Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transforming growth factor-beta (TGF-beta) modulates some components of the acute phase response in hepatic cells. The mechanisms for these actions of TGF-beta are largely unknown. The authors recently found that the decrease in albumin mRNA after TGF-beta 1 treatment required de novo RNA and protein synthesis, suggesting that TGF-beta acts through induction of another gene. The purpose of the current study was to determine whether TGF-beta 1 could regulate the expression of both the jun and fos genes that encode transcriptional regulatory proteins that constitute the AP-1 complex, and to determine whether expression of these genes may be coordinated with the decrease in albumin mRNA. Northern blot hybridization was used to determine levels of specific mRNAs. Transforming growth factor-beta 1 increased the levels of both jun-B and fos-B mRNA by 60 minutes after treatment of mouse hepatoma (BWTG3) cells. When TGF-beta 1 was removed from the media after 4 hours, there was a sustained effect of increased jun-B and decreased albumin mRNA (greater than 48 hours), and the subsequent decrease in jun-B levels coincided with the increase in albumin mRNA. The tumor-promoting phorbol ester (phorbol 12-myristate 13-acetate [PMA]), known to induce jun and fos gene expression, caused increases in jun-B and fos-B that preceded the decrease in albumin mRNA levels at 24 hours. These observations are consistent with our hypothesis that jun-B and fos-B induction may participate in downregulation of albumin synthesis as well as other hepatic responses to TGF-beta.
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PMID:Transforming growth factor (TGF)-beta stimulates hepatic jun-B and fos-B proto-oncogenes and decreases albumin mRNA. 141 79

In a search for monocyte-specific nuclear factors, we analyzed in human cells the promoter of the chicken myelomonocytic growth factor, a gene that, in the chicken, is expressed in myeloid and myelomonocytic cells. Reporter gene constructs were active in monocytic Mono Mac 6 cells and in monoblastic THP-1 cells but not in the hematopoietic stem cell line K562. When a region with homology to the sequence recognized by CAAT enhancer-binding proteins (C/EBP) was inactivated by site-directed mutagenesis, the reporter activity was reduced by a factor of 10. Multimers of this region, termed F, in front of a heterologous promoter were active in Mono Mac 6 and THP-1 cells but not in K562 cells, WIL2 B cells, BT20 mammary carcinoma cells, MelJuso melanoma cells, or SK-Hep-1 hepatoma cells. Gel shift analysis with the F oligonucleotide identified DNA-binding activity in monocytic Mono Mac 6, monoblastic THP-1, and myelomonocytic HL60 cells. No binding was detected in myelomonocytic RC2A cells, in myeloid KG-1 cells, or in the hematopoietic stem cell line K562. Furthermore, a panel of solid tumor cell lines, representing various tissues, were also negative. Stimulation by PMA could not induce this binding factor in any of the negative cell lines. Analysis of primary cells (granulocytes, T cells, monocytes, and alveolar macrophages) revealed binding activity only in monocytes and macrophages. This DNA-binding factor, termed NF-M, was found to consist of two molecules, of 50 and 72 kDa, as determined by affinity cross-linking. Binding of NF-M was competed by the region F oligonucleotide and by the C/EBP motif from the albumin enhancer but not by an AP-2 motif. These data suggest that NF-M is a member of the C/EBP family of nuclear factors. The monocyte-restricted activity of NF-M suggests that this nuclear factor may be involved in regulation of monocyte-specific genes.
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PMID:Constitutive monocyte-restricted activity of NF-M, a nuclear factor that binds to a C/EBP motif. 160 56

cAMP and phorbol esters mediate cellular metabolism by the activation of distinct signal transduction pathways consisting of a cascade of sequential protein phosphorylations. An important consequence of the activation of these pathways is the stimulation of gene transcription by way of interactions of specific proteins with DNA control elements. The 8-base-pair (bp) DNA consensus sequence TGACGTCA [cAMP response element (cAMP-RE)] has been shown to confer cAMP responsivity on transcription from various promoters, and the closely related 7-bp consensus sequence TGA-(C or G)TCA [phorbol 12-myristate 13-acetate response element (PMA-RE)] lends transcriptional responsiveness to phorbol esters. In the JEG-3 placental cell line we find that several variants of the cAMP-REs fused to a gonadotropin alpha promoter chloramphenicol acetyltransferase reporter gene mediate responsiveness to cAMP but not to phorbol esters. The PMA-RE is responsive to phorbol esters but also imparts submaximal sensitivity to cAMP in the JEG-3 cells and in the Hep G2 hepatoma cell line. The transcriptional activities of cAMP-RE and PMA-RE are markedly influenced by the composition of the neighboring bases, but different sequences are permissive for the activity of the cAMP-RE versus the PMA-RE. The two signaling agents together display a supraadditive effect on reporter genes containing active PMA-REs but not cAMP-REs. Gel-mobility-shift and UV cross-linking analyses show that distinct proteins bind to the two control elements. One protein of 38 kDa binds to the cAMP-RE and several proteins of 48-84 kDa bind to the PMA-RE.
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PMID:Cyclic AMP and phorbol ester-stimulated transcription mediated by similar DNA elements that bind distinct proteins. 284 47

The role that protein kinase C (PKC) may play on insulin regulation of glucose metabolism was investigated in rat adipocytes and Zajdela hepatoma cultured (ZHC) cells which are two cell types highly responsive to insulin. In rat adipocytes, 4 beta-phorbol 12 beta-myristate, 13 alpha-acetate (PMA, 0.1-1,000 ng/ml), a potent tumor promoter acting as a substitute for diacylglycerol which directly activates PKC, stimulated basal 2-deoxyglucose (2-DG) transport in a time- and dose-dependent manner, but decreased the activation of this process elicited by submaximal concentrations of insulin. PMA (0.1-1,000 ng/ml) also stimulated basal lipogenesis from [3-3H] glucose in a dose-dependent manner. Maximal PMA and insulin effects on both processes were not additive. The specificity of the insulin-like effects of PMA was assessed by the finding that 4 beta-phorbol 12, 13 dibutyrate (PDBu), mezerein, 1-oleyl-2-acetyl glycerol (OAG) and 1, 2 diolein, know as PKC activators, also markedly stimulated glucose metabolism whereas 4 alpha-phorbol 12, 13 didecanoate (4 alpha-PDD) and 4 beta-phorbol 13-monoacetate, shown not to activate PKC, were ineffective. PMA and insulin biological effects exhibited several similarities: both agents stimulated glucose transport and lipogenesis in a calcium-dependent manner, both activated glucose transport through an energy-requiring process, and the effects of both were markedly decreased by mellitin, a PKC inhibitor. Finally, fat cells made PKC-deficient by a chronic treatment with PMA exhibited a marked decrease in insulin responsiveness for stimulation of glucose transport and lipogenesis, with no change in either the hormone sensitivity or the insulin receptor affinity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Regulation of glucose metabolism by insulin: dual role of protein kinase C]. 305 80

Signal Transducer and Activator of Transcription 3 (Stat3) is a latent protein activated in response to various cytokines and growth factors. It is believed that Stat3 is a key signaling molecule involved in the regulation of acute phase gene expression by interleukin 6 (IL-6) in hepatocytes. We report that both IL-6 and interferon gamma (IFN gamma) up-regulate the expression of Stat3 on both mRNA and protein levels in rat and human hepatoma cells. The effect of IL-6 and IFN gamma on Stat3 mRNA expression was time- and dose-dependent. Other factors, including IL-1, TNF alpha, EGF, Dexamethasone and PMA, did not have any effect on Stat3 mRNA expression. Moreover, we show that the rapid induction of Stat3 expression by IL-6 and IFN gamma was independent of ongoing protein synthesis, suggesting regulation by Stat3 and Stat1, respectively.
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PMID:Activation of signal transducer and activator of transcription-3 (Stat3) expression by interferon-gamma and interleukin-6 in hepatoma cells. 748 23

Specific cellular sites of action of the environmental pollutant, lead, have not been completely defined. The present investigations were conducted to test the hypothesis that lead exposure perturbs glucocorticoid-mediated effects in hormonal target tissues. The cell culture model chosen for these investigations was the effects of lead on glucocorticoid-regulated tyrosine aminotransferase (TAT) specific activity in the H4-II-C3 hepatoma cells. Cells were treated with 300 nM-10 microM lead acetate for 24 or 48 h in absence or presence of the inducing agent, dexamethasone. Lead dose-dependently inhibited TAT specific activity up to 52% and 61% following 24 and 48 h lead treatments, respectively. These treatment times and concentrations of lead acetate did not significantly alter total cell numbers, [3H]thymidine incorporation or trypan blue exclusion. Glucocorticoid receptor-binding studies yielded a Kd = 8.3 nM and a Bmax = 290 fmol/mg protein in untreated cells versus a Kd = 9.2 nM and Bmax = 262 fmol/mg protein in cells exposed to 10 microM lead acetate for 48 h. Treatment with lead did not significantly perturb uptake of the inducing glucocorticoids or initial cytosolic receptor-binding events. To sustain induced levels of TAT, glucocorticoid must be continuously present. Following steroid withdrawal, enzyme de-induction was significantly altered in lead-treated cells. At 6 h following dexamethasone withdrawal, TAT levels had decreased to 51% of maximum in sodium acetate-treated cells. This was significantly reduced to 33% of maximum in lead acetate-treated cells. Lead treatment of HTC cells was also shown to ameliorate PMA amplification of dexamethasone-induced TAT activity. Taken together, these results suggest that acute exposure of cells to lead may inhibit processes involved in glucocorticoid-mediated enzyme induction within the hormonal target cell. Results suggest that lead may be acting to increase the turnover of TAT by actions at the transcription, translation and/or posttranslational level. Lead may also be affecting PKC-mediated phosphorylations in the glucocorticoid-TAT signal transduction system.
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PMID:The acute effect of lead acetate on glucocorticoid regulation of tyrosine aminotransferase in hepatoma cells. 762 83

The ligand-binding subunit (gp80) of the human interleukin-6 receptor (IL-6R) was transiently expressed in COS-7 cells. The metabolically labeled protein was shown to be quantitatively released from the membrane within 20 h. We identified the protein released from the transfected COS-7 cells after purification to homogeneity and N-terminal sequencing as a soluble form of the gp80/IL-6R. Shedding of the gp80 protein was strongly induced by 4 beta-phorbol-12-myristate-13-acetate, indicating that the process was regulated by protein kinase C (PKC). This was further corroborated by the finding that co-transfection of a PKC expression plasmid led to enhanced shedding of the gp80 protein. Since shedding of gp80 could not be prevented by treatment of the cells with inhibitors of all known classes of proteases, a novel protease seems to be involved. As a control, an unrelated membrane protein (vesicular stomatitis virus glycoprotein) was transfected into COS-7 cells and analyzed for shedding. Since the turnover of this protein was not mediated by shedding, we conclude that the release of gp80 from COS-7 cells is a specific process. The shed gp80 protein specifically binds IL-6, and this complex shows biological activity on human hepatoma cells. Human peripheral blood monocytes released a soluble form of the gp80 protein into the culture medium upon PMA treatment indicating that PKC-regulated shedding is the physiological mechanism of generation of the soluble IL-6R.
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PMID:The soluble interleukin-6 receptor is generated by shedding. 843 81

The p67 mRNA level and p67 requirement in protein synthesis were studied using an animal cell (KRC-7, rat tumor hepatoma cell) in culture. p67 mRNA was present in confluent cells but disappeared almost completely from serum-starved cells. However, when PMA was added to the serum-starved cells, p67 mRNA appeared in increasing quantities. Several-fold molar excess of p67 mRNA over that present in confluent cells was detected within 2 h of PMA addition and this level remained the same during the 4 h of the experiment. p67 requirement in protein synthesis was studied using a p67 antisense DNA construct under a metallothionein gene promoter. Expression of this antisense DNA in the presence of zinc in PMA-induced serum-starved cells completely inhibited induced appearance of p67 mRNA and subsequent protein synthesis. These results suggest that p67 is regulated at the mRNA level and also that this protein factor is essential for protein synthesis.
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PMID:Regulation of an eukaryotic initiation factor-2 (eIF-2) associated 67 kDa glycoprotein (p67) and its requirement in protein synthesis. 882 24

PMA has both mitogenic and antiproliferative effects on human hepatoma Hep3B cells. In response to low PMA concentration (10 nM), Hep3B cells displayed an increasing proliferation potentiation. At high PMA concentration (1 microM) Hep3B cells exhibited modest cytostatic effects. Determinations of protein kinase C (PKC) activity in PMA-treated cells revealed that alterations in PKC activity are associated with proliferative capacity. The decrease in PKC activity mediated by a high dose of PMA was accompanied by cell growth inhibition. Increases in PKC activity mediated by a low dose of PMA were consistent with proliferation stimulation. Immunoblot analysis showed that there are at least six PKC isoenzymes: alpha, delta, epsilon, mu, zeta and iota/lambda, constitutively expressed in Hep3B cells. Cellular fractionation and immunocytochemical staining results demonstrated that both 10 nM and 1 microM PMA treatments induced a marked translocation of PKC-alpha from cytosol to membrane or nuclear fraction within 5-30 min. At the same time PKC-delta and epsilon were translocated from the membrane to nuclear fraction. In addition, prolonged treatment with 1 microM PMA, but not with 10 nM PMA, selectively mediated the down-regulation of these three PKC isoenzymes. The distinct effects of different concentrations of PMA on cell proliferation and PKC-alpha, delta and epsilon isoenzyme modulation support the involvement of these three PKC isotypes in the mechanism of action of Hep3B cells in cell growth events.
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PMID:Differential effects of phorbol ester on growth and protein kinase C isoenzyme regulation in human hepatoma Hep3B cells. 963 62

Physiological increases in liver cell volume lead to an adaptive response that includes opening of membrane Cl- channels, which is critical for volume recovery. The purpose of these studies was to assess the potential role for protein kinase C (PKC) as a signal involved in cell volume homeostasis. Studies were performed in HTC rat hepatoma and Mz-ChA-1 human cholangiocarcinoma cells, which were used as model hepatocytes and cholangiocytes, respectively. In each cell type, cell volume increases were followed by: 1) translocation of PKC from cytosolic to particulate (membrane) fractions; 2) a 10- to 40-fold increase in whole-cell membrane Cl- current density; and 3) partial recovery of cell volume. In HTC cells, the volume-dependent Cl- current response (-46 +/- 5 pA/pF) was inhibited by down-regulation of PKC (100 nmol/L phorbol 12-myristate 13-acetate for 18 hours [PMA]; -1.97 +/- 1.5 pA/pF), chelation of cytosolic Ca2+ (2 mmol/L EGTA; -5.3 +/- 4.0 pA/pF), depletion of cytosolic adenosine triphosphate (ATP) (3 U/mL apyrase; -12.58 +/- 1. 45 pA/pF), and by the putative PKC inhibitor, chelerythrine (25 micromol/L; -7 +/- 3 pA/pF). In addition, PKC inhibition by chelerythrine and calphostin C (500 nmol/L) prevented cell volume recovery from swelling. Similar results were obtained in Mz-ChA-1 biliary cells. These findings indicate that swelling-induced activation of PKC represents an important signal coupling cell volume to membrane Cl- permeability in both hepatic and biliary cell models.
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PMID:Activation of protein kinase Calpha couples cell volume to membrane Cl- permeability in HTC hepatoma and Mz-ChA-1 cholangiocarcinoma cells. 975 45


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