EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report that the sterol-mediated suppression of the mRNA levels of three cholesterogenic enzymes, 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase, HMG-CoA synthase, and farnesyl diphosphate (FPP) synthetase is partially overcome by the calcium ionophore A23187. Addition of A23187 to the human monocytic leukemia cell line THP-1 in the presence of fetal calf serum led to rapid increases in mRNA concentration of up to 40-fold for HMG-CoA synthase and 15-fold for HMG-CoA reductase with little or no change in FPP synthetase mRNA levels. Treatment of HepG2 cells with A23187 resulted in approximately 2-4-fold increases in the mRNA levels for these three enzymes. The increases in HMG-CoA synthase and HMG-CoA reductase mRNAs were maximal after treatment of THP-1 cells with 10 micrograms/ml A23187 for 3 h. The stimulation was blocked by actinomycin D but not by cycloheximide treatment. Ionophore treatment had no effect on the half-lives of the mRNAs for HMG-CoA reductase and HMG-CoA synthase. Surprisingly, the addition of A23187 to THP-1 cells incubated in the presence of 25-hydroxycholesterol and mevalonic acid also led to significant increases in the mRNA levels for HMG-CoA reductase and HMG-CoA synthase. Finally, the stimulation of these mRNA levels by A23187 was reduced in cells in which protein kinase C had been inactivated by preincubation of the cells with a phorbol ester. Taken together, these data suggest that A23187 treatment results in increased transcription of HMG-CoA reductase, HMG-CoA synthase, and, in some cell types, FPP synthetase by a mechanism that does not involve de novo protein synthesis. We speculate that A23187 treatment results in the modification of a trans-acting factor(s) which is common for the transcription of all these genes.
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PMID:Calcium ionophore treatment impairs the sterol-mediated suppression of 3-hydroxy-3-methylglutaryl-coenzyme A reductase, 3-hydroxy-3-methylglutaryl-coenzyme A synthase, and farnesyl diphosphate synthetase. 134 97

Previous studies showed that the human monocytic leukemia cell line THP-1 can be induced to undergo monocytic differentiation by tumor promoting phorbol esters (TPA), suggesting that protein kinase C (PK-C), the primary binding site of TPA, may play a role in the control of monocytic differentiation: The effect of exogenous phospholipase C (PLC) on THP-1 cells was investigated. Within 24-48 hr, PLC induced over 40% of THP-1 cells to undergo monocytic differentiation as manifested by adherence, growth arrest, functional expression, morphological changes and expression of c-fms gene which encode for M-CSF receptors. Compared to TPA, however, the inducing activity of PLC was weaker, slower and not as effective. PLC treatment also induced a transient expression of c-fos proto-oncogene prior to c-fms expression. On the contrary, the level of c-myc RNA, which is constitutively expressed in THP-1 cells, was down-regulated 48 hr after PLC treatment. The PLC-induced monocytic differentiation in THP-1 cells was inhibited by staurosporine, a potent PK-C inhibitor, further suggesting that direct activation of the PK-C is one of the metabolic events essential for monocytic differentiation. It is postulated that in THP-1 cells the metabolic pathway transducing PK-C activation has been permanently blocked, thereby leading to uncontrolled proliferation without differentiation.
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PMID:Phospholipase C-induced monocytic differentiation in a human monocytic leukemia cell line THP-1. 149 32

Macrophage colony-stimulating factor (M-CSF) is required for the proliferation, differentiation, and activation of monocytes. High-affinity receptors for M-CSF are encoded by the c-fms proto-oncogene. In the present study, we show that c-fms transcripts are detectable in human THP-1 myeloid leukemia cells. Furthermore, radiolabeled 125I-M-CSF is rapidly internalized into THP-1 cells and then degraded intracellularly. The results also show that treatment of THP-1 cells with M-CSF is associated with the activation of protein kinase C (PKC) and the induction of tumor necrosis factor (TNF) gene expression. TNF transcript levels were low to undetectable in uninduced THP-1 cells, reached maximal levels by 1 hour of exposure to M-CSF, and returned to those of control cells by 24 hours. Transcriptional run-on analysis showed that a low level of TNF transcription is detectable in untreated THP-1 cells, and M-CSF treatment increased the rate of TNF transcription. Pretreatment of THP-1 cells with pertussis toxin inhibited the increase in PKC activity but not the induction of TNF transcripts by M-CSF. Moreover, exposure of THP-1 cells to inhibitors of protein kinase activity blocked the increase in TNF messenger RNA. These findings suggest that at least two M-CSF-mediated signaling pathways exist in THP-1 cells and that the induction of TNF may be regulated by a protein kinase-dependent mechanism distinct from PKC.
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PMID:Functional expression of the macrophage colony-stimulating factor receptor in human THP-1 monocytic leukemia cells. 153 7

We studied changes in the three types of Fc gamma receptor (FcR) on the THP-1 human monocytic leukemia cells, after incubation with the phorbol ester, PMA, which has been shown to alter the expression of several genes in these cells. THP-1 cells constitutively express FcRI and FcRII, and PMA down-regulated the expression of both FcRI and FcRII. The FcRIII expression was not detected on either untreated or PMA-treated cells. Addition of PMA to THP-1 cells also resulted in a dose-dependent decrease of CD4 expression, as well as in an increased expression of activation-associated antigens. PMA treatment was followed by a progressive decrease in the steady state level of FcRI mRNA, while FcRII mRNA levels did not change, pointing to different regulatory mechanisms at the pre- and post-transcriptional level respectively. The FcRIII mRNA was undetectable. In order to further delineate the mechanism by which PMA induces alterations in FcR expression, we treated cells with stimulators of protein kinase C, of Ca2+ calmodulin-dependent kinase, and of protein kinase A. Since stimulation of none of these second messenger systems induced similar alterations in FcR expression as PMA we next tested the effects of PMA on differentiation and arrest of proliferation. The changes in FcR only occurred at PMA concentrations capable of inducing cell adherence and an arrest of proliferation, and showed a relatively slow time pattern. This suggested that the alterations in FcR expression may be linked to partial differentiation into a more macrophage-like cell. The changes in FcR expression could furthermore be reproduced by 1,25(OH)2 vitamin D3, another agent capable of differenting monocytes. In conclusion, PMA treatment of THP-1 cells decreases FcRI gene transcription and membrane expression and reduces membrane expression of FcRII. Both changes might be linked with an arrest of cell growth and induction of differentiation.
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PMID:Changes in IgG Fc receptor expression induced by phorbol 12-myristate 13-acetate treatment of THP-1 monocytic leukemia cells. 153 44

Human myeloid leukemia cells (i.e., HL-60, U937, THP-1) which are induced to differentiate along the monocytic pathway by 12-O-tetradecanoylphorbol-13-acetate (TPA), revert back to the undifferentiated phenotype after 3 to 4 weeks. During this differentiation and retrodifferentiation process the cells obviously establish a distinct sequence of biological processes which is integrally regulated to simultaneously control differentiation and cell growth. Thus, induction of monocytic markers by TPA is associated with a down-regulation of cell cycle genes and cessation of proliferation. In particular, crosstalk between the TPA-induced translocation of protein kinase C (PKC) and the activation of transcription factors, especially AP-1, enhances the expression of genes associated with the monocytic phenotype. This is accompanied by induction of intermediate filament proteins, surface glycoproteins, changes in membrane properties and intracellular metabolism. In parallel, the cells cease to divide, and genes associated with cell cycle progression including cdc2, cyclins, cdc25, and histones are down-regulated. Although signals responsible for arrested cell growth remain unclear, there are several control mechanisms regarding cell cycle genes and differentiation parameters (for a review, see Nigg, E. A., Seminars in Cell Biol., 2, 262-270, 1991). For example, activated p34cdc2 kinase is involved in lamina disassembly by direct phosphorylation of lamin proteins which may contribute to nuclear envelope breakdown during mitosis (Enoch, T., M. Peter, P. Nurse, J. Cell Biol. 112, 797-807 (1991)). Moreover, endomembrane traffic is arrested by a cdc2-like kinase probably via phosphorylation of members of the rab protein family which contributes to vesiculation and membrane transport by hydrolyzing GTP (Tuomikoski, T., et al., Nature 342, 942-945 (1989)). Although there are several reports on a possible feedback control between differentiation and cell cycle, including phosphorylation of cyclins and activation of a ubiquitin-dependent proteolytic degradation, signaling pathways and possible mechanisms for retrodifferentiation and reentry into the cell cycle remain unclear. While some terminally differentiated cells are committed to die, the major part of the differentiated monocytic population undergoes retrodifferentiation. All cellular signals characterized so far are reverted during retrodifferentiation: Redistribution of PKC and down-regulation of c-fos and c-jun contribute to an interruption of the differentiation-associated transsignaling cascade. Thus, down-regulation of markers associated with monocytic differentiation in combination with metabolic changes restore the original cell phenotype. At the same time cell cycle genes are up-regulated, and the cells regain proliferative capacity. Finally, retrodifferentiated and untreated control cells demonstrate indistinguishable properties.
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PMID:Retrodifferentiation--an alternative biological pathway in human leukemia cells. 164 56

We have examined the role of retinoic acid (RA), the biologically active metabolite of vitamin A, in expression of the IL-1 beta gene in the human myeloid leukemia cell line THP-1 and in human monocytes. Both protein kinase C-activating phorbol esters, e.g., PMA, and LPS induce IL-1 beta expression in these cells. Physiologic RA concentrations alone were not able to induce any IL-1 beta production, but they strongly enhanced the PMA-induced IL-1 beta protein production and mRNA accumulation in both human monocytes and in THP-1 cells. Nuclear run-off analysis revealed that the enhancing effect was at the transcriptional level. RA also slightly potentiated LPS-induced IL-1 beta expression in THP-1 cells but not in human monocytes. These data suggest that RA can be a strong up-regulator of IL-1 production, but its strength varies depending on the nature of the activating signal.
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PMID:Retinoic acid enhances IL-1 beta expression in myeloid leukemia cells and in human monocytes. 164 41

Foam cell formation via lipid accumulation through the scavenger receptor in human monocyte/macrophages is believed to be one of the earliest events in atherogenesis. In this study we demonstrate that stimulation of the scavenger receptor activates monocytes to produce interleukin-1 (IL-1). Polyinosinic acid (poly I) and fucoidan, both ligands known to bind to the scavenger receptor, induced IL-1 beta production in human monocytes. Polycytidylic acid, a structurally related compound to poly I, which does not bind to the scavenger receptor, was used as a negative control and had virtually no effect on IL-1 production. THP-1 cells, which normally do not express scavenger receptors, were almost unresponsive to poly I and fucoidan. PMA priming, which has been reported to up-regulate scavenger receptor expression in THP-1 cells, significantly enhanced IL-1 production by fucoidan and poly I. IL-1 produced by scavenger receptor stimulation was shown to be secreted extracellularly, and biologically active. Scavenger receptor-mediated IL-1 production was inhibited by H7, a protein kinase C inhibitor, and enhanced by IBMX, an inhibitor of cyclic AMP degradation, suggesting a synergistic effect of protein kinase C and cyclic AMP-mediated signal transduction pathways in scavenger receptor-mediated IL-1 production. Due to the potentially deleterious effects of IL-1 on the vessel wall, IL-1 produced by ligand binding to the scavenger receptor in human monocytes may play a role in the pathogenesis of atherosclerosis.
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PMID:Induction of interleukin-1 production by ligands binding to the scavenger receptor in human monocytes and the THP-1 cell line. 166 75

A human monocytic cell line, THP-1, stimulated with 40 nM phorbol myristate acetate (PMA), differentiated to macrophage-like cells, and exhibited increased expression and release of interleukin-1 beta and expression of acetylated low density lipoprotein (ac-LDL) receptors. A selective inhibitor, MDL 29,152 (4-propyl-5-(4-quinolinyl)-2(3H)-oxazolone) was used to show that this induction required activation of protein kinase C. MDL 29,152 acts in the catalytic domain of protein kinase C and is at least 200-fold selective for protein kinase C over cAMP-dependent protein kinase in THP-1 cells. MDL 29,152 (50 microM) reduced levels of interleukin-1 beta mRNA in PMA-stimulated cells by 76% and eliminated detectable interleukin-1 beta in the media. Flow cytometric analysis showed that 48 h after THP-1 activation, approximately 50% of the cells expressed ac-LDL receptors, while in the presence of 100 microM MDL 29,152, less than 5% of the cells expressed receptors. The relationship between THP-1 differentiation and protein kinase C activation was determined by following the expression of the cell surface antigen MO-1. Expression of MO-1 antigen increases as monocytes differentiate to macrophages. After 48 h of phorbol activation, 90% of the THP-1 population was MO-1-positive; less than 16% of the population was MO-1-positive when 100 microM MDL 29,152 was present. By dual analysis, it was found that within the differentiated, MO-1-positive population, only approximately 50% of the cells also expressed ac-LDL receptors. Based on these findings, we conclude that protein kinase C promotes processes important in THP-1 activation and differentiation to macrophage-like cells including interleukin-1 beta expression and secretion, ac-LDL receptor and MO-1 expression.
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PMID:Suppression of interleukin-1 beta and LDL scavenger receptor expression in macrophages by a selective protein kinase C inhibitor. 179 49

Inhibitors of myosin light chain kinase, 1-(5-chloronaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-9) and 1-(5-iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine hydrochloride (ML-7), induced Nitroblue tetrazolium reducing activity, lysozyme activity and morphological maturation of human monoblastic U937, THP-1 and promyelocytic HL-60 cells, but not of erythroblastic K562 cells. However, three analogs of ML-9, which are an inhibitor and an activator of protein kinase C, and a calmodulin antagonist, respectively, did not induce differentiation of the cells.
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PMID:Induction of differentiation of human leukemia cells by inhibitors of myosin light chain kinase. 187 28

T lymphocytes and monocytes were exposed to microgravity and activated to produce interleukin 2 and interleukin 1, respectively. When Jurkat T cells were triggered with monoclonal antibodies directed against the CD3/T cell receptor complex in the presence of THP-1 monocytes used as accessory cells, cell-to-cell contacts took place in microgravity leading to normal production of interleukin 2 and interleukin 1, as compared to ground controls. In contrast, when cells were individually stimulated by soluble substances including a protein kinase C activating phorbol ester, the production of interleukin 1 and interleukin 2 was dramatically inhibited during microgravity exposure. This result indicates that microgravity may affect the cellular target of phorbol ester.
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PMID:Inhibition of phorbol ester-induced cell activation in microgravity. 191 66

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