Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pertussis toxin (PT) catalyzes the ADP-ribosylation of several guanine nucleotide-binding (G) proteins that are involved in the transduction of cell surface receptor-mediated signals. Involvement of such G-proteins in regulation of hematopoiesis by two growth factors, colony-stimulating factor-1 (CSF-1) and interleukin 3 (IL 3), was investigated using pertussis toxin. Continuous or pulse exposure of murine bone marrow cells to pertussis toxin inhibited CSF-1 or IL 3-induced colony formation by approximately 50%. Pertussis toxin inhibition was also demonstrated against partially separated marrow from 5-fluorouracil-treated mice. The toxin effect was blocked by heating (95 degrees C for 30 minutes), by antitoxin antibody and was not associated with increased cAMP levels in target cells. In experiments with murine marrow, toxin-mediated inhibition appeared to involve predominantly the macrophage lineage. IL 3 stimulation of proliferation of the murine marrow-derived factor-dependent cell line FDC-P1, as measured by 3H-TdR incorporation, and CSF-1 stimulation of pure populations of murine bone marrow derived macrophages, as measured by DNA content and cell number, was also inhibited. Analysis of the effects of pertussis toxin on the growth of single cells stimulated by IL 3 demonstrated that this inhibition involved a decreased growth rate rather than a toxic ablation of cells. Phorbol myristate acetate (PMA) stimulated FDC-P1 cells and was able to abrogate the PT inhibition of IL 3 stimulation of these cells, suggesting but not establishing that IL 3 may mediate its proliferative effects through activating protein kinase C.
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PMID:Inhibition of interleukin 3 and colony-stimulating factor 1-stimulated marrow cell proliferation by pertussis toxin. 312 45

Interleukin-3 (IL-3) is a member of a family of growth and differentiation peptides, collectively referred to as colony-stimulating factors, which regulate haematopoiesis. IL-3 has been highly purified from medium conditioned by WEHI-3B cells, and recently the molecular cloning of complementary DNA for murine IL-3 has been reported. IL-3 seems to stimulate a wide range of colony-forming cells derived from murine bone marrow and has consequently been studied under a variety of names, including burst-promoting activity, mast cell growth factor, P-cell stimulating factor and multi-colony-stimulating factor. Here we present evidence that IL-3-receptor interaction stimulates the rapid and transient redistribution of protein kinase C (PK-C) from cytosol to plasma membrane in FDC-P1 cells. Phorbol myristate acetate (PMA) is shown to have a similar effect in these IL-3-dependent FDC-P1 cells. Our data suggest that IL-3 and phorbol esters share a common feature of transmembrane signalling crucial for growth and differentiation.
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PMID:Altered cytosol/membrane enzyme redistribution on interleukin-3 activation of protein kinase C. 315 21

Interleukin 3 stimulates the proliferation of FDC-P1, a murine myeloid cell line, however the biochemical events subsequent to binding of IL3 have only recently begun to be investigated. We have previously described the activation of protein kinase C (PK-C) and serine/threonine phosphorylation of a 68 kd protein following IL3 treatment of FDC-P1 cells. Here we have used an anti-phosphotyrosine antibody to purify proteins containing phosphotyrosine following IL3 administration to FDC-P1 cells. We find that tyrosine phosphorylation of two proteins of 50 (pp50) and 70 (pp70) kilodaltons occurs rapidly following IL3 treatment. In addition to phosphotyrosine both proteins also contained phosphoserine. Together with previous evidence these results suggest that coactivation of serine/threonine and tyrosine kinase activities which target unique proteins may be an important element in IL3 signal transduction.
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PMID:Interleukin 3 stimulation of tyrosine kinase activity in FDC-P1 cells. 326 86

In order to investigate early signal transduction events in myeloid cells, the phosphosubstrates of an interleukin 3 (IL 3)-dependent cell line, FDC-P1, have been analyzed. Using synthetic diacylglycerol as a direct activator of the unique calcium-phospholipid-dependent phosphotransferase protein kinase C (PK-C) and genetically engineered homogeneous IL 3, we have demonstrated a common element to signal transduction events associated with these stimulants. One novel substrate, p68 (68,000 kd), was rapidly phosphorylated in either IL 3- or diacylglycerol-stimulated cells. The phosphorylation of p68 was dose-dependent, with both the physiological ligand and diacylglycerol inducing the same maximal level of phosphorylation. Phosphorylation of p68 occurred in a time-dependent manner analogous to previously described kinetics of PK-C subcellular redistribution in the FDC-P1 cell line. The p68 substrate was also phosphorylated in a cell-free system under conditions designed to activate PK-C. Phosphoamino acid analysis demonstrated that the p68 molecule phosphorylated in intact cells as well as in a calcium-phospho-lipid-dependent cell-free system was phosphorylated on threonine residues, not tyrosine. These data support the hypothesis that the activation of PK-C that occurs after IL 3-receptor interaction which leads to the rapid phosphorylation of cellular proteins is an important element of the signal transduction mechanism in FDC-P1 cells. We propose that phosphorylation of the p68 molecule is a physiochemical marker for the activation of PK-C in myeloid cells, in response to the growth-promoting physiological ligand.
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PMID:Multilineage hematopoietic growth factor interleukin 3 and direct activators of protein kinase C stimulate phosphorylation of common substrates. 348 92

Interleukin 3 (IL-3) promotes the survival, proliferation and development of progenitor cells from several distinct haemopoietic lineages and can also stimulate the self-renewal of stem cells. We have explored the mode of action of this growth factor in promoting survival and proliferation, using a multipotent haemopoietic stem cell line FDC-Mix 1. In the absence of IL-3 these cells died within 16-48 h. However, this requirement for IL-3 could be replaced by 12-O-tetradecanoylphorbol-13-acetate (TPA) plus Ca2+ ionophore, which promoted not only survival but also DNA synthesis with no concomitant loss of the multipotential nature of these cells. TPA and Ca2+ ionophore, respectively, could also interact synergistically with IL-3 to promote DNA synthesis. Both IL-3 and TPA stimulated the translocation of protein kinase C (PK-C) from the cytosol to a membrane-bound form in FDC-Mix 1 cells. Previously we suggested that IL-3 can activate the primary metabolism of IL-3-dependent cells so that increased glucose transport and glycolysis lead to maintenance of ATP levels and cellular survival. To investigate whether TPA and, or, Ca2+ ionophore could also influence cellular survival via an activation of glucose uptake we assessed the effects of these agents on hexose transport. TPA +/- Ca2+ ionophore activated hexose transport to the same degree as does IL-3 but these agents cannot superstimulate FDC-Mix 1 hexose transport in cells that already exhibit an activated transport system from preincubation with IL-3. We conclude that IL-3 maintains FDC-Mix 1 cells via its ability to activate PK-C and increase cytosolic levels of Ca2+, and that an IL-3-mediated activation of PK-C may promote cellular survival via its ability to enhance hexose uptake by phosphorylating the glucose transport protein.
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PMID:Phorbol esters activate protein kinase C and glucose transport and can replace the requirement for growth factor in interleukin-3-dependent multipotent stem cells. 349 4

Using murine myeloid factor-dependent FDC-P1/ER cells, we demonstrate that the hematopoietic growth factors interleukin-3 and erythropoietin and bryostatin-1, a macrocyclic lactone natural product and potent activator of protein kinase C (PKC), suppress apoptosis and induce the rapid serine phosphorylation of Bc12 alpha. Expression of recombinant wild type Bc12 alpha in NFS/N1.H-7 cells confirms that murine Bc12 alpha is phosphorylated following PKC activation. The PKC inhibitors H-7 and staurosporine, but not the protein kinase A inhibitor HA1004, block not only interleukin-3- and bryostatin-1-induced hyperphosphorylation of Bc12 alpha but also their anti-apoptotic effect on growth factor-dependent cells, suggesting a role for activated PKC in both processes. A potential direct role for a classic isoform of PKC is indicated by the Ca(2+)-dependent nature of phosphorylation of Bc12 alpha mediated by purified PKC in vitro. Comparative phosphopeptide maps confirm that Bc12 alpha phosphorylation occurs on identical serine site(s) whether phosphorylation occurs in cells following agonist treatment or directly by PKC in vitro. These findings strongly support a role for activated PKC in growth factor-induced Bc12 alpha phosphorylation as well as suppression of apoptosis.
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PMID:Interleukin-3 and bryostatin-1 mediate hyperphosphorylation of BCL2 alpha in association with suppression of apoptosis. 792 24

We have previously found that Raf-1, which is activated by hematopoietic growth factors in association with phosphorylation, is required for hematopoietic cell proliferation. Recently, 12-O-tetradecanoylphorbol 13-acetate has been found to mediate Raf-1 phosphorylation, suggesting that protein kinase C (PKC) may be involved in the Raf-1 activation mechanism(s). Since PKC can be activated by hematopoietic growth factors, it was investigated as a potential "Raf-1 kinase-kinase." Results demonstrate that bryostatin 1, a pharmacologic activator of PKC, induces activation of Raf-1 in FDC-P1 cells. PKC inhibitors H7 and staurosporine block both bryostatin 1- and interleukin-3-mediated Raf-1 phosphorylation and FDC-P1 cell proliferation. Additionally, an antisense c-raf oligodeoxyribonucleotide specifically inhibits bryostatin 1-mediated proliferation, indicating a necessary role for Raf-1 in PKC signaling. Purified PKC can phosphorylate Raf-1 serine residues to high stoichiometry in vitro. Comparative phosphopeptide maps localize two PKC phosphorylation sites to Raf-1 phosphopeptides isolated from hematopoietic growth factor- or bryostatin 1-stimulated cells. The sites of PKC-mediated Raf-1 phosphorylation are deduced to be Ser497 and Ser619. Furthermore, PKC-mediated serine phosphorylation is sufficient to activate the enzymatic function of Raf-1 in vitro. These findings demonstrate that activated PKC can promote hematopoietic cell growth by regulating the enzymatic activity of Raf-1 through direct serine phosphorylation.
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PMID:Protein kinase C-mediated serine phosphorylation directly activates Raf-1 in murine hematopoietic cells. 828 87

To investigate the molecular mechanisms mediating hematopoietic cell differentiation and mitogenesis by activation of the platelet-derived growth factor beta receptor (PDGF-betaR), the wild type PDGF-betaR (PDGF-betaRWT) and tyrosine to phenylalanine mutants of the PDGF-betaR, including F751, F966, F970, F1009, F1021 and F1009/F1021 were overexpressed in FDC-P2 myeloid progenitor cells by retroviral-mediated gene transfer. Stimulation of PDGF-betaRWT and F966, F970 and F1009 infectants with PDGF-BB led to the increased expression of monocytic differentiation markers. In contrast, activation of PDGF-betaR in the parental line or the F1021 or F1009/F1021 mutant infectants failed to induce monocytic differentiation. PDGF-BB stimulation of PDGF-betaRWT, F751, F966, F970 and F1009 infectants led to pronounced DNA synthesis, whereas F1021 and F1009/F1021 infectants did not reveal any increase in mitogenesis when compared to that of the FDC-P2 line. While PDGF stimulation of FDC-P2 cells overexpressing PDGF-betaRWT led to a pronounced increase in inositol phosphate formation due to phospholipase C-gamma (PLC-gamma) activation, PDGF-BB induced phosphoinositol hydrolysis was completely abolished in the F1021 and F1009/F1021 infectants. GF 109203X, a specific inhibitor of protein kinase C (PKC) activation, fully blocked PDGF-betaR-mediated monocytic differentiation and mitogenesis. Taken together, these results suggest that stimulation of the PDGF-betaR signaling pathway can mediate monocytic differentiation when PDGF-betaR is expressed at sufficient levels and that activation of PLC-gamma and PKC plays a pivotal role in PDGF-betaR-mediated differentiation and mitogenesis in FDC-P2 cell system.
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PMID:PLC-gamma activation is required for PDGF-betaR-mediated mitogenesis and monocytic differentiation of myeloid progenitor cells. 924 12

The interleukin-3 (IL-3)-dependent murine bone marrow-derived cell line FDC-P2/185-4 (185-4) undergoes apoptosis when IL-3 is withdrawn from culture medium. Previous results from our studies indicated that a high concentration of aggregated mouse IgG prevented apoptosis of 185-4 cells through Fc gammaRIII by an autocrine mechanism, producing IL-3. But after 24 hours, 185-4 cells expressed CD95 (Fas/Apo-1) on their surfaces on stimulation via Fc gammaRIII. In addition, this CD95 was functional and apoptosis was induced by anti-CD95 monoclonal antibody (MoAb). We investigated how these conflicting effects were induced by Fc gammaRIII stimulation within the context of cell survival and death. The results showed that IL-3 was induced by calcium ionophore and that the IL-3 induced by Fc gammaRIII stimulation was blocked by EGTA or FK506, but not by staurosporine (protein kinase C [PKC] inhibitor), indicating the important role of calcium-calcineurin in this system. On the other hand, the CD95 expression induced by Fc gammaRIII stimulation was blocked by staurosporine, but not by EGTA or FK506, and phorbol myristate acetate (PMA) induced CD95 expression in the same manner as Fc gammaRIII, indicating the involvement of PKC in the CD95 expression induced by Fc gammaRIII stimulation. Thus, Fc gammaRIII-mediated stimulation even while promoting immediate survival of the bone marrow cells, also triggers mechanisms that will facilitate their eventual deletion at the end of the response. These results suggest that a balance between cell survival and death is maintained to avoid unlimited cell growth caused by Fc gammaRIII-ligand interaction in hematopoiesis during inflammation.
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PMID:Fc gammaRIII-mediated regulation of hematopoiesis in murine bone marrow cells by interleukin-3 and CD95 (Fas/Apo-1). 929 24


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