EC:3.1.4.3 - FACTA Search

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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ecto-protein kinases (ecto-PK), primarily of the serine/threonine kinase type, have been previously described on the surface of various normal, transformed, and tumor cells. We have found that in the presence of ATP and Mg2+, exogenously added substrates such as phosvitin and poly(Glu4-Tyr) are phosphorylated by intact K562 erythroleukemia, HL60 promyelocytic leukemia, and U937 histiocytic leukemia human cells. Phosphoamino acid analysis indicated that phosvitin, histone H2B, casein, and protamine are phosphorylated on serine and threonine residues, whereas poly(Glu4-Tyr) is phosphorylated on tyrosine. We also present evidence showing that the C9 complement protein, a key component of the membranolytic protein complex of the complement system, is exclusively phosphorylated by the K562 cells on serine residues. Phosphorylation of poly(Glu4-Tyr) is markedly enhanced by Mn2+, whereas C9 phosphorylation is rather inhibited by Mn2+. It is concluded that human leukemic cells express on their surface two types of ecto-PK, one phosphorylating serines and threonines and one specific to tyrosines. The ecto-PKs are spontaneously shed from fully viable cells into the medium in a temperature-dependent manner. Upon sedimentation of cell supernatants at 100,000g, the ecto-PKs are found sedimented with small membrane vesicles. Treatment of intact K562 cells or of released membrane vesicles with bacterial phospholipase C, but not with trypsin or pronase, releases the two types of ecto-PK from the cell or vesicle membrane, respectively. This is accompanied by a marked increase in the released phosphorylating activity. It is, therefore, suggested that these ecto-PKs are either covalently linked to phospholipids or strongly attached to lipid-anchored molecules in the cell surface membrane. Several endogenous proteins in the released membranes are phosphorylated by the ecto-PKs on serines and to a lesser extend on threonines. Two proteins (PTP79 and PTP54) are phosphorylated in a manganese-dependent manner on tyrosines.
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PMID:Shedding of tyrosine and serine/threonine ecto-protein kinases from human leukemic cells. 786 34

Previous investigations have demonstrated the existence of an autonomous intranuclear inositide cycle endowed with conventional lipid kinases and phospholipase C (PLC) which is the isoform beta in Swiss 3T3 cells, PC12 pheochromocytoma cells, human osteosarcoma SaOS-2 cells, and rat liver. The presence of PLC has been investigated in nuclei of Friend erythroleukemia cells. Both beta and gamma isoforms are present in these nuclei. When Friend cells undergo terminal erythroid differentiation in the presence of dimethyl sulfoxide the PLC beta isoform is down-regulated as shown by immunochemical and immunocytochemical analysis, by determination of enzymatic activity directly and in the presence of neutralizing monoclonal antibodies and also by Northern blot for PLC beta message. By contrast, the amount of PLC gamma and its activity are unaffected by erythroid differentiation. Thus, the presence of a nuclear PLC beta, the activity and expression of which are modulated during differentiation of erythroleukemia cells, implicates a role for nuclear phosphoinositide signaling in the processes of cell determination and indicates the nuclear PLC beta as a key enzyme of the cycle in relation to the erythroid differentiative commitment of murine erythroleukemia cells.
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PMID:Phosphoinositide signaling in nuclei of Friend cells: phospholipase C beta down-regulation is related to cell differentiation. 816 74

The nonhydrolyzable GTP analogue GTP-gamma-S was capable of stimulating in vitro phosphorylation of polyphosphoinositides in isolated nuclei prepared from mouse erythroleukemia cells. On the contrary, GDP-beta-S was ineffective. The stimulation was not detectable when nuclei were prepared from erythroleukemia cells induced to differentiate by exposure to dimethyl sulfoxide. Both nuclear phosphomonoesterase and phospholipase C activities were not influenced by GTP-gamma-S. Our results point to the likelihood that nuclear phosphoinositide kinases might be regulated by a GTP-binding protein.
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PMID:Stimulation of nuclear polyphosphoinositide synthesis by GTP-gamma-S: a potential regulatory role for nuclear GTP-binding proteins. 857 28

Screening of a human erythroleukemia cell cDNA library with radiolabeled chicken P2Y3 cDNA at low stringency revealed a cDNA clone encoding a novel G protein-coupled receptor with homology to P2 purinoceptors. This receptor, designated P2Y7, has 352 amino acids and shares 23-30% amino acid identity with the P2Y1-P2Y6 purinoceptors. The P2Y7 cDNA was transiently expressed in COS-7 cells: binding studies thereon showed a very high affinity for ATP (37 +/- 6 nM), much less for UTP and ADP (approximately 1300 nM), and a novel rank order of affinities in the binding series studied of 8 nucleotides and suramin. The P2Y7 receptor sequence appears to denote a different subfamily from that of all the other known P2Y purinoceptors, with only a few of their characteristic sequence motifs shared. The P2Y7 receptor mRNA is abundantly present in the human heart and the skeletal muscle, moderately in the brain and liver, but not in the other tissues tested. The P2Y7 receptor mRNA was also abundantly present in the rat heart and cultured neonatal rat cardiomyocytes. The P2Y7 receptor is functionally coupled to phospholipase C in COS-7 cells transiently expressing this receptor. The P2Y7 gene was shown to be localized to human chromosome 14. We have thus cloned a unique member of the P2Y purinoceptor family which probably plays a role in the regulation of cardiac muscle contraction.
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PMID:Molecular cloning of a novel P2 purinoceptor from human erythroleukemia cells. 870 78

Erythropoietin regulates the transcription of the protooncogenes c-myc and c-myb by discrete protein kinase C (PKC)-dependent and protein serine/threonine phosphatase-dependent pathways, respectively (Spangler, R., Bailey, S. C., and Sytkowski, A. J. (1991) J. Biol. Chem. 266, 681-684; Patel H. R, Choi H.-S, and Sytkowski A. J. (1992) J. Biol. Chem. 267, 21300-21302). In the present study we demonstrate that up-regulation of c-myc requires the PKC-epsilon isoform and that this pathway is required for erythropoietin-induced DNA synthesis (growth) but apparently not for beta-globin expression (differentiation). Treatment of Rauscher murine erythroleukemia cells resulted in phosphorylation of phospholipase C-gamma1 and activation of PKC-epsilon as evidenced by its translocation from soluble to particulate subcellular fractions. Artificial down-regulation of PKC-epsilon with antisense oligodeoxynucleotides blocked erythropoietin's up-regulation of c-myc in a concentration-dependent manner. In contrast, antisense oligodeoxynucleotides to PKC-alpha, -beta, -gamma, -delta, and -zeta had no effect. Although down-regulation of PKC-epsilon blocked the increase in c-myc expression, it did not inhibit erythropoietin induction of beta-globin expression, a marker of erythroid differentiation. However, down-regulation of PKC-epsilon did block factor-dependent DNA synthesis quantified by measurement of [3H]thymidine incorporation into newly synthesized DNA of normal murine erythroid cells. The results are consistent with discrete intracellular signals regulating erythroid cell growth and differentiation.
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PMID:Protein kinase C-epsilon is necessary for erythropoietin's up-regulation of c-myc and for factor-dependent DNA synthesis. Evidence for discrete signals for growth and differentiation. 890 Jan 91

Friend erythroleukemia cells have a nuclear phosphoinositide cycle which is related to both mitogen-stimulated cell growth and erythorid differentiation. Because of the important role of the phosphatidylinositol-transfer protein (PI-TP) in phosphatidylinositol 4,5-bisphosphate (PtdInsP2) synthesis, we have analysed nuclei isolated from Friend cells for the presence of PI-TP. By Western Blotting it was demonstrated that both intact nuclei and nuclei deprived of the outer membrane contained the PI-TP alpha isoform. Upon induction of erythroid differentiation by DMSO, the amount of nuclear PI-TP alpha was greatly diminished. As shown previously, under these same conditions, nuclear phospholipase C beta1 (PLC beta1) is down-regulated as well.
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PMID:Phosphoinositide signalling in nuclei of Friend cells: DMSO-induced differentiation reduces the association of phosphatidylinositol-transfer protein with the nucleus. 901 71

The purpose of this study was to characterize the prostanoid receptors coupled to intracellular calcium in human erythroleukemia (HEL) cells, a cell line with platelet/megakaryocytic characteristics. Both prostaglandin E1 (PGE1) and iloprost increased cyclic AMP (cAMP) in HEL cells, but modulated [Ca2+]i by different mechanisms. Iloprost (10(-9) to 10(-6) M) had no effect on basal [Ca2+]i, but greatly potentiated the increase in [Ca2+]i produced by thrombin. This effect was mimicked by cholera toxin and other Gs-coupled receptors, and involved calcium influx since iloprost had no effect on [Ca2+]i in cells incubated in Ca2+-free buffer. Furthermore, iloprost did not increase the generation of baseline or thrombin-induced inositol phosphates at these concentrations. In contrast, PGE1 (10(-7) to 10(-5) M), but not iloprost, increased basal [Ca2+]i through a pertussis toxin-sensitive mechanism that involved stimulation of inositol phosphate generation and mobilization of intracellular calcium. The order of potencies of other prostaglandins that increased [Ca2+]i was not consistent with known IP, EP, DP, FP, or TP receptors. 11-Deoxy-16,16-dimethyl PGE2 was the most potent of the analogs tested (EC50 = 28 nM). In summary, at least two prostaglandin receptors are functionally coupled to intracellular calcium in HEL cells: a putative IP receptor coupled to Gs proteins that increases cAMP and enhances calcium influx, and a novel prostanoid receptor that evokes calcium mobilization through stimulation of phospholipase C by a pertussis toxin-sensitive pathway.
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PMID:Prostanoid receptor with a novel pharmacological profile in human erythroleukemia cells. 935 92

Addition of oleic and arachidonic acids to Ehrlich ascites tumor cells mobilizes Ca2+ from the same intracellular pool as that mobilized by thapsigargin. Such mobilization occurs in the presence of the phospholipase C inhibitor U73122 as well as in cells treated with pertussis toxin. Co-addition of fatty acids and thapsigargin leads to initial rates of Ca2+ mobilization much greater than that induced by either compound alone. The responses induced by the fatty acids are observed also with other lipophiles like sphingosine, bromo-palmitate and the Ca2+ influx inhibitor econazole; all responses are rapidly reversed by addition of bovine serum albumin. Many of the above effects of fatty acids are observed also in Jurkat T lymphocytes and Friend erythroleukemia cells. The experiments provide evidence of lipid-induced plasma membrane perturbations that influence intracellular Ca2+ mobilization independent of the generation of currently known second messengers.
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PMID:Unsaturated fatty acids mobilize intracellular calcium independent of IP3 generation and VIA insertion at the plasma membrane. 942 68

A body of evidence has shown the existence of a nuclear phosphoinositide cycle in different cell types. The cycle is endowed with kinases as well as phosphatases and phospholipase C (PLC). Among the PLC isozymes, the beta family is characterized by a long COOH-terminal tail that contains a cluster of lysine residues responsible for nuclear localization. Indeed, PLC beta 1 is the major isoform that has been detected in the nucleus of several cells. This isoform is activated by insulin-like growth factor I, and when this isoform is lacking, as a result of gene ablation, the onset of DNA synthesis induced by this hormone is abolished. On the contrary, PLC beta 1 is down-regulated during the erythroid differentiation of Friend erythroleukemia cells. A key question is how PLC beta 1 signaling at the nucleus fits into the erythroid differentiation program of Friend erythroleukemia cells, and whether PLC beta 1 signaling activity is directly responsible for the maintenance of the undifferentiated state of erythroleukemia cells. Here we present evidence that nuclear PLC beta 1 but not the isoform located at the plasma membrane is directly involved in maintaining the undifferentiated state of Friend erythroleukemia cells. Indeed, when wild-type PLC beta 1 is overexpressed in these cells, differentiation in response to DMSO is inhibited in that the expression of beta-globin is almost completely abolished, whereas when a mutant lacking the ability to localize to the nucleus is expressed, the cells differentiate, and the expression of beta-globin is the same as in wild-type cells.
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PMID:Nuclear but not cytoplasmic phospholipase C beta 1 inhibits differentiation of erythroleukemia cells. 982 10

Phosphoinositide signaling resides in the nucleus, and among the enzymes of the cycle, phospholipase C (PLC) appears as the key element both in Saccharomyces cerevisiae and in mammalian cells. The yeast PLC pathway produces multiple inositol polyphosphates that modulate distinct nuclear processes. The mammalian PLCbeta(1), which localizes in the nucleus, is activated in insulin-like growth factor 1-mediated mitogenesis and undergoes down-regulation during murine erythroleukemia differentiation. PLCbeta(1) exists as two polypeptides of 150 and 140 kDa generated from a single gene by alternative RNA splicing, both of them containing in the COOH-terminal tail a cluster of lysine residues responsible for nuclear localization. These clues prompted us to try to establish the critical nuclear target(s) of PLCbeta(1) subtypes in the control of cell cycle progression. The results reveal that the two subtypes of PLCbeta(1) that localize in the nucleus induce cell cycle progression in Friend erythroleukemia cells. In fact when they are overexpressed in the nucleus, cyclin D3, along with its kinase (cdk4) but not cyclin E is overexpressed even though cells are serum-starved. As a consequence of this enforced expression, retinoblastoma protein is phosphorylated and E2F-1 transcription factor is activated as well. On the whole the results reveal a direct effect of nuclear PLCbeta(1) signaling in G(1) progression by means of a specific target, i.e. cyclin D3/cdk4.
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PMID:A role for nuclear phospholipase Cbeta 1 in cell cycle control. 1091 38

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