of the JAK2 effectors Akt/PKB and ERK/MAP and with a deregulated expression of c-FLIP(short), a potent cellular inhibitor of death receptor-induced apoptosis. These results show the presence in PV erythroblasts of proliferative and antiapoptotic signals that may link the JAK2 V617F mutation with the inhibition of death receptor signaling, possibly contributing to a deregulation of erythropoiesis.
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PMID:Increased death receptor resistance and FLIPshort expression in polycythemia vera erythroid precursor cells. 1638 30

The J2E erythroid cell line, transformed by retroviral v-raf/v-myc oncogenes, proliferates and differentiates in response to erythropoietin. Here we show that J2E cells undergo apoptosis rapidly after serum withdrawal and that only erythropoietin of seven growth factors tested, could protect the cells from death. The role of JAK2 and MAP kinases in transmitting viability signals initiated by erythropoietin was examined in these cells. Despite constitutive raf kinase activity, phosphorylation of MAP kinases fell after serum withdrawal. However, an antisense oligonucleotide strategy revealed that JAK2, but not the MAP kinases, was involved in transmitting signals to maintain the viability of J2E cells. Several cell cycle proteins and transcription factors were also studied; although c-jun rose sharply during apoptosis, erythropoietin could not suppress this increase. It was concluded that erythropoietin-induced protection from apoptosis involved JAK2, but not MAP kinases or c-jun.
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PMID:Prevention of apoptosis in J2E erythroid cells by erythropoietin: involvement of JAK2 but not MAP kinases. 1646 16


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