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)

Raised plasma levels of fibrinogen, factor VIIc, and plasminogen activator inhibitor-1 (PAI-1) are associated with an increased risk of ischemic heart disease. Levels of these proteins are determined in part by environmental influences such as smoking and dietary fat intake. However, genetic variation explains much of the interindividual variation in plasma levels of these proteins not accounted for by environmental factors. We previously investigated the DNA variation at the fibrinogen gene locus and showed that BclI restriction fragment length polymorphism (RFLP) of the beta-fibrinogen gene is associated with between-person differences in plasma fibrinogen levels. This RFLP is unlikely to be the functional base change itself, since it lies downstream of the gene. The rate-limiting step in the production of the mature fibrinogen molecule in the human hepatoma cell-line HepG2 is the synthesis of the beta-polypeptide chain, which in turn is influenced by the amount of messenger (mRNA) available. One possibility is that BclI RFLP is in linkage disequilibrium with a base change in the region of the beta-gene controlling synthesis of its mRNA and ultimately of fibrinogen protein. We identified a base change in the 5'-flanking region of the beta-fibrinogen gene that is in linkage disequilibrium with the BclI RFLP, that is associated with plasma fibrinogen levels, and that may be involved in control of fibrinogen gene expression. For the factor VII gene, we identified a polymorphism, detected after Msp I digestion of polymerase chain reaction (PCR)-amplified genomic DNA, that is strongly associated with factor VII coagulant activity (factor VIIc). The base change that creates the Msp I polymorphism is a G to A substitution, leading to the replacement of arginine (Arg) with glutamine (Gln) in the protein product of the M2 allele. In a sample of 284 men from the United Kingdom the frequency of the Gln allele (M2 loss of cutting site) is 0.1, and individuals of genotype Arg/Gln have factor VIIc levels 22% below the sample mean. In this sample, the Msp I genotype was found to be the strongest predictor of factor VIIc, accounting for 20.2% of the variance, with cholesterol accounting for an additional 3.5%. Three individuals homozygous for the Gln allele had both low factor VIIc and low factor VII protein concentrations. The conformation of the factor VII Gln may be different from that of the Arg protein, affecting its intracellular processing, secretion, turnover in plasma, or activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Genetic factors determining thrombosis and fibrinolysis. 134 88

The regulation of acetyl-CoA carboxylase (ACC) by glucose and other fuel molecules has been examined in Fao Reuber hepatoma cells and Syrian hamster insulin tumor (HIT) cells in order to determine whether lipogenic substrates acutely alter ACC activity and to examine the mechanism of such regulation. In Fao cells, preincubated in simple medium without substrates, glucose addition results in a rapid activation of ACC. This effect, mimicked by other fuels such as lactate, is characterized by an increase in enzyme Vmax and a decrease in the activation constant for citrate. Several lines of evidence indicate that this activation of ACC is due to enzyme dephosphorylation, including the kinetic changes observed, the persistence of enzyme activation through ACC isolation, the necessity of inclusion of sodium fluoride/EDTA in the cell lysis buffer for preservation of the glucose-induced change, and the direct demonstration of diminished 32P-labeling of ACC after glucose exposure. Identical effects of glucose are also observed in HIT cells, although the ACC activation is smaller in magnitude and less sensitive than that observed in Fao cells. Other insulin secretagogues such as glutamine, lactate, and isobutylmethylxanthine are also found to activate HIT ACC. Others have suggested that glucose-induced changes in malonyl-CoA in beta-cells may be linked to glucose-induced insulin secretion. However, studies conducted in late passage HIT cells, which fail to secrete insulin in response to glucose stimulation, reveal the same glucose-induced activation seen in early passages, secretion-competent HIT cells, suggesting that glucose-induced ACC activation is not by itself sufficient to provoke insulin secretion. Taken together, these findings indicate that glucose and other fuel molecules can play a major role in the rapid regulation of the fatty acid synthesis pathway. The activation of fatty acid synthesis by substrate-induced ACC dephosphorylation insures ultimate fuel storage of glucose-derived carbon as fatty acid, while substrate-induced increases in the ACC product, malonyl CoA, would serve to simultaneously limit the rate of fatty acid oxidation through its allosteric regulation of carnitine palmitoyltransferase I.
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PMID:Glucose regulation of acetyl-CoA carboxylase in hepatoma and islet cells. 134 95

Glutamine synthetase and glutaminase activities in human cirrhotic liver tissues and hepatocellular carcinomas were determined for comparison with normal liver tissues. In hepatocellular carcinoma, glutamine synthetase activity was approximately one-third of that in normal liver, whereas no detectable change in the enzyme activity was observed in cirrhotic liver. Phosphate-dependent and phosphate-independent glutaminase activities were increased approximately 20-fold and 6-fold, respectively, both in the carcinoma and cirrhotic liver compared with those from normal liver, Oxypolarographic tests showed that the rate of glutamine oxidation in the tumor and cirrhotic liver mitochondria was about 5-fold higher than that in the liver mitochondria. The rate of glutamate oxidation in the liver mitochondria was comparable to that in the cirrhotic liver and tumor mitochondria. Glutamine oxidation was inhibited by prior incubation of the mitochondria with 6-diazo-5-oxo-L-norleucine, which inhibited mitochondrial glutaminase. These results indicate that the product of glutamine hydrolysis, glutamate, is catabolized in the tumor and cirrhotic liver mitochondria to supply ATP. In the liver and cirrhotic liver mitochondria, glutamate was oxidized via the routes of transamination and deamination. On the other hand, glutamate oxidation was initiated preferentially via a transamination pathway in the tumor mitochondria.
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PMID:Glutaminase and glutamine synthetase activities in human cirrhotic liver and hepatocellular carcinoma. 134 87

The cloned transcription factor hepatocyte nuclear factor 1 (HNF1) transactivates transcription from the hepatitis B virus (HBV) large surface antigen promoter but does not influence the transcriptional activities of the other three HBV promoters. This indicates that this transcription factor can differentially influence the activities of the HBV promoter. By using a transient-transfection system, the major domain of the HNF1 polypeptide involved in transcriptional activation of the large surface antigen promoter in the human hepatoma cell line HepG2.1 has been mapped to a region that is rich in glutamine and proline residues (9 of 18) and is different from the previously identified regions of this factor responsible for in vitro transcriptional activation of a promoter containing human albumin promoter HNF1 binding sites. The human albumin promoter HNF1 binding site mediates transcriptional activation through the same HNF1 polypeptide domain as the HBV large surface antigen promoter HNF1 binding site in transient-transfection assays with HepG2.1 cells, suggesting that HNF1 may possess multiple transcriptional activation domains.
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PMID:Promoter-specific transactivation of hepatitis B virus transcription by a glutamine- and proline-rich domain of hepatocyte nuclear factor 1. 165 70

Well-coupled mitochondria were isolated from a HuH13 line of human hepatoma cells and human liver tissue. The liver mitochondria showed a feeble glutamine oxidation activity in contrast to the hepatoma mitochondria, whereas they utilized glutamate well for the oxidative phosphorylation. In the liver mitochondria, glutamate was oxidized via the routes of transamination and deamination. On the other hand, glutamate oxidation was initiated preferentially via transamination pathway in the tumor mitochondria. In the liver mitochondria, bicarbonate nearly at a physiological concentration inhibited oxygen uptake with glutamate as substrate. The interaction of bicarbonate with the pathway of glutamate oxidation occurred primarily at the level of succinate dehydrogenase, due to competitive inhibition of the enzyme by the compound. In contrast to the liver mitochondria, glutamate oxidation was not affected by bicarbonate in the tumor mitochondria. These results indicate that the aberrations in the glutamate metabolism and its regulation observed in the hepatoma mitochondria may be favorable to the respiration utilizing glutamine and/or glutamate as an energy source.
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PMID:Pathway of glutamate oxidation and its regulation in the HuH13 line of human hepatoma cells. 167 60

gamma-Glutamyl hydrolase (also known as conjugase) is a ubiquitous enzyme that has the capacity to cleave folyl- and antifolylpolyglutamates. This study has revealed that the enzyme is secreted by primary cultures of rat hepatocytes and by H35 hepatoma cells. H35 cells have lower cellular levels of gamma-glutamyl hydrolase than do hepatocytes but secrete a greater proportion of gamma-glutamyl hydrolase. More than 99% of the total enzyme from H35 cells accumulated in the medium after 48 h. The cells were shown to remain intact during the secretion period since lactate dehydrogenase, dihydrofolate reductase, and lysosomal hydrolases other than gamma-glutamyl hydrolase were retained within the cell. Using the substrate 4-amino-10-methyl-pteroyldiglutamate (4-NH2-10-CH3-Pte-Glu2), the intracellular and secreted enzyme form(s) from H35 cells were found to have the following properties (a) Km values of 24.3 +/- 3.7 microM and 34.8 +/- 8.6 microM, respectively, and (b) maximal activity at pH 5 to 7 and apparent molecular weights of 120,000 by gel filtration. Both the cellular and secreted enzymes convert 4-NH2-10-CH3-PteGlu4 and pteroylpentaglutamate acid, to the corresponding monoglutamates with little or no appearance of intermediate chain length polyglutamates. This suggests that both act primarily as endopeptidases. Thus far, the cellular and secreted enzymes cannot be differentiated although the current studies do not establish this point unequivocally. Alterations in the cellular and secreted H35 cell gamma-glutamyl hydrolase levels in response to changes in culture conditions revealed that glutamine enhances activity while insulin diminishes it. Other transformed cells found to secrete this protein are Hep-G2 human hepatoma, JAR human choriocarcinoma, HeLa, and rat glioma. gamma-Glutamyl hydrolase could not be detected in medium conditioned by human MCF-7 breast cancer cells, and relatively low activities were found in the medium from CCRF-CEM or K562 leukemia cells. These studies directly establish for the first time the secretion of gamma-glutamyl hydrolase in vitro.
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PMID:Secretion of gamma-glutamyl hydrolase in vitro. 171 22

After screening different human hepatoma cell lines, we observed that both HepG2 and PLC/PRF/5 naturally produced large amounts of gamma-glutamyltransferase. We optimized HepG2 cell culture conditions and observed that higher cell densities were obtained when cells were cultured on microcarriers, particularly when Cytodex 3 was used and that cell growth was optimal when DMEM, the basic medium, was supplemented with 5% fetal calf serum and 6 mmol/l glutamine. These culture conditions allowed us to produce the highest amounts of GGT after about 150 h of culture. The GGT obtained from HepG2 cells was partially purified and some of its physico-chemical properties characterized. Successive Con A gel chromatography separated the activity into two peaks, suggesting that GGT from HepG2 is not uniformly glycosylated. Papain-treated HepG2 GGT showed a Mr of about 120 kDa and migrated as a single-chain protein in SDS-PAGE. Immunological and kinetic properties of the GGT were similar to other human GGTs (liver, kidney and serum). It appears that HepG2 GGT could be a source for the preparation of a human enzyme reference material.
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PMID:Gamma-glutamyltransferase from human hepatoma cell lines: purification and cell culture of HepG2 on microcarriers. 197 62

Parallel investigations of the transamination pathways of glutamine oxidation in Ehrlich ascites carcinoma (EAC) and AS 30D hepatoma revealed that hepatoma cells, unlike EAC, produce very little aspartate. This cannot be explained by differences in the activity of glutamine-metabolizing enzymes. Also, the mitochondria from the hepatoma respired at a similar rate to EAC mitochondria with glutamine as sole substrate producing substantial amounts of aspartate. Unlike their isolated mitochondria, intact hepatoma cells showed a very low rate of glutamine oxidation. Compared with EAC, the rate of L-[U-14C]glutamine consumption by AS 30D hepatoma cells was much lower, with insignificant production of 14C-labelled aspartate and CO2. This suggested that the glutamine-transporting system in the hepatoma cell plasma membrane had a very low activity. Isolated hepatoma mitochondria produced 3 times more pyruvate from malate than did EAC mitochondria, indicating a higher activity of NAD(P)-dependent malic enzyme. We postulate that an active malic enzyme may suppress the synthesis of aspartate in hepatoma cells, but further evidence is needed to confirm this assumption.
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PMID:Control and function of the transamination pathways of glutamine oxidation in tumour cells. 199 Oct 25

A comparative study revealed that Ehrlich ascites carcinoma (EAC) cells use glutamine plus inosine for regeneration of adenylates via the purine nucleotide cycle, whereas AS 30D hepatoma cells use adenosine instead. This observation can be correlated with the very low production of aspartate from glutamine in hepatoma cells. Although glucose is an important energy fuel for EAC, it cannot maintain a high enough level of adenylates unless glutamine is also present. Kinetic analysis of hydrolysis of ATP and ADP in the presence of rotenone suggests that deamination of AMP does not maintain a high enough ATP/ADP ratio and probably does not act as energy buffer after inhibition of cell respiration. It seems that, compared with normal cells, malignant cells have the ability for a very rapid regeneration of adenylates. It is proposed that instability of the adenine nucleotide pool, owing to frequent aerobic-anaerobic transitions, represents an essential feature of neoplasia, with profound impact on the whole metabolism of tumour cells.
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PMID:Mechanism and control of degradation and resynthesis of adenylates in tumour cells. 199 Oct 26

Starting from the assumption that tumor cells constantly experience transient ischemia and anoxia, and that this results in metabolic stress which is reflected above all, on the concentration of ATP, ADP and AMP, in other words, the adenine nucleotide pool (AdN), the aim of our research was to study the degradation and resynthesis kinetics of that pool on two types of malignant cells. All experiments were conducted in vitro with cells of the transplantable tumors of Ehrlich's ascitic carcinoma and the AS 30D hepatoma, and metabolite analyses were carried out enzymatically or by way of the HPLC chromatography method. It was found that immediately after the setting on of anoxia, there comes not only to a fall in ATP, but also to a fall in the complete adenine nucleotide pool for about 50%. The further maintenance of anaerobiosis does not have a significant influence on the AdN pool. The adenine nucleotide pool resynthesis is very rapid in the examined cells, and in the presence of glutamine and inosine, there comes to an occurrence of its significant growth. Evidence is given that the resynthesis in Ehrlich's ascitic carcinoma cells is made possible through the purine nucleotide cycle, which probably brings about the intensive glutamine oxidation and aspartate production, while in the AS 30D hepatoma cells it develops by means of adenosine kinase. The AS 30D hepatoma cells maintain a high ATP level in the absence of oxygen for a long time, provided that iodine-acetate is not added, which points to the fact that they have some other kind of energetic reserve aside from ATP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Kinetics of degradation and resynthesis of the adenine-nucleotide pool in tumor cells]. 209 81

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