UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Signal transducers and activators of transcription (Stat) proteins are latent cytoplasmic transcription factors that are tyrosine phosphorylated by Janus kinases (Jak) in response to GH and other cytokines. GH activates Stat5 by a mechanism that involves tyrosine phosphorylation and nuclear translocation. However, the mechanisms that turn off the GH-activated Jak2/Stat5 pathway are unknown. Continuous exposure to GH of BRL-4 cells, a rat hepatoma cell line stably transfected with rat GH receptor, induces a rapid but transient activation of Jak2 and Stat5. GH-induced Stat5 DNA-binding activity was detected after 2 min and reached a maximum at 10 min. Continued exposure to GH resulted in a desensitization characterized by 1) a rapid decrease in Stat5 DNA-binding activity. The rate of decrease of activity was rapid up to 1 h of GH treatment, and the remaining activity declined slowly thereafter. The activity of Stat5 present after 5 h is still higher than the control levels and almost 10-20% with respect to maximal activity at 10 min; and 2) the inability of further GH treatment to reinduce activation of Stat5. In contrast, with transient exposures of BRL-4 cells to GH, Stat5 DNA-binding activity could repeatedly be induced. GH-induced Jak2 and Stat5 activities were independent of ongoing protein synthesis. However, Jak2 tyrosine phosphorylation and Stat5 DNA-binding activity were prolonged for at least 4 h in the presence of cycloheximide, which suggests that the maintenance of desensitization requires ongoing protein synthesis. Furthermore, inhibition of protein synthesis potentiated GH-induced transcriptional activity in BRL-4 cells transiently transfected with SPIGLE1CAT, a reporter plasmid activated by Stat5. GH-induced Jak2 and Stat5 activation were not affected by D609 or mepacrine, both inhibitors of phospholipase C. However, in the presence of D609 and mepacrine, GH maintained prolonged Jak2 and Stat5 activation. Transactivation of SPIGLE1 by GH was potentiated by mepacrine and D609 but not by the phospholipase A2 inhibitor AACOCF3. Thus, a regulatory circuit of GH-induced transcription through the Jak2/Stat5-signaling pathway includes a prompt GH-induced activation of Jak2/Stat5 followed by a negative regulatory response; ongoing protein synthesis and intracellular signaling pathways, where phospholipase C activity is involved, play a critical role to desensitize the GH-activated Jak2/Stat5-signaling pathway.
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PMID:Desensitization of the growth hormone-induced Janus kinase 2 (Jak 2)/signal transducer and activator of transcription 5 (Stat5)-signaling pathway requires protein synthesis and phospholipase C. 952 67

Some investigators have reported previously that phorbol esters inhibit in vitro erythropoietin production stimulated by hypoxia; whereas others have reported that phorbol esters enhanced Epo production during exposure to hypoxia. We have demonstrated in the present experiments that hypoxia significantly increased diacylglycerol levels in cultured human hepatocellular carcinoma (Hep3B) cells. 1-oleoyl-2-acetyl-ras-glycerol (OAG) and N-(6-phenylhexyl)-5-chloro-1-naphthalenesulfonamide (SC-9), two well-known protein kinase C activators, significantly increased medium levels of erythropoietin as well as erythropoietin messenger RNA levels in normoxic Hep3B cells. A potent protein kinase C inhibitor, chelerythrine chloride, significantly decreased hypoxia-induced increases in medium levels of erythropoietin as well as erythropoietin messenger RNA levels in Hep3B cells. A cis-unsaturated free fatty acid, oleic acid, significantly enhanced OAG-induced medium levels of erythropoietin in normoxic Hep3B cells, whereas a phospholipase A2 inhibitor, mepacrine, significantly decreased hypoxia-induced erythropoietin production in Hep3B cells. These results provide strong support for a positive role for protein kinase C in the hypoxic regulation of erythropoietin production.
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PMID:Activation of protein kinase C in human hepatocellular carcinoma (HEP3B) cells increases erythropoietin production. 971 78

We have used a transgenic animal model, which constitutively develops hepatocarcinoma (Antithrombin III SV40 T large Antigen: ASV), to study the involvement of Annexin 1 (ANX1) in liver regeneration and malignant transformation. Primary hepatocytes isolated from normal mice did not express ANX1. In contrast, ANX1 was strongly expressed in hepatocytes of transgenic mice during constitutive development of hepatocarcinoma. In ASV transgenic mice, an elevated ANX1 level preceded the appearance of the tumor, indicating that it could be a good marker in the diagnosis of cancer. One-third hepatectomy in normal mice resulted in stimulation of ANX1 synthesis and phosphorylation. This upregulation correlated with increased synthesis of EGF and consequently with increased phosphorylation of the EGF receptor (EGF-R). Stable transfection of a hepatocyte cell line derived from ASV transgenic mice (mhAT2) with antisense complementary DNA for ANX1 reduced the proliferation rate as well as cytosolic phospholipase A(2) (cPLA(2)) activity. Thus, ANX1 expression and phosphorylation could be a factor implicated in liver regeneration and tumorigenesis, either through modulation of cPLA(2) activity or EGF-R function.
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PMID:Annexin 1 expression and phosphorylation are upregulated during liver regeneration and transformation in antithrombin III SV40 T large antigen transgenic mice. 1065 60

We have investigated the effects of arachidonic and palmitic acids in isolated rat liver mitochondria and in rat hepatoma MH1C1 cells. We show that both compounds induce the mitochondrial permeability transition (PT). At variance from palmitic acid, however, arachidonic acid causes a PT at concentrations that do not cause PT-independent depolarization or respiratory inhibition, suggesting a specific effect on the PT pore. When added to intact MH1C1 cells, arachidonic acid but not palmitic acid caused a mitochondrial PT in situ that was accompanied by cytochrome c release and rapidly followed by cell death. All these effects of arachidonic acid could be prevented by cyclosporin A but not by the phospholipase A(2) inhibitor aristolochic acid. In contrast, tumor necrosis factor alpha caused phospholipid hydrolysis, induction of the PT, cytochrome c release, and cell death that could be inhibited by both cyclosporin A and aristolochic acid. These findings suggest that arachidonic acid produced by cytosolic phospholipase A(2) may be a mediator of tumor necrosis factor alpha cytotoxicity in situ through induction of the mitochondrial PT.
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PMID:Arachidonic acid causes cell death through the mitochondrial permeability transition. Implications for tumor necrosis factor-alpha aopototic signaling. 1113 37

In the present study a protocol of in situ reverse transcriptase-nested polymerase chain reaction (in situ RT-nested PCR) was examined based on the following modifications. (i) To exclude false positive signals caused by "DNA repair mechanisms" and "endogenous priming", a two-step PCR was applied after reverse transcription. The first step was performed in the presence of extrinsic primers and unlabeled nucleotides with a maximum of PCR cycles possible without destroying the cell morphology. The second step consisted of only one annealing/elongation reaction, the target sequence marked by addition of digoxigenin-labeled nucleotides and intrinsic primers. (ii) In order to prevent amplifications of genomic DNA nested primer pairs were applied crossing intron sequences. (iii) To minimize the diffusion of PCR products in cells, the extrinsic primers were extended with complementary 5(prime, variant)-tails. This approach results in the generation of high molecular weight concatamers during PCR cycles. By applying this protocol, immunostainings specific for phospholipase A2 of type IIA mRNA were exclusively detectable in the cytoplasm of HepG2 hepatoma cells, which were used as a model system, whereas the nuclei were unstained. Multiple control experiments yielded completely negative results. These data suggest that the in situ RT-nested PCR, which in comparison to the method of in situ RT-PCR-in situ-hybridisation is simpler and less time-consuming, can be used as an alternative approach to identify intracellular nucleic acids.
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PMID:In situ reverse transcriptase-nested polymerase chain reaction to identify intracellular nucleic acids without the necessity of DNAse pretreatment and hybridisation. 1145 34

We have examined the effects of adenosine receptors and protein kinases A and C in the regulation of erythropoietin (Epo) production using hepatocellular carcinoma (Hep3B) cells in culture and in vivo in normal mice under normoxic and hypoxic conditions. CGS-21680, a selective adenosine A(2A) agonist, significantly increased levels of Epo in normoxic Hep3B cell cultures and in serum of normal mice under both normoxic and hypoxic conditions. CGS-21680 also produced a significant increase in Epo mRNA levels in Hep3B cell cultures. SCH-58261, a selective adenosine A(2A) receptor antagonist, significantly inhibited the increase in medium levels of Epo in Hep3B cell cultures exposed to hypoxia (1% O(2)). Enprofylline, a selective adenosine A(2B) receptor antagonist, significantly inhibited the increase in plasma levels of Epo in normal mice exposed to hypoxia. Chelerythrine chloride, an antagonist of protein kinase C activation, significantly inhibited hypoxia-induced increases in serum levels of Epo in normal mice. A model is presented for adenosine in hypoxic regulation of Epo production that involves kinases A and C and phospholipase A(2) pathways.
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PMID:Adenosine A(2A) and A(2B) receptor activation of erythropoietin production. 1159 40

Circulating hormones produce rapid changes in the Cl(-) permeability of liver cells through activation of plasma membrane receptors coupled to heterotrimeric G-proteins. The resulting effects on intracellular pH, membrane potential, and Cl(-) content are important contributors to the overall metabolic response. Consequently, the purpose of these studies was to evaluate the mechanisms responsible for G-protein-mediated changes in membrane Cl(-) permeability using HTC hepatoma cells as a model. Using patch clamp techniques, intracellular dialysis with 0.3 mm guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS) increased membrane conductance from 10 to 260 picosiemens/picofarads due to activation of Ca(2+)-dependent Cl(-) currents that were outwardly rectifying and exhibited slow activation at depolarizing potentials. These effects were mimicked by intracellular AlF(4)(-) (0.03 mm) and inhibited by pertussis toxin (PTX), consistent with current activation through Galpha(i). Studies using defined agonists and inhibitors indicate that Cl(-) channel activation by GTPgammaS occurs through an indomethacin-sensitive pathway involving sequential activation of phospholipase C, mobilization of Ca(2+) from inositol 1,4,5-trisphosphate-sensitive stores, and stimulation of phospholipase A(2) and cyclooxygenase (COX). Accordingly, the conductance responses to GTPgammaS or to intracellular Ca(2+) were inhibited by COX inhibitors. These results indicate that PTX-sensitive G-proteins regulate the Cl(-) permeability of HTC cells through Ca(2+)-dependent stimulation of COX activity. Thus, receptor-mediated activation of Galpha(i) may be essential for hormonal regulation of liver transport and metabolism through COX-dependent opening of a distinct population of plasma membrane Cl(-) channels.
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PMID:Heterotrimeric G-proteins activate Cl- channels through stimulation of a cyclooxygenase-dependent pathway in a model liver cell line. 1181 74

In an effort to understand the role of key eicosanoid-forming enzymes in the activation of peroxisome proliferator-activated receptor (PPAR), this study was designed to evaluate the possible contributions of cytosolic phospholipase A(2) (cPLA(2)) and group IIA secretory phospholipase A(2) (sPLA(2)) in the regulation of PPAR-mediated gene transcription in a human hepatoma cell line (HepG2). The HepG2 cells express both PPAR-alpha and -gamma but not PPAR-beta. Overexpression of cPLA(2), but not group IIA sPLA(2) in the HepG2 cells, caused a significantly increased PPAR-alpha/gamma-mediated reporter activity. Antisense inhibition of cPLA(2) resulted in a significantly decreased PPAR-alpha/gamma activity. The PPAR-alpha/gamma-induced gene transcription in the HepG2 cells was inhibited by the cPLA(2) inhibitors methyl arachidonyl fluorophosphonate and arachidonyltrifluoromethyl ketone, but not by the sPLA(2) inhibitor LY311727. The expression of PPAR-alpha-mediated endogenous gene apolipoprotein A-II was increased in cells with overexpression of cPLA(2), decreased in cells with antisense inhibition of cPLA(2), but unaltered in cells with overexpression of group IIA sPLA(2). The above results demonstrated an important role of cPLA(2), but not group IIA sPLA(2) in the control of PPAR activation. The cPLA(2)-mediated PPAR activation was likely mediated by arachidonic acid and prostaglandin E(2). This study reveals a novel intracellular function of cPLA(2) in PPAR activation in HepG2 cells. The cPLA(2) thus may represent a potential therapeutic target for the control of PPAR-related liver and metabolic disorders such as obesity, lipid metabolic disorders, diabetes mellitus, and atherosclerosis.
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PMID:85-kDa cPLA(2) plays a critical role in PPAR-mediated gene transcription in human hepatoma cells. 1189 17

Cyclooxgenase (COX) and phospholipase A(2) (PLA(2)) are crucial rate-limiting enzymes involved in the conversion of arachidonic acid to prostaglandin H(2), the precursor of various compounds including prostaglandins (PGs), prostacyclin, and thromboxanes in the process of PGs' synthesis. Recent studies have shown increased levels of COX(2) in adjacent cirrhotic tissue of hepatocellular carcinoma. The relationship between the expression of COX(2) or cytosolicPLA(2) (cPLA(2)) and liver fibrosis has not been described previously. We used 45 formalin-fixed, paraffin-embedded liver tissue samples obtained by needle biopsies from patients with chronic hepatitis, consisting of 7 cases of F(0), 10 cases of F(1), 10 cases of F(2), 9 cases of F(3) and 9 cases of liver cirrhosis (LC) according to the New Inuyama Classification of the staging of liver fibrosis. The expression of COX(2) and cPLA(2) was investigated by immunohistochemistry, western blotting and image analysis. The positive signals for COX(2) and cPLA(2) were observed in the cytoplasm of hepatocytes. The signal intensity of COX(2) increased significantly with the progression of liver fibrosis (P<0.001) and no significant difference was observed in the relative amount of cPLA(2) from group F(0) to group LC. According to the New Inuyama Classification of hepatitis activity grading, 45 samples were classified as group A(1) (23 cases), group A(2) (19 cases) and group A(3) (3 cases). No significant differences were found in the relative amount of COX(2) and cPLA(2) between group A(1) and group A(2-3). Significant correlation was observed between the relative amount of COX(2) and hyaluronan (P<0.01). Our findings suggested that COX(2) may be involved in liver fibrogenesis.
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PMID:Expression of cyclooxygenase 2 and cytosolic phospholipase A(2) in the liver tissue of patients with chronic hepatitis and liver cirrhosis. 1207 14

Glucose depletion results in cellular stress and reactive oxygen species (ROS) production, which evokes adaptive and protective responses. One such protective response is the induction of haem oxygenase 1 (HO-1), which catalyses the rate-limiting step in haem degradation, liberating iron, CO and biliverdin. The present study evaluated the role of ROS and the mitochondrial electron-transport chain in the induction of HO-1 by glucose deprivation in HepG2 hepatoma cells. Either N-acetylcysteine, an antioxidant, or deferoxamine, an iron chelator, resulted in a dose-dependent inhibition of HO-1 mRNA and protein induction during glucose deprivation, suggesting a redox- and iron-dependent mechanism. Inhibitors of electron-transport chain complex III, antimycin A and myxothiazol, the ATP synthase inhibitor oligomycin and ATP depletion with 2-deoxyglucose or glucosamine also blocked HO-1 induction. To address the involvement of ROS further, specifically H(2)O(2), we showed that overexpression of catalase completely blocked HO-1 activation by glucose deprivation. In contrast, inhibition of nuclear factor kappa B, mitogen-activated protein kinase (MAPK), protein kinase A, protein kinase C, phosphoinositide 3-kinase, cyclo-oxygenase or cytosolic phospholipase A(2), did not prevent HO-1 induction. These results demonstrate that activation of the HO-1 gene by glucose deprivation is mediated by a 'glucose metabolic response' pathway via generation of ROS and that the pathway requires a functional electron-transport chain.
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PMID:Haem oxygenase 1 gene induction by glucose deprivation is mediated by reactive oxygen species via the mitochondrial electron-transport chain. 1258 63

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