EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have analyzed the differentiation program of growth factor-dependent TF-1 erythroleukemia cells as well as clones with inducible expression of the APL-specific PML/RARalpha protein. We have shown that TF-1 cells may be induced to megakaryocytic differentiation by phorbol ester (phorbol dibutyrate, PDB) addition, particularly when combined with thrombopoietin (Tpo). RT-PCR studies showed that Tpo induces Tpo receptor (TpoR or c-mpl), whose expression was further potentiated by PDB addition. When the cells are induced with both PDB and Tpo erythropoietin receptor (EpoR) expression was inhibited. In the absence of Zn2+-induced PML/RARalpha expression, PDB and Tpo induced megakaryocytic differentiation of TF-1 MTPR clones as observed in 'wild-type' TF-1 cells. Conversely, when PML/RARalpha expression was induced by Zn2+, PDB and Tpo treatment of these clones caused only a reduced level of megakaryocytic differentiation. These observations indicate that: (1) TF-1 cells as well as other erythroleukemic cells, possess the capacity to differentiate to megakaryocytic cells when grown in the presence of protein kinase (PKC) activators and more efficiently when combined with Tpo; (2) the PML/RARalpha gene has a wide capacity to interfere with the program of hematopoietic differentiation, including megakaryocytic differentiation. Finally, we also observed that PML/RARalpha expression in TF-1 cells induces an up-modulation of interleukin-3 receptor, c-kit and c-mpl, a phenomenon which may offer these cells a growth advantage.
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PMID:Terminal megakaryocytic differentiation of TF-1 cells is induced by phorbol esters and thrombopoietin and is blocked by expression of PML/RARalpha fusion protein. 955 15

Activation of cyclic adenosine monophosphate (cAMP)-dependent protein kinase (A-kinase) promotes hemoglobin synthesis in several erythropoietin-dependent cell lines, whereas A-kinase-deficient murine erythroleukemia (MEL) cells show impaired hemoglobin production; A-kinase may regulate the erythroid transcription factor NF-E2 by directly phosphorylating its p45 subunit or by changing p45 interactions with other proteins. We have mapped the major A-kinase phosphorylation site of p45 to Ser(169); Ala substitution for Ser(169) resulted in a protein that was no longer phosphorylated by A-kinase in vitro or in vivo. The mutant protein formed NF-E2 complexes that bound to DNA with the same affinity as wild-type p45 and functioned normally to restore beta-globin gene expression in a p45-deficient MEL cell line. Transactivation properties of the (Ser (169)--> Ala) mutant p45 were also indistinguishable from wild-type p45 when Gal4-p45 fusion constructs were tested with a Gal4-dependent reporter gene. Transactivation of the reporter by both mutant and wild-type p45 was significantly enhanced when A-kinase was activated by membrane-permeable cAMP analogs or when cells were cotransfected with the catalytic subunit of A-kinase. Stimulation of p45 transactivation by A-kinase required only the N-terminal transactivation domain of p45, suggesting that A-kinase regulates the interaction of p45 with downstream effectors.
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PMID:Regulation of the erythroid transcription factor NF-E2 by cyclic adenosine monophosphate-dependent protein kinase. 955 74

The present study documents the nucleic acid and deduced amino acid sequence of M6b-2, a novel splice variant of the M6b gene, which belongs to the PLP-DM20/M6 gene family. M6b-2 differs from the previously published M6b by a novel 40-amino acid insertion which is characterised by a high proline content, two casein kinase, and one tyrosine kinase consensus sequences. M6b-2 mRNA is enriched in perinatal central nervous system (CNS), and although it declines during development, it does persist into adulthood. Transient transfection studies coupled to secondary structure and hydrophobicity analysis suggest that the novel polypeptide in M6b-2 lies at the cytoplasmic face of the plasma membrane. It is therefore possible that the function(s) of M6b-2 may be regulated intracellularly by phosphorylation during CNS development.
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PMID:Molecular cloning and transfection studies of M6b-2, a novel splice variant of a member of the PLP-DM20/M6 gene family. 966 12

Despite a growing understanding of the biochemical mechanisms controlling the cell cycle, information regarding the temporal ordering of S phase and M phase remains scarce. Polyploid cells represent a useful model for examining S- and M-phase control, because their cell cycle machinery must be modulated to retain high levels of DNA content (ploidy) within a single nucleus. To evaluate the mechanisms of S-phase control during the process of polyploidization, we investigated the modulations that occur in cyclin-dependent kinase (CDK) complexes during the induction of megakaryocyte differentiation in human erythroleukemia cells. We report that during polyploidization, megakaryocytic human erythroleukemia cells undergo a dramatic modulation in the subunit composition of G1-associated and S phase-associated CDK complexes and a marked increase in their specific activities. This, in turn, is facilitated by a differential loss of the p21 or p27 CDK-inhibitory protein/kinase-inhibitory proteins (CIP/KIP) bound to specific cyclin/CDK complexes. The data show that the loss of S- and M-phase control in polyploid cells occurs within the context of an up-regulated function in those CDK complexes associated with both G1-S-phase transit and S-phase progression. Additional studies regarding the regulation of these complex CDK interactions will be important to understand cell cycle control in such diverse processes as megakaryocyte differentiation or the types of genomic instability that occur in cancer cells.
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PMID:Differential modulation of G1-S-phase cyclin-dependent kinase 2/cyclin complexes occurs during the acquisition of a polyploid DNA content. 971 81

The objective of this study was to investigate cyclic-adenosinemonophosphate (cAMP)-dependent phosphorylation in murine erythroleukemia (MEL) cells and to identify either direct substrates of cAMP-dependent kinase or downstream effectors of cAMP dependent phosphorylation with a potential function in growth and differentiation. MEL-cells rendered deficient in cAMP-dependent protein kinase (A-kinase) activity by stable transfection with DNA encoding for either a mutant regulatory subunit or a specific peptide inhibitor of A-Kinase (PKI) are unable to differentiate normally in response to chemical inducers. We have identified by 2-D Western blotting 2 phosphorylated forms of p19, a highly conserved 18-19 kDa cytosolic protein that is frequently upregulated in transformed cells and undergoes phosphorylation in mammalian cells upon activation of several signal transduction pathways. The phosphorylation of the more acidic phosphorylated form is increased in a cAMP-dependent fashion and impaired in cells deficient in cAMP-dependent kinase (A-kinase). Treatment of MEL-cells with the chemical inducer of differentiation hexamethylene-bisacetamide (HMBA) led to dephosphoryation of this phosphoform. Our data are compatible with previous observations which imply that phosphorylation of Ser 38 in p19 by p34cdc2-kinase leads to a more basic phosphoform and simultaneous phosphorylation by mitogen-activated kinase of Ser 25 in response to protein kinase C and the cAMP-dependent kinase creates the more acidic species.
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PMID:cAMP-dependent phosphorylation and hexamethylene-bis-acetamide induced dephosphorylation of p19 in murine erythroleukemia cells. 974 12

The program of biochemical and molecular events necessary for commitment to erythroid cell differentiation is particularly well characterized in murine Friend erythroleukemia cell lines. Commitment to hemoglobin synthesis in response to a variety of chemical inducers, including hexamethylene bisacetamide and dimethyl sulfoxide is completed by 24 h and proceeds to terminal differentiation by 96 h. Phorbol 12-myristate 13-acetate, a classical tumor promoter phorbol ester that binds to protein kinase C, blocks differentiation in a reversible manner, suggesting an important role for protein kinase C signaling pathways. The classical protein kinase C isoforms alpha, betaI, and betaII, play distinct roles in the transduction of proliferative and differentiative signals in human, as well as in murine, erythroleukemia cells. Protein kinase Calpha has been implicated in differentiation of human erythroleukemia cells although its translocation to the nucleus has not been observed. Taking advantage of the ability of phorbol 12-myristate 13-acetate to block differentiation in Friend erythroleukemia cells, we determined the localization of the predominant protein kinase C isoforms alpha and betaI during differentiation and in response to their blockade. The ability of phorbol myristate acetate to preferentially diminish protein kinase Calpha-protein localization to the nucleus by 24 h and thereby block differentiation induced by hexamethylene bisacetamide was paralleled by the ability of protein kinase Calpha antisense transfection to block differentiation. In addition, beta-globin transcription, assessed by polymerase chain reaction, was significantly decreased in protein kinase Calpha antisense-transfected cells compared to that seen in vector transfected ones. Taken together, these data suggest an important temporal role for nuclear protein kinase Calpha localization in Friend erythroleukemia cell differentiation.
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PMID:Protein kinase calpha is an effector of hexamethylene bisacetamide-induced differentiation of Friend erythroleukemia cells. 992 50

Activins were originally isolated based on their ability to stimulate follicle-stimulating hormone secretion but later they have been shown to regulate a number of different cellular functions such as nerve cell survival, mesoderm induction during early embryogenesis as well as hematopoiesis. We studied the regulation of activin A, a homodimer of betaA-subunits, mRNA and protein in K562 erythroleukemia cells, which are known to be induced toward the erythroid lineage in response to activin or TGF-beta or toward the megakaryocytic lineage by the phorbol ester protein kinase C activator 12-O-tetradecanoylphorbol-13-acetate (TPA). Here we show by Northern blot analysis as well as by Western and ligand blotting that TPA strongly promotes activin betaA-subunit mRNA and activin A protein expression in K562 cells in time- and concentration dependent manner. In contrast, neither activin A nor TGF-beta induced betaA-subunit mRNA expression during erythroid differentiation in K562 cells. Interestingly, whereas activin type II receptors are not regulated during K562 cell differentiation (Hilden et al. (1994) Blood 83, 2163-2170), we now show that the activin type I and IB receptor mRNAs are clearly induced by TPA but not by activin or TGF-beta. We also show that the inducing effect of TPA on expression of activin betaA-subunit mRNA is potentiated by the protein kinase A activator 8-bromo-cAMP. We conclude that activin A and its type I receptors appear to be co-ordinately up-regulated during megakaryocytic differentiation of K562 cells.
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PMID:Co-ordinate expression of activin A and its type I receptor mRNAs during phorbol ester-induced differentiation of human K562 erythroleukemia cells. 1045 61

A novel inositolphosphate-binding protein has been identified and shown to be an immunophilin. This protein, which was isolated from human erythrocyte membranes and from K562 (human erythroleukemia) cell membranes, has robust peptidylprolyl cis-trans isomerase activity that is strongly inhibited by nanomolar concentrations of FK506 or rapamycin, indicating a member of the FKBP (FK506-binding protein) class. However, unlike the cytosolic FKBP12, the isomerase activity of this membrane-associated immunophilin is strongly inhibited by nanomolar concentrations of inositol 1,4, 5-trisphosphate (IP(3)), inositol 1,3,4,5-tetrakisphosphate (IP(4)), and phosphatidylinositol 4- and 4,5-phosphates, which are suggested to be physiological ligands. The demonstration of a single 12-kD protein that binds both IP(4) or IP(3) and anti-FKBP12 provides strong support for the inositolphosphate-binding immunophilin having an apparent mass of 12 kD, and it is suggested that the protein might be called IPBP12 for 12-kD inositol phosphate binding protein. When an internal tryptic peptide derived from IPBP12 was sequenced, a sequence also present in human cytokeratin 10 was identified, suggesting a cytoskeletal localization for the immunophilin. While purifying IPBP12, it was found that it is immunoprecipitated with specific proteins that include a protein kinase and a phosphoprotein phosphatase. The latter is indicated to be phosphoprotein phosphatase 2A (PP-2A). It is suggested that immunophilins promote the assembly of multiprotein complexes that often include a protein kinase or a phosphoprotein phosphatase or both.
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PMID:An inositolphosphate-binding immunophilin, IPBP12. 1051 81

The erythroleukemia-inducing Friend spleen focus-forming virus (SFFV) encodes a unique envelope glycoprotein which allows erythroid cells to proliferate and differentiate in the absence of erythropoietin (Epo). In an effort to understand how SFFV causes Epo independence, we have been examining erythroid cells rendered factor independent by SFFV infection for constitutive activation of signal-transducing molecules. Previous studies from our laboratory showed that various signal-transducing molecules known to be activated by Epo, including Stat proteins and components of the Raf-1/MAP kinase pathway, are constitutively activated in SFFV-infected erythroid cells in the absence of Epo. Since another signal transduction pathway involving activation of phosphatidylinositol 3-kinase (PI 3-kinase) after Epo stimulation plays an important role in erythroid cell proliferation and differentiation, we carried out studies to determine if this pathway was also activated in SFFV-infected cells in the absence of Epo. Our studies show that PI 3-kinase is constitutively activated in erythroid cells rendered factor independent by infection with SFFV and that PI 3-kinase activity, but not Epo receptor tyrosine phosphorylation, is required for the proliferation of these cells in the absence of Epo. We further show that in SFFV-infected erythroid cells grown in the absence of Epo, PI 3-kinase associates with the insulin receptor substrate (IRS)-related adapter molecules IRS-2, Gab1, and Gab2, which are constitutively tyrosine phosphorylated in SFFV-infected cells. Finally, Akt, a protein kinase that is one of the downstream effectors of PI 3-kinase, and SHIP, a lipid phosphatase that is important for Akt activation through PI 3-kinase, are both tyrosine phosphorylated in SFFV-infected cells grown in the absence of Epo. Our results indicate that induction of Epo independence by SFFV requires the activation of PI 3-kinase and suggest that constitutive activation of this kinase in SFFV-infected cells may occur primarily through interaction of PI 3-kinase with constitutively phosphorylated IRS-related adapter molecules.
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PMID:Erythroid cells rendered erythropoietin independent by infection with Friend spleen focus-forming virus show constitutive activation of phosphatidylinositol 3-kinase and Akt kinase: involvement of insulin receptor substrate-related adapter proteins. 1070 18

Terminal erythroid differentiation is accompanied by decreased expression of c-Kit and decreased proliferation of erythroid progenitor cells. Using a newly established erythroleukemia cell line HB60-5, which proliferates in response to erythropoietin (Epo) and stem cell factor (SCF) and differentiates when stimulated with Epo alone, we characterized several events associated with the cell cycle during erythroid differentiation. Forty-eight h after SCF withdrawal and Epo stimulation, there was strong inhibition of cyclin-dependent kinase (cdk) 4 and cdk6 activities, associated with an increase in the binding of p27 and p15 to cdk6. A significant increase in the binding of p27 to cyclin E- and cyclin A-associated cdk2 correlated with the inhibition of these kinases. In addition, the expression of c-Myc and its downstream transcriptional target Cdc25A were found to be down-regulated during Epo-induced terminal differentiation of HB60-5 cells. The loss of Cdc25A was associated with an increase in the phosphotyrosylation of cyclin E-associated cdk2, which may contribute to cell cycle arrest during differentiation. Although overexpression of p27 in HB60-5 cells caused G1 arrest, it did not promote terminal erythroid differentiation. Thus, the cell cycle arrest that involves p27 is part of a broader molecular program during HB60-5 erythroid differentiation. Moreover, we suggest that SCF stimulation of erythroblasts, in addition to inhibiting erythroid differentiation, activates parallel or sequential signals responsible for maintaining cyclin/cdk activity.
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PMID:Stem cell factor inhibits erythroid differentiation by modulating the activity of G1-cyclin-dependent kinase complexes: a role for p27 in erythroid differentiation coupled G1 arrest. 1084 28

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