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)

The activity of delta9 desaturase was determined in the microsomal fraction of normal mouse liver and hepatoma SS1K in the presence of the 105,000 x g supernatant. Neither hepatic nor hepatoma soluble fractions were able to modify the low desaturating capacity. Two enzymes from the microsomal electron transport chain associated with delta9 desaturase, namely NADH-cytochrom b5 reductase and NADH-cytochrom C reductase were also measured. The results indicate that the low delta9 desaturase activity in hepatoma SS1K could be related to the reduced amount of desaturase.
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PMID:delta9 Desaturase activity in normal mouse liver and hepatoma SS1K. 20 43

A Met-tRNAf binding factor (IF-2) from the microsomal fraction of rat liver and rat hepatoma ascites cells was partially purified by ammonium sulphate fractionation, DEAE-cellulose and phosphocellulose chromatography. The factor binds [3H]Met-tRNAf only in the presence of either GTP or GMPPCP. Maximal binding takes place at 37 degrees C and in the absence of Mg++. The factor is specific for Met-tRNAf and does not bind Phe-tRNA from rat liver or from E. coli. The ternary complex [Met-tRNAf . IF-2 . GTP1 binds to 40 S ribosomal subunits from rat liver in the absence of mRNA or poly(A, G, U) without GTP hydrolysis. GDP as well as aurintricarboxylic acid inhibit the ternary complex formation. Both factors are rapidly inactivated by N-ethylmaleimide treatment and by preincubation at 45 degrees C. Heat inactivation is partially prevented by GTP and GDP. With regard to the functional properties there are no significant differences between IF-2 from normal liver and hepatoma cells. On the other hand heat denaturation compared to the rat liver factor, which may be due to differences in contaminating proteins.
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PMID:Preparation and properties of a Met-tRNAf binding factor from rat liver and rat hepatoma. 21 43

Possible mechanisms whereby alcohol abuse and alcohol-related diseases may promote the development of cancer are analyzed. The mechanisms discussed include: (a) contact-related local effects on the upper gastrointestinal tract; (b) the presence of low levels of carcinogens in alcoholic beverages; (c) induction of microsomal enzymes involved in carcinogen metabolism; (d) various types of cellular injury produced by ethanol and its metabolites and their relationship to cancer, particularly in the liver; (e) the nutritional disturbances frequently associated with alcohol abuse. The relationship between alcohol-induced cirrhosis and hepatocellular carcinoma is also discussed, and case histories of patients seen at the Bronx Veterans Administration Medical Center with hepatocellular carcinoma in the absence of cirrhosis are reviewed. Data are presented demonstrating the induction, by chronic ethanol consumption, of microsomal enzymes which convert procarcinogens to carcinogens. These data were derived from experiments in which the ability of microsomes isolated from liver, intestine, and lung tissues of ethanol-fed and control rats to activate several test carcinogens was examined in the Ames Salmonella-mutagenicity test. The hypothesis is presented that ethanol-mediated induction of enzyme systems which activate procarcinogens to carcinogens in various tissues contributes to the enhanced incidence of cancer in the alcoholic.
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PMID:Alcohol-related diseases and carcinogenesis. 22 Nov 10

Sera of 173 patients with various forms of liver disease along with serum precipitates produced by polyethylene glycol were screened for the presence of a microsomal antigen referred to as ubiquitous tissue antigen (UTA) and its antibody by double diffusion precipitation in agarose gel. UTA was detected in 7 or 26 patients with chronic active hepatitis, 1 of 5 with alcoholic hepatitis, 2 of 14 with alcoholic cirrhosis and 18 of 98 with hepatoma. Antibodies to UTA were found only in 2 patients with chronic active hepatitis, 1 with alcoholic cirrhosis and 1 with hepatoma. No UTA or its antibody were noted in sera of 5 patients with alcoholic fatty liver, 10 patients with hepatitis B, and 15 asymptomatic carriers of HBsAg. Positivity for the UTA or its antibody was restricted to severe, chronic cases irrespective of diagnosis, indicating that persistent tissue destruction might be necessary for antigen release or antibody formation.
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PMID:Detection of a microsomal antigen and its antibody in human liver diseases. 22 26

In order to study the lipid dependence of glucose-6-phosphatase the lipid composition of microsomes from rat liver and hepatoma was modified using lipid exchange proteins. It was shown that the enzyme activity depends on the presence of phosphatidyl ethanolamine and phosphatidyl serine, but is unaffected by the enrichment of the microsomes with phosphatidyl choline. On the basis of the data obtained it was assumed that the aminophospholipids are required for the functioning of the protein carrier; however, they do not affect the activity of the catalytic component of the glucose-6-phosphatase system on the inner surface of the microsomal membrane.
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PMID:[Study of lipid dependence of glucose-6-phosphatase from rat liver and hepatoma using lipid exchange proteins]. 22 70

Injection of 3,4-benz(a)pyrene, methyl nitrosourea and phenobarbital into healthy mice of the C3HA line results in a rapid, sharp increase of [14C]-thymidine incorporated into liver microsomal DNA, accompanied by a suppression of nuclear DNA synthesis. In the liver of neoplastic mice and in the ascite cells of hepatoma 22A the system of microsomal DNA synthesis was insensitive to the injection of methyl nitrosourea. Cycloheximide and puromycin, which strongly inhibited nuclear DNA synthesis, had no effect on the synthesis of microsomal DNA. Stimulation of [14C]-thymidine incorporation into microsomal DNA after injection of methyl nitrosourea and 3,4-benz(a)pyrene may be accounted for not only by an increase of the DNA reparation processes, since caffeine, the inhibitor of post-replicatory reparation of DNA, did not eliminate the induction of microsomal DNA synthesis in the liver. Hydroxyurea in combination with methyl nitrosourea and phenobarbital significantly suppressed the synthesis of nuclear DNA in the liver and did not affect the synthesis of mtDNA; the stimulating effects of these inducers on the synthesis of microsomal DNA was thereby removed. This is indicative of independence of synthesis of microsomal DNA on that of nuclear DNA and mtDNA. Different specific radioactivities of microsomal, nuclear and mtDNAs in the regenerating mouse liver on the 5th, 10th and 15th post-hepatectomy days may be due to different metabolic stability of these DNAs. A possible role of microsomal DNA as a xenobiotic system component is discussed.
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PMID:[Accelerated microsomal DNA synthesis under the influence of xenobiotics and chemical carcinogens]. 43 79

Mitochondria from the 7777 hepatoma incorporate substantial amounts of l-[U-(14)C]serine into phospholipid by a Ca(2+)-dependent base-exchange reaction. This reaction is virtually absent in normal liver mitochondria. The finding cannot be attributed to microsomal contamination of the sucrose gradient-purified 7777 hepatoma mitochondria. The reaction is also absent in the rapid-growth controls, fetal rat liver and regenerating rat liver. [(14)C]Serine incorporation into 7777 hepatoma mitochondrial phospholipid by base-exchange requires Ca(2+) and is inhibited by EDTA. Ca(2+) cannot be replaced by Mg(2+), Mn(2+), or Co(2+). The reaction is inhibited by a sulfhydryl reagent and by detergents and is abolished by heating to 70 degrees C for 10 min. Product analysis indicates that phosphatidylserine and its decarboxylation product, phosphatidylethanolamine, are formed by 7777 hepatoma mitochondria, while phosphatidylserine is the sole product with microsomes. The conversion of phosphatidylserine into phosphatidylethanolamine in 7777 hepatoma mitochondria is inhibited by KCN. This study provides further evidence of abnormal mitochondrial biogenesis in the 7777 hepatoma. Our earlier study indicated a greatly increased mitochondrial activity of CTP:phosphatidate cytidylyltransferase in the 7777 hepatoma (Hostetler, Zenner, and Morris. 1978. J. Lipid Res. 19: 553-560). The presence in mitochondria of these two enzymes, which are primarily microsomal in normal liver, does not appear to be due to rapid growth alone, since their intracellular distribution was not altered in fetal or regenerating rat liver.-Hostetler, K. Y., B. D. Zenner, and H. P. Morris. Phosphatidylserine biosynthesis in mitochondria from the Morris 7777 hepatoma.
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PMID:Phosphatidylserine biosynthesis in mitochondria from the Morris 7777 hepatoma. 49 39

The subcellular distribution and properties of four aldehyde dehydrogenase isoenzymes (I-IV) identified in 2-acetylaminofluorene-induced rat hepatomas and three aldehyde dehydrogenases (I-III) identified in normal rat liver are compared. In normal liver, mitochondria (50%) and microsomal fraction (27%) possess the majority of the aldehyde dehydrogenase, with cytosol possessing little, if any, activity. Isoenzymes I-III can be identified in both fractions and differ from each other on the basis of substrate and coenzyme specificity, substrate K(m), inhibition by disulfiram and anti-(hepatoma aldehyde dehydrogenase) sera, and/or isoelectric point. Hepatomas possess considerable cytosolic aldehyde dehydrogenase (20%), in addition to mitochondrial (23%) and microsomal (35%) activity. Although isoenzymes I-III are present in tumour mitochondrial and microsomal fractions, little isoenzyme I or II is found in cytosol. Of hepatoma cytosolic aldehyde dehydrogenase activity, 50% is a hepatoma-specific isoenzyme (IV), differing in several properties from isoenzymes I-III; the remainder of the tumour cytosolic activity is due to isoenzyme III (48%). The data indicate that the tumour-specific aldehyde dehydrogenase phenotype is explainable by qualitative and quantitative changes involving primarily cytosolic and microsomal aldehyde dehydrogenase. The qualitative change requires the derepression of a gene for an aldehyde dehydrogenase expressed in normal liver only after exposure to potentially harmful xenobiotics. The quantitative change involves both an increase in activity and a change in subcellular location of a basal normal-liver aldehyde dehydrogenase isoenzyme.
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PMID:Subcellular distribution and properties of aldehyde dehydrogenase from 2-acetylaminofluorene-induced rat hepatomas. 53 88

Studies were carried out on the in vitro covalent binding of the carcinogen trichloroethylene (TCE) to liver microsomal preparations and to exogenous DNA. The binding of TCE to liver microsomal proteins of male C57BL/6 X C3H/He F1 (hereafter called B6C3F1) hybrid mice, a species and strain susceptible to TCE-induced liver tumorigenesis, was 46% higher than that of [14C]TCE to microsomal proteins from male Osborne-Mendel rats, a species and strain resistant to TCE-induced hepatocellular carcinoma. The in vitro binding of [14C]TCE to liver microsomal proteins was 37% higher for male B6C3F1 mice; female B6C3F1 mice that have been reported to show a lower incidence of TCE-induced hepatocellular carcinoma than do males. Microsomal proteins from the lung, stomach, and kidney of B6C3F1 hybrid mice also metabolized TCE, as indicated by the covalent binding of [14C]TCE to microsomal proteins from these organs. For rats the binding of TCE to liver microsomal proteins of Sprague-Dawley animals was higher than that of Osborne-Mendel and Fischer 344 rats. Incubation of [14C]TCE with salmon sperm DNA in the presence of microsomal preparations from B6C3F1 hybrid mice resulted in covalent binding of [14C]TCE to DNA. This binding was much higher in the presence of microsomal proteins from male rather than female mice. The binding to DNA and protein was enhanced by in vivo phenobarbital administration. The effects of 1,2-epoxy-3,3,3-trichloropropane on the covalent binding of [14C]TCE to protein and DNA were also examined.
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PMID:Covalent binding of the carcinogen trichloroethylene to hepatic microsomal proteins and to exogenous DNA in vitro. 62 81

Microsomes isolated from hyperplastic liver nodules and hepatomas, induced by DL-ethionine, exhibited a reduced cytochrome P-450 content and aminopyrine N-demethylase activity when compared to the organelles of control and surrounding non-nodular liver. Phenobarbital administration to rats caused an increase of microsomal protein, cytochrome P-450 and aminopyrine N-demethylase in all tissue tested. In the hepatoma the rise of cytochrome P-450 and aminopyrine N-demethylase/g of tissue was very low and it is compensated by a slight increase of microsomal protein. In hyperplastic nodules as well as in control and surrounding livers, cytochrome P-450 and aminopyrine N-demethylase increased more than microsomal protein. However, the phenobarbital-induced stimulation was significantly lower in hyperplastic nodules than in control and surrounding livers.
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PMID:Phenobarbital stimulation of cytochrome P-450 and aminopyrine N-demethylase in hyperplastic liver nodules during LD-ethionine carcinogenesis. 68 80

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