Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Reuber hepatoma cells are useful cultured lines for the study of insulin action, lipid and lipoprotein metabolism, and the regulation of acetyl-CoA carboxylase (ACC), the rate-limiting enzyme of fatty acid biosynthesis. During investigations in different clonal lines of these cells, we have uncovered marked intercellular variability in the activity, enzyme content, and insulin regulation of ACC paralleled by differences in cellular neutral lipid (triglyceride) content. Two contrasting clonal lines, Fao and H356A-1, have been studied in detail. Several features distinguish these two lines, including differences in ACC activity and enzyme kinetics, the content of the two major hepatic ACC isozymes (Mr 280,000 and 265,000 Da) and their heteroisozymic complex, the extent of ACC phosphorylation, and the ability of ACC to be activated on stimulation by insulin and insulinomimetic agonists. As studied by Nile Red staining and fluorescence-activated cell sorting, these two lines also display marked differences in neutral lipid content, which correlates with both basal levels of ACC activity and inhibition of ACC by the fatty acid analog, 5-(tetradecyloxy)-2-furoic acid (TOFA). These results emphasize the importance of characterization of any particular clonal line of Reuber cells for studies of enzyme regulation, substrate metabolism, and hormone action. With respect to ACC, studies in contrasting clonal lines of Reuber cells could provide valuable clues to understanding both the complex mechanisms of intracellular ACC regulation in the absence and presence of hormones and its regulatory role(s) in overall hepatic lipid metabolism.
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PMID:Acetyl-CoA carboxylase in Reuber hepatoma cells: variation in enzyme activity, insulin regulation, and cellular lipid content. 134 93

In the present study the relationship between changes in tyrosine aminotransferase (TAT) enzyme activity, cytoplasmic mRNA levels, and gene transcription in response to both short- and long-term exposure to insulin was investigated. Insulin acutely inhibited transcription of the TAT gene by 50% in serum-deprived rat H4 hepatoma cells. Following this initial 50% decrease in transcription, there was a 2.5-fold induction in TAT activity that could not be accounted for by a concomitant increase in TAT mRNA levels. Insulin had no effect on the half-life of TAT mRNA. Insulin exposure for short periods of time also inhibited the glucocorticoid- and cAMP-induced transcription of the TAT gene. Like insulin, protein synthesis inhibitors acutely inhibited basal and glucocorticoid-induced TAT transcription. TAT activity gradually returned toward basal levels after 8 h of insulin treatment. A second insulin-induced increase in TAT activity (3.5-fold above basal levels) was observed by 24 h of insulin treatment. This second phase of insulin-induced TAT activity was associated with elevated levels of TAT transcription and TAT mRNA levels, and therefore, unlike the earlier stimulation, could be accounted for by changes in gene expression. Thus, the insulin-mediated regulation of the TAT gene in H4 cells is complex. Different transcriptional and post-transcriptional mechanisms are likely to be involved in the biphasic responses to insulin.
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PMID:Short- and long-term effects of insulin on tyrosine aminotransferase gene expression. 135 58

This work describes the molecular mechanism of hormonal modulation of fatty-acid peroxisomal beta oxidation in liver. Morris 7800C1 hepatoma cells and isolated hepatocytes were cultured in the presence of myristic acid (1 mM) and tetradecylthioacetic acid, a 3-thia fatty acid (50 microM), separately or in combination with dexamethasone (0.25 microM) or insulin (0.4 microM). Myristic acid stimulated acyl-CoA oxidase and a synergistic action was observed with dexamethasone. Parallel changes were recognized in enzyme protein and mRNA levels as quantified from immunoblots and Northern analyses. Myristic acid and tetradecylthioacetic acid had similar effects on this enzyme, while insulin inhibited the basal activity and blocked all inductions by the fatty acids and dexamethasone. Parallel mRNA and immunoblot analyses of the subsequent enzymes in the peroxisomal beta-oxidation pathway, enoyl-CoA hydratase/3-hydroxyacyl-CoA dehydrogenase/delta 3,delta 2-enoyl-CoA isomerase and 3-oxoacyl-CoA thiolase, showed an even stronger induction by tetradecylthioacetic acid and dexamethasone, while the counteraction by insulin was maintained in both 7800C1 hepatoma cells and hepatocytes. In hepatoma cells, the thiolase always showed the most pronounced induction (about 40-fold) after 14 days, with parallel changes in protein and mRNA levels. The results suggest that the changes in peroxisomal beta-oxidation enzymes in 7800C1 hepatoma cells are due to a major effect on steady-state mRNA levels giving rise to corresponding alterations in enzyme protein. These results may be explained by regulation at the level of transcription of corresponding genes, but mRNA stability changes and/or translational effects may also be of importance.
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PMID:Induction of the three peroxisomal beta-oxidation enzymes is synergistically regulated by dexamethasone and fatty acids, and counteracted by insulin in Morris 7800C1 hepatoma cells in culture. 135 67

Insulin-mediated regulation of glucocorticoid-induced expression of the liver-specific gene tyrosine aminotransferase was studied in a clone of the Reuber rat hepatoma cells. Insulin inhibited dexamethasone-induced chloramphenicol acetyltransferase expression from approximately 4 kb of TAT 5' flanking sequence. The degree of this inhibition was comparable to the response of the endogenous gene. A construct of approximately 3 kbp of 5' flanking sequence exhibited no significant basal expression but retained sensitivity to glucocorticoids and to insulin inhibition of the glucocorticoid response. Results of further analysis of the insulin response in deletion constructs and constructs containing glucocorticoid responsive elements ligated to a heterologous promoter suggest that in addition to the glucocorticoid response elements a region close to the start site in the TAT promoter is necessary for insulin to inhibit glucocorticoid-mediated induction of expression.
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PMID:Insulin-mediated inhibition of the induction of tyrosine aminotransferase by dexamethasone. 135 29

To evaluate the disease association with HLA-DR 3/4 heterozygotes, 1,074 subjects, who had been analyzed consecutively for HLA-DR antigens for organ transplantation or to study the disease association with HLA from June 1984 to June 1986, were enrolled in this study. Of these subjects, 278 had diabetes, 168 were healthy controls or donors, and 628 had other diseases. Of the 1,074 subjects, 35 subjects (3.2%) were DR 3/4 heterozygotes and 1,039 subjects (96.7%) were non-DR 3/4 heterozygotes. Among the 35 DR 3/4 positive subjects, 23 were diabetic (65.7%), two were healthy donors (5.7%), 10 had other diseases (28.5%) such as recurrent abortion (n = 3), hepatoma (n = 2), Graves' disease (n = 1), idiopathic hypoparathyroidism (n = 1), IgA nephropathy (n = 1), uveitis (n = 1) and gout (n = 1). Among the 23 DR 3/4 positive diabetics, 19 (82.6%) had insulin-dependent diabetes mellitus (IDDM), three (13.0%) had non-insulin-dependent diabetes mellitus (NIDDM), and one (4.3%) had maturity onset diabetes of the young (MODY). When these DR 3/4 positive diabetics were compared with the other disease and control/donor groups, significant increases in the relative risk were seen for IDDM patients (RR = 32.61, 43.80, respectively, p < 0.001). No significant association could be seen for NIDDM and MODY patients. In those non-diabetic patients positive for DR 3/4, there was no significant association with DR 3/4 heterozygotes. These findings suggest that: 1) DR 3/4 positive subjects are highly associated with IDDM; and 2) there is no significant association of DR 3/4 with NIDDM, MODY and other non-diabetic diseases.
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PMID:Assessment of the association of HLA-DR 3/4 heterozygotes with diabetes mellitus and non-diabetic diseases. 136 26

125I-IGF-I binding assay, western ligand and immunoblotting, and northern analysis of total RNA reveal that phorbol ester agonists of protein kinase C rapidly enhance IGFBP-1 production and increase the abundance of IGFBP-1 mRNA in rat H4IIE hepatoma cells. In combination with insulin, a potent inhibitor of IGFBP-1 gene transcription, this early effect of phorbol esters is dominant. These results demonstrate divergent regulation of IGFBP-1 by phorbol esters and insulin and indicate that protein kinase C may play a critical role in the regulation of IGFBP-1 and modulation IGF bioactivity in metabolic disease.
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PMID:Divergent effects of phorbol esters and insulin on insulin-like growth factor binding protein-1 (IGFBP-1) production and mRNA in rat H4IIE hepatoma cells. 137 Jun 14

Incubation of isolated hepatocytes from fasted rats with 20 mM LiCl for 1 h decreased glucose production from lactate, pyruvate, and alanine. In addition, phosphoenolpyruvate carboxykinase (PEPCK) gene expression in FTO-2B rat hepatoma cells was inhibited by treatment with LiCl. Lithium was also able to counteract the increased PEPCK mRNA levels caused by both Bt2cAMP and dexamethasone, in a concentration-dependent manner. A chimeric gene containing the PEPCK promoter (-550 to +73) linked to the amino-3-glycosyl phosphotransferase (neo) structural gene was transduced into FTO-2B cells using a Moloney murine leukemia virus-based retrovirus. In these infected cells, 20 mM LiCl decreased both the concentration of neo mRNA transcribed from the PEPCK-neo chimeric gene and mRNA from the endogenous PEPCK gene. Lithium also inhibited the stimulatory effect of Bt2cAMP and dexamethasone on both genes. The stability of neo mRNA was not altered by lithium, since in cells infected with retrovirus containing only the neo gene transcribed via the retroviral 5'-LTR and treated with 20 mM LiCl, no change in neo mRNA levels was observed. The intraperitoneal administration of LiCl to rats caused a decrease in hepatic PEPCK mRNA, indicating that lithium could also modify gene expression in vivo. The effects of lithium were not due to an increase in the concentration of insulin in the blood but were correlated with an increase in hepatic glycogen and fructose 2,6-bisphosphate levels. These results indicate that lithium ions, at concentrations normally used therapeutically for depression in humans, can inhibit glucose synthesis in the liver by a mechanism which can selectively modify the expression of hepatic phosphoenolpyruvate carboxykinase.
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PMID:Lithium inhibits hepatic gluconeogenesis and phosphoenolpyruvate carboxykinase gene expression. 137 Nov 8

Several endocrine hormones which influence liver metabolism are known to increase in activity during the acute phase of injury or inflammation. We determined whether these hormones have the potential to influence acute-phase protein production in human and rat hepatoma cells. Catecholamines, glucagon, growth hormone, triiodothyronine, and cyclic nucleotides individually or in combination did not modulate the basal or the interleukin-1 (IL-1)-, IL-6-, and dexamethasone-stimulated levels of acute-phase plasma proteins. Insulin, however, was found to be a rapid, nonspecific, and dose-dependent inhibitor of the cytokine and glucocorticoid stimulation of acute-phase protein gene expression and to exert its effect at the transcriptional level. The insulin inhibition applied to all cytokines tested but to various degrees, depending upon the particular acute-phase gene. Insulin resulted in an early and prominent increase in the transcription of genes encoding the AP-1 components of JunA, JunB, and c-Fos, as has been observed for other growth factors. However, the effect of insulin on C/EBP beta was unexpected and paradoxical: while insulin completely inhibited the transcriptional activation of the C/EBP beta gene in cytokine- and dexamethasone-treated cells, the level of cytoplasmic C/EBP beta RNA was elevated. Quantitation of C/EBP beta mRNA by Northern (RNA) blot analysis and of C/EBP beta DNA binding activity by Southwestern (DNA-protein) blot analysis showed that insulin, when combined with cytokines and dexamethasone, stimulated both the mRNA and DNA binding activity by a factor of 1.6 compared with that of cells treated with cytokines and dexamethasone alone. Transient transfection of H-35 and HepG2 cells with a chloramphenicol acetyltransferase (CAT) gene expression vector containing the C/EBP beta response element also resulted in a 1.5-fold increase of C/EBP beta-mediated transcription in insulin-treated cells. Transfection of CAT gene constructs containing increasing lengths of heptaglobin gene 5' flanking sequences indicated that insulin inhibition of IL-6 stimulation required the presence of the region from -4100 to -1030. These results suggest that insulin has the potential to control the transcription of acute-phase genes by at least two separate mechanisms.
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PMID:Insulin is a prominent modulator of the cytokine-stimulated expression of acute-phase plasma protein genes. 137 89

To understand specific mechanisms involved in the regulation of insulin-like growth factor binding protein-1 (IGFBP-1), an important modulator of IGF bioactivity, we cloned the rat IGFBP-1 gene and sequenced a 1.5 kb Sph1-Sph1 fragment containing 1110 bases upstream from the translation start site. Computer analysis reveals the presence of ATA, CACCC, and CCAAT elements, and putative homeodomain, AP-1, insulin and glucocorticoid response elements in the 5' promoter. Primer extension and ribonuclease protection studies reveal a single cap site in RNA from rat hepatoma cells and both control and diabetic rat liver.
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PMID:Cloning of the rat insulin-like growth factor binding protein-1 gene and analysis of its 5' promoter region. 137 73

Insulin-like growth factor binding protein-1 (IGFBP-1) is a liver-derived protein that modulates the mitogenic actions of the insulin-like growth factors (IGFs). IGFBP-1 production is potently inhibited by insulin both in vivo and in HepG2 human hepatoma cells. To further define the pathways of IGFBP-1 regulation, we studied the effects of modulators of protein kinase-C (PKC) on HepG2 cell IGFBP-1 production. Phorbol 12-myristate 13-acetate (PMA) stimulated IGFBP-1 production in a time- and dose-dependent manner, with maximal stimulation occurring at 10-100 nmol/L. The degree of stimulation was dependent on cell density, ranging from about 2-fold in confluent to more than 10-fold in sparse cultures. Preincubation with PMA abolished the inhibitory effect of insulin, while preincubation with insulin did not inhibit PMA stimulation. The transient PKC activator diC8 had no effect, while studies with the PKC inhibitors sphinganine and H-7 were limited by solvent vehicle cytotoxicity. Staurosporine (STS), a potent PKC inhibitor, stimulated IGFBP-1 production 2- to 4-fold and augmented the stimulatory effect of PMA. Concanavalin-A, an inhibitor of PMA-stimulated PKC translocation and down-regulation, inhibited the effects of PMA and STS. Our findings indicate that PKC is involved in the regulation of hepatic IGFBP-1 production. The effects of PMA, which causes rapid activation, followed by membrane translocation and down-regulation of PKC, are similar to those of STS and are countered by Concanavalin-A. These data suggest that PKC activity may mediate tonic inhibition of IGFBP-1 production, while PKC downregulation stimulates the production of this regulatory protein.
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PMID:Role of protein kinase-C in regulation of insulin-like growth factor-binding protein-1 production by HepG2 cells. 137 55


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