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)

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

The addition of type 2 cAMP-dependent protein kinase stimulates division of cultured Friend erythroleukemia cells. A synthetic peptide representing the inhibitory portion of the heat stable protein kinase inhibitor protein and an inhibitor of cAMP-dependent protein kinase (N-(2-aminoethyl)-5-isoquinolinesulfonamide dihydrochloride or H-9) inhibited cell division. The latter inhibitor (H-9) induced differentiation of the cells.
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PMID:Protein kinase activity, growth and differentiation of murine erythroleukemia cells. 283 Sep 63

The primary structure of the beta chain of human glycoprotein Ib (GPIb), the platelet receptor for von Willebrand factor, has been established by a combination of cDNA cloning and amino acid sequence analysis. A lambda phage cDNA expression library prepared from human erythroleukemia cells (HEL cells) was screened with a radiolabeled affinity-purified rabbit polyclonal antibody to the beta chain of GPIb. Eighteen positive clones were isolated and plaque-purified and the nucleotide sequences of three were determined. The composite sequence spanned 968 nucleotides and included a 5' untranslated region of 22 nucleotides, an open reading frame of 618 nucleotides encoding a signal peptide of 28 amino acids and a mature protein of 181 amino acids, a stop codon, and a 3' noncoding region of 307 nucleotides. The 3' noncoding sequence also contained a polyadenylylation signal (AATAAA) 14 nucleotides upstream from the poly(A) tail of 18 nucleotides. Edman degradation of the intact beta chain and of peptides produced by chemical cleavage yielded amino acid sequences spanning 76 residues that were identical to those predicted from the cDNA. The amino-terminal region of the beta chain contains a leucine-rich sequence of 24 amino acids that is similar to a sequence that occurs as seven tandem repeats in the alpha chain of GPIb and nine tandem repeats in leucine-rich alpha 2-glycoprotein. The leucine-rich sequence in the beta chain of GPIb is flanked on both sides by amino acid sequences that are similar to those flanking the leucine-rich tandem repeats of the alpha chain of GPIb and leucine-rich alpha 2-glycoprotein. The amino-terminal region of the beta chain of GPIb is followed by a transmembrane segment of 25 amino acids and an intracellular segment of 34 amino acids at the carboxyl terminus of the protein. The intracellular segment contains an unpaired cysteine and two potential sites for phosphorylation by cAMP-dependent protein kinase.
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PMID:The alpha and beta chains of human platelet glycoprotein Ib are both transmembrane proteins containing a leucine-rich amino acid sequence. 335 70

Friend murine erythroleukemia cells (MEL cells) contain a cAMP-independent protein kinase which phosphorylates the 100,000-Da catalytic subunit of the (Na,K)-ATPase both in living cells and in the purified plasma membrane (Yeh, L.-A., Ling, L., English, L., and Cantley, L. (1983) J. Biol. Chem. 258, 6567-6574). We have taken advantage of the selective phosphorylation of the 100,000-Da subunit in purified plasma membranes and the similarity between the proteolysis patterns of the MEL cell and dog kidney (Na,K)-ATPase to map the site of kinase phosphorylation on the MEL cell enzyme. The chymotryptic and tryptic cleavage sites of the dog kidney (Na,K)-ATPase have previously been located (Castro, J., and Farley, R. A. (1979) J. Biol. Chem. 254, 2221-2228). The 100,000-Da catalytic subunits of the dog kidney and MEL cell enzymes were specifically labeled at the active site aspartate residue by incubation with (32P)orthophosphate in the presence of Mg2+ and ouabain. Digestion of these two enzymes with chymotrypsin or trypsin revealed similar active site aspartate containing proteolytic fragments indicating a similar structure for the two enzymes. Chymotryptic digestions of MEL cell (Na,K)-ATPase labeled in vitro with [gamma-32P]ATP localize the region of kinase phosphorylation to within a 35,000-Da peptide derived from the middle of the 100,000-Da subunit. Tryptic digestion of the MEL cell plasma membranes degraded the 100,000-Da subunit to an NH2-terminal 43,000-Da peptide which contained the active site aspartate but which did not contain the kinase-labeled region. These results further locate the region of kinase phosphorylation to the COOH-terminal half of the 35,000-Da chymotryptic peptide. This location places the site of phosphorylation between the active site aspartate residue which accepts the phosphate of ATP during turnover and an ATP-binding site which has previously been located by labeling with fluorescein 5'-isothiocyanate (Carilli, C. T., Farley, R. A., Perlman, D. M., and Cantley, L. C. (1982) J. Biol. Chem. 257, 5601-5606). Phosphorylation of the (Na,K)-ATPase in this region may serve to regulate the activity of this enzyme.
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PMID:The (Na,K)-ATPase of Friend erythroleukemia cells is phosphorylated near the ATP hydrolysis by an endogenous membrane-bound kinase. 632 56

A new cell line designated SQ-A was established from the spleen of a leukemic DBA/2J mouse inoculated with the anemic strain of Friend erythroleukemia virus (FLV-A). The cells are similar in morphology, growth pattern, and tumorigenicity to our prototype erythroleukemia line 5-86 but are more sensitive to the cytotoxic effects of inducers of differentiation. The virus produced by SQ-A cells induces erythroleukemia associated with anemia in adult mice but has little activity when assayed on XC cells. It was characterized to determine what factors influence its leukemogenic potential. As compared to the attenuated virus from cultures of 5-86 and G-2 cells, the subunits of the RNA from the virions of SQ-A cells are the same size, and the amount of reverse transcriptase activity and RNase H present in the purified virions of the three lines are similar. However, differences are observed in levels of endonuclease and protein kinase. Both enzymes are increased in SQ-A virions. The activity of protein kinase in SQ-A virions is about 5 times higher than that in the attenuated virions. The number of polypeptides and their phosphorylation patterns also distinguish the virions of SQ-A. Whereas 5-86 virions contain seven proteins, three of which are phosphorylated in vitro, SQ-A virions contain eight proteins, all of which are phosphorylated. The extra protein in SQ-A virions has a molecular weight of 25,000 and is not glycosylated.
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PMID:Characterization of leukemogenic virus produced by a new line of Friend erythroleukemia virus-transformed cells. 632 17

In mammalian cells, the guanine nucleotide exchange factor (GEF, eIF-2B) plays a major role in the regulation of initiation of protein synthesis. It catalyzes the exchange of eukaryotic chain initiation factor (eIF)-2-bound GDP for GTP and facilitates the recycling of eIF-2 during polypeptide chain initiation. We used the Friend virus-transformed murine erythroleukemia (MEL) cell system to elucidate the translational regulatory processes that occur during growth and hexamethylene bisacetamide (HMBA)-induced cell differentiation. GEF activity is increased during growth and decreased during MEL cell differentiation, and this parallels the overall changes in protein synthesis during this period. Inhibition of GEF activity in induced cells may occur indirectly by phosphorylation of the alpha-subunit of eIF-2. However, the decrease in GEF activity in induced cells cannot be reversed by increasing the concentration of eIF-2-GDP added as a substrate in the GEF assay. This is diagnostic for the presence of eIF-2 alpha(P)-GDP in cell lysates and suggests that regulation of GEF activity may occur by one or more mechanisms other than eIF-2(alpha) phosphorylation. We have previously shown that the activity of GEF may be influenced directly by phosphorylation with casein kinase II (CK-II) of the 82-kD subunit of the factor. CK-II activity parallels the changes in GEF activity and the rate of protein synthesis during growth and differentiation of MEL cells. Addition of 1mM spermidine, a stimulator of CK-II but not of purified GEF, in induced MEL cell extracts enhances both CK-II and GEF activities approximately 48 and 32%, respectively. The results presented suggest that the inhibition of protein synthesis during MEL cell differentiation may be linked to the decreased CK-II and GEF activities.
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PMID:Hexamethylene bisacetamide-induced differentiation of Friend virus-transformed murine erythroleukemia cells is associated with parallel changes in casein kinase II and guanine nucleotide exchange factor activities. 755 31

Activin, a member of the transforming growth factor-beta superfamily, binds to two classes of cell surface receptors. These receptors, designated type I and type II, are structurally related members of transmembrane serine kinase superfamily. Antibodies specific for either type I or type II activin receptor can coprecipitate complexes containing both affinity-labeled receptors from activin-responsive cells. Two type I receptors show cell-specific expression and associate with the ligand-binding, type II receptors. To investigate the roles of the cytoplasmic receptor domains in signaling through a heteromeric ligand receptor complex, we have made kinase-deficient activin receptors and correlated their losses in kinase activity with inhibitory effects on an activin-dependent transcriptional response in activin-responsive cell lines. Wild-type activin type II receptors phosphorylate activin type I receptors in transfected COS cells. In contrast, kinase-deficient activin type II receptors fail to phosphorylate type I receptors in transfected COS cells and act as dominant negative mutants to block activin-induced transcriptional activity in both Chinese hamster ovary and K562 (human erythroleukemia) cells. Kinase-deficient activin type IB receptors also block activin-induced transcriptional activity in both Chinese hamster ovary and K562 cells, whereas kinase-deficient activin type I receptors have no effect in either cell line. These results indicate that kinase activities of both type II and type I receptors are required for activin signaling, and that the two type I receptors, which are expressed in a tissue-specific manner, are functionally distinct.
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PMID:Inactivation of activin-dependent transcription by kinase-deficient activin receptors. 758

When murine erythroleukemia (MEL) cells are induced to differentiate by hexamethylene bisacetamide (HMBA), erythroid-specific genes are transcriptionally activated; however, transcriptional activation of these genes is severely impaired in cAMP-dependent protein kinase (protein kinase A)-deficient MEL cells. The transcription factor NF-E2, composed of a 45-kDa (p45) and an 18-kDa (p18) subunit, is essential for enhancer activity of the globin locus control regions (LCRs). DNA binding of NF-E2 and alpha-globin LCR enhancer activity was significantly less in HMBA-treated protein kinase A-deficient cells compared to cells containing normal protein kinase A activity; DNA binding of several other transcription factors was the same in both cell types. In parental cells, HMBA treatment and/or prolonged activation of protein kinase A increased the amount of NF-E2.DNA complexes without change in DNA binding affinity; the expression of p45 and p18 was the same under all conditions. p45 and p18 were phosphorylated by protein kinase A in vitro, but the phosphorylation did not affect NF-E2.DNA complexes, suggesting that protein kinase A regulates NF-E2.DNA complex formation indirectly, e.g. by altering expression of a regulatory factor(s). Thus, protein kinase A appears to be necessary for increased NF-E2.DNA complex formation during differentiation of MEL cells and may influence erythroid-specific gene expression through this mechanism.
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PMID:cAMP-dependent protein kinase is necessary for increased NF-E2.DNA complex formation during erythroleukemia cell differentiation. 772 32

We determined the nucleotide sequence of a mouse and a human cDNA, which we designate STPK13, that encodes an apparent protein kinase related to that encoded by the Drosophila melanogaster polo gene and the Saccharomyces cerevisiae CDC5 gene. The polo and CDC5 gene products are required for normal mitosis. The STPK13 mRNA is regulated during terminal erythrodifferentiation and during the cell cycle. Within the precommitment period of murine erythroleukemia cell terminal differentiation, most of the poly(A) tail is lost from the STPK13 mRNA, but the body of the mRNA remains unchanged in abundance; this poly(A) loss does not occur in mutant erythroleukemia cells that fail to commit to terminal differentiation. During the cell cycle, the abundance of the body of the STPK13 mRNA fluctuates. The mRNA is present in growing but not in nongrowing cells. It reaches a maximum abundance during G2/M phase, is absent or present at only low levels during G1 phase, and begins to reaccumulate at approximately the middle of S phase. The cell cycle-associated accumulation and loss of the STPK13 mRNA could cause a similar fluctuation in abundance of its encoded protein kinase, thereby providing a maximum amount during M phase, when the kinase is thought to function, and little or none at other times of the cell cycle. Posttranscriptional regulation must be responsible for the cell cycle-associated fluctuations because transcription rates are relatively constant during different times of the cell cycle when there are large differences in mRNA abundance.
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PMID:Cell cycle- and terminal differentiation-associated regulation of the mouse mRNA encoding a conserved mitotic protein kinase. 790 33

Transformed cells do not necessarily lose their capacity to differentiate. Various agents can induce many types of neoplastic cells to terminal differentiation. Among such inducers, a particularly potent group consists of hybrid polar compounds; hexamethylene bisacetamide (HMBA) is the prototype of this group. With virus-transformed murine erythroleukemia cells as a model, HMBA was shown to cause these cells to arrest in G1 phase and express globin genes. This review focuses on HMBA-induced modulation of factors regulating G1-to-S phase progression, including a decrease in the G1 cyclin-dependent kinase cdk4, associated with inhibition of phosphorylation of the retinoblastoma protein pRB and possibly other related proteins that, in turn, sequester factors required for initiation of DNA synthesis; this provides a possible mechanism for HMBA-induced terminal cell division. Evidence that hybrid polar compounds have therapeutic potential for cancer treatment will also be reviewed.
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PMID:Inducing differentiation of transformed cells with hybrid polar compounds: a cell cycle-dependent process. 793 35

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