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)

In vitro erythroid differentiation of mouse erythroleukemia (MEL) cells was induced by combinations of topoisomerase and protein kinase inhibitors. Neither inhibitor alone exhibited inducing activity. Although inhibitors of topoisomerases I and II were equally effective in the synergistic induction of erythroid differentiation, only inhibitors of tyrosine kinases, not of serine/threonine kinases, exhibited synergistic activity. The erythroid differentiation induced by the combination of topoisomerase and protein tyrosine kinase inhibitors was distinguished from that induced by typical erythroid inducing agents such as DMSO or HMBA by (1) earlier hemoglobin accumulation in the cells and (2) insensitivity to specific inhibitors (dexamethasone and sodium orthovanadate) of MEL cell differentiation.
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PMID:Synergistic induction of erythroid differentiation of mouse erythroleukemia (MEL) cells by inhibitors of topoisomerases and protein tyrosine kinases. 131 8

Casein kinase I (CKI) is a class of protein kinases ubiquitous to all eukaryotic cells. Recently, cDNA clones encoding several bovine CKI isoforms have been sequenced that show high sequence identity to the HRR25 gene product of the budding yeast Saccharomyces cerevisiae; HRR25 is required for normal cellular growth, nuclear segregation, DNA repair, and meiosis. We have raised polyclonal antibodies to a human erythroid 34-kDa CKI and have sequenced a portion of this kinase. The amino acid sequence identifies the CKI as the alpha-CKI isoform, which is 62% identical to the HRR25 protein kinase. By use of immunofluorescence, the alpha-CKI has been localized to vesicular cytosolic structures and to the centrosome in interphase cells. As cells progress into mitosis, centrospheric staining increases and, in mitosis, alpha-CKI associates with kinetochore fibers. This localization suggests that alpha-CKI, like HRR25, plays a role in the segregation of chromosomes during mitosis and may be cell cycle-regulated both in humans and in yeast.
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PMID:Cell cycle-dependent localization of casein kinase I to mitotic spindles. 140 56

We have previously shown that HL-60 cells treated with 1 alpha, 25-(OH)2D3 in magnesium-deficient medium are committed to differentiate but do not express differentiation-related phenotypes. In the present study, we demonstrated that Mg2+ deprivation blocked the process of differentiation before the induction of lysozyme mRNA and that the process of HL-60 cell differentiation could be divided into two steps, i.e., a commitment step and a phenotypic expression step. We studied the effects of protein kinase A (PKA) and calcium/phospholipid-dependent protein kinase (PKC) modulators at each step. The results indicated that agonists of PKA enhanced both steps but that N-(2-[methylamino]ethyl-5-isoquinolinesulfonamide inhibited them. On the other hand, 1-oleyl-2-acetylglycerol and 12-O-tetradecanoylphorbol-13-acetate enhanced the commitment step but inhibited that of phenotypic expression. Staurosporine and 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine inhibited the commitment step and enhanced that of phenotypic expression. These results indicate that PKA acts as a positive regulatory signal and that PKC has a dual role in the process of HL-60 cell differentiation, i.e., as a positive regulatory signal in the commitment step and as a negative one in the phenotypic expression step. Recently, we have also shown that in K-562 cell differentiation into erythroid lineage, PKA may serve as a negative regulatory signal in both steps; however, PKC may act dually, namely as a negative regulatory signal in the commitment step and as a positive one in the phenotypic expression step.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of protein kinase A and calcium/phospholipid-dependent kinase modulators in the process of HL-60 cell differentiation: their opposite effects between HL-60 cell and K-562 cell differentiation. 166 Nov 33

A highly purified preparation of heme-regulated inhibitor (HRI), an eIF-2 alpha kinase, from rabbit reticulocyte lysates has been used for generating monoclonal antibodies (mAB). Two hybridoma clones secreting HRI-specific antibodies (mAB A and mAB F) were obtained. Both antibodies immunoprecipitated biosynthetically labeled as well as phosphorylated HRI in reticulocyte lysates and also recognized denatured HRI in a Western blot. In in vitro protein kinase assays, preincubation of HRI with the antibodies significantly diminished both autokinase and eIF-2 alpha kinase activities. HRI from reticulocyte lysates could be quantitatively removed by immunoprecipitation with mAB F, and such HRI-depleted lysates were able to maintain protein synthesis under conditions of heme deficiency. With these monoclonal antibodies, HRI was detected only in the reticulocytes and bone marrow of anemic rabbits, among several rabbit tissues tested. The antibodies did not detect cross-reacting HRI in rat or human reticulocytes or in mouse erythroleukemic cells or human K562 cells even after induction of differentiation, although eIF-2 alpha kinase activity was detected in them. Polyclonal anti-rabbit HRI antibody detected HRI in rat reticulocytes. However, no cross-reacting HRI was detected by polyclonal antibody in human reticulocytes or other cell types tested. These findings suggest that HRI is not ubiquitous, and may be erythroid-specific, and that it is antigenically different in different species.
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PMID:Tissue distribution and immunoreactivity of heme-regulated eIF-2 alpha kinase determined by monoclonal antibodies. 167 93

The proto-oncogene c-myc has been identified as an early response gene for erythropoietin (Epo) in transformed murine erythroleukemia cells. Epo activation of c-myc in these cells requires protein kinase C. We now show the fidelity of this signaling pathway in normal erythroid cells isolated from the spleens of phenylhydrazine-treated mice. Mouse spleen cells rich in erythroid progenitors were washed free of endogenous Epo and then incubated in the absence of Epo. Subsequent addition of Epo for 1 hour led to a dramatic elevation of c-myc transcript. Addition of the protein synthesis inhibitor cycloheximide did not prevent the c-myc response, thus identifying c-myc as an Epo early response gene in normal cells. We used this c-myc response as a reporter for signals initiated by the Epo receptor. Using a series of inhibitors with known specificities and established rank-orders of potency for different kinases, we determined that the c-myc response to Epo was blocked with the following rank order: staurosporine much greater than H7 greater than sangivamycin greater than H8. This sequence is identical to that obtained using transformed cells and is diagnostic of a protein kinase C-dependent signal. Because direct activation of protein kinase by phorbol esters does not induce terminal differentiation of normal cells, the pathway to c-myc established by these studies must represent one part of a signal transduction mechanism.
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PMID:c-myc is an erythropoietin early response gene in normal erythroid cells: evidence for a protein kinase C-mediated signal. 172 20

Casein kinase I activity is present in cells as a cytosolic and a membrane-bound enzyme. Previously, the erythroid membrane-bound casein kinase I was shown to associate with purified integral membrane proteins; this association and protein kinase activity was regulated by phosphatidylinositol 4,5-bisphosphate (PIP2) (Bazenet, C.E., Brockman, J.L., Lewis, D., Chan, C., and Anderson, R.A. (1990) J. Biol. Chem. 265, 7369-7376). Here we show that both the membrane-bound and the cytosolic casein kinase interact with native membranes and that this interaction is regulated by the membrane content of PIP2. On native membranes, casein kinase I activity is potently inhibited by small increases (10-20%) in the membrane content of either exogenously added or intrinsic PIP2. However, the majority of the intrinsic content of PIP2 in isolated membranes does not inhibit casein kinase, suggesting that this PIP2 is not accessible. Regulation of the casein kinases on membranes is sensitive to detergents and to chymotrypsin treatment of membranes.
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PMID:Casein kinase I is regulated by phosphatidylinositol 4,5-bisphosphate in native membranes. 184 28

The v-erbA oncogene of avian erythroblastosis virus (AEV) encodes a ligand-independent mutated version of the chicken c-erbA alpha-encoded thyroid hormone receptor. The v-erbA gene product, a 75-kD gag/v-erbA fusion protein, is phosphorylated on Ser-16/17 of its v-erbA-encoded domain, and phosphorylation at this site is increased in vivo after activation of either the PKA or PKC signal transduction pathways. To test the hypothesis that phosphorylation of Ser-16/17 regulates gag/v-erbA protein function, mutant proteins in which Ser-16/17 had been changed to alanine or threonine residues were analyzed for their ability to inhibit erythroid differentiation of ts v-erbB or ts v-sea-transformed erythroblasts at nonpermissive temperature. Conversion of Ser-16/17 into alanine, although not affecting nuclear localization or DNA binding of the gag/erbA protein, prevented phosphorylation of the v-erbA-encoded domain of the protein both in unstimulated cells or after stimulation by PKA and PKC activators. The nonphosphorylatable AA-gag/v-erbA protein proved unable to inhibit temperature-induced differentiation of ts v-erbB and ts v-sea-transformed erythroblasts and to block expression of the erythrocyte-specific genes band 3 and carbonic anhydrase II. Back mutation of these alanine residues to serine resulted in the recovery of both normal phosphorylation levels and wild-type biological activity. In contrast, substitution of Ser-16/17 for threonine, which preserved phosphorylation in unstimulated cells but not PKA- and PKC-enhanced phosphorylation, resulted in a partially active gag/v-erbA protein. These results, together with the fact that the protein kinase inhibitor H7 resulted in both a dose-dependent inhibition of gag/v-erbA protein phosphorylation and the induction of terminal differentiation of AEV-transformed erythroblasts show that phosphorylation of gag/v-erbA protein is required for full biological activity. These results support the hypothesis that phosphorylation of the gag/v-erbA protein is important for transcriptional repression of at least some of its target genes in erythroid cells.
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PMID:Phosphorylation of the v-erbA protein is required for its function as an oncogene. 197 40

The avian c-fps and mammalian c-fes proto-oncogenes are cognate cellular sequences. Antiserum raised against the P140gag-fps transforming protein of Fujinami avian sarcoma virus specifically recognized a 92,000-Mr protein in human and mouse hematopoietic cells which was closely related in structure to Snyder-Theilen feline sarcoma virus P87gag-fes. This polypeptide was apparently the product of the human c-fes gene and was therefore designated p92c-fes. Human p92c-fes was associated with a tyrosine-specific protein kinase activity in vitro and was capable of both autophosphorylation and phosphorylation of enolase as an exogenous protein substrate. The synthesis of human and mouse p92c-fes was largely, though not entirely, confined to myeloid cells. p92c-fes was expressed to relatively high levels in a multipotential murine myeloid cell line, in more mature human and mouse granulocyte-macrophage progenitors, and in differentiated macrophage like cells as well as in the mononuclear fraction of normal and leukemic human peripheral blood. p92c-fes was not found in erythroid cells, with the exception of a human erythroleukemia line which retains the capacity to differentiate into macrophage like cells. These results suggest a normal role for the p92c-fes tyrosine kinase in hematopoiesis, particularly in granulocyte-macrophage differentiation. In addition, a distinct 94,000-Mr polypeptide, antigenically related to p92c-fes, was identified in a number of hematopoietic and nonhematopoietic human and mouse cells and was also found to be associated with a tyrosine-specific protein kinase activity.
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PMID:Expression of the mammalian c-fes protein in hematopoietic cells and identification of a distinct fes-related protein. 242 71

The concentration of regulatory subunits (R) of type II cAMP-dependent protein kinase increased 4- to 5-fold when Friend erythroleukemic cells were either grown in medium containing 0.5 mM 8-bromo-cAMP and 0.2 mM methylisobutylxanthine or stimulated to differentiate. Two species of RII with apparent Mr values of 54,000 (RII-54) and 52,000 (RII-52) are expressed in Friend cells. Both forms of RII were (a) covalently labeled with 8-N3-[32P]cAMP, (b) phosphorylated by the catalytic subunit of protein kinase II, and (c) complexed by polyclonal anti-RII IgGs. RII-52 and RII-54 were not interconverted by phosphorylation or dephosphorylation. A monoclonal antibody that recognizes an internal site in RII resolved the two cAMP-binding proteins by preferentially binding RII-54. The structural diversity suggested by the monoclonal antibody experiment was further examined by comparing two-dimensional maps of tryptic peptides obtained from metabolically labeled [( 35S]met) RII-52 and RII-54. Groups of 35S-labeled peptides that were either uniquely derived from RII-54 or obtained only from RII-52 were readily distinguished, thereby demonstrating that Friend cells produce two separate and distinct forms of type II cAMP-binding subunits. The relative rate of synthesis of RII-52 increased 12- to 14-fold during erythroid differentiation and treatment with 8-bromo-cAMP, while the rate of RII-54 synthesis either declined slowly or was unchanged. Thus, two homologous forms of RII are subject to different modes of physiological (differentiation) and pharmacological (chronic 8-Br-cAMP) regulation, and the accumulation of total RII observed in the present and previous (Schwartz, D. A., and Rubin, C. S. (1983) J. Biol. Chem. 258, 777-784) studies results from a selective increase in the rate of biosynthesis of RII-52.
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PMID:Identification and differential expression of two forms of regulatory subunits (RII) of cAMP-dependent protein kinase II in Friend erythroleukemic cells. Differentiation and 8-bromo-cAMP elicit a large and selective increase in the rate of biosynthesis of only one type of RII. 258 52

Hexamethylene bisacetamide (HMBA) and other polar/apolar chemical agents are potent inducers of erythroid differentiation in murine erythroleukemia cells (MELC), as well as other transformed cell lines. Although the mechanism of action of HMBA is not yet known, evidence has been obtained that protein kinase C (PKC) plays a role in this process. In this study we provide further evidence that establishes this relationship. MELC contain two principal PKC activities, PKC beta and PKC alpha. MELC variants, selected for resistance to vincristine (VC), which display acceleration of their rates of induced differentiation, are enriched in PKC beta activity. When MELC are exposed to HMBA there is a fall in PKC activity, largely accounted for by a decline in PKC beta. This decline in PKC activity is faster in the VC-resistant, rapidly differentiating MELC. We previously demonstrated that VC-resistant MELC are resistant to the inhibition of differentiation by the phorbol ester, phorbol 12-myristate 13-acetate (PMA). In both VC-sensitive and -resistant MELC, PMA causes rapid membrane translocation and then a decline in PKC activity, accompanied by a generation of a Ca2+- and phospholipid-independent protein kinase activity. In VC/PMA-resistant variants, this Ca2+/phospholipid-independent protein kinase activity persists considerably longer than in the VC-sensitive variants. This correlates with the resistance to PMA and provides additional evidence for a role for the Ca2+/phospholipid-independent protein kinase activity during induced differentiation.
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PMID:Differential expression of protein kinase C isozymes and erythroleukemia cell differentiation. 280 82

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