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)

Previously, we reported that the rate of metabolism of methyl sterol intermediates of cholesterol biosynthesis by broken-cell preparations of Morriss hepatoma 7777 is very slow, whereas the intact tumors are known to synthesize cholesterol quite efficiently. Active preparations have now been obtained by substitution of pyrophosphate for phosphate buffer. Although substitution of pyrophosphate buffer markedly enhances microsomal methyl sterol demethylation rates 3- to 4-fold in hepatoma 7777, other microsomal enzymes and electron carriers in either liver or a more slowly growing hepatoma appear to be unaffected by pyrophosphate. Several properties of the active microsomal methyl sterol demethylase have now been compared for control rat liver, host liver, tumor 7777, and tumor 5123C. Conditions necessary for the assay of initial velocities of enzymic reactions in the tumor microsomes have been established with respect to the amount of protein, time-course, concentrations of cofactors and substrate, pH, and other variables. The K'm and the responses to the variables studied above are very similar for methyl sterol demethylase of microsomes isolated from control liver, host liver, tumor 5123C, and tumor 7777. The multienzymic demethylase in the various preparations has been found to be inhibited similarly by in vitro additions of cyanide, cytochrome c, and bile salts. Thus, the enzymes of the microsomal-bound 4-methyl sterol demethylase of cholesterol biosynthesis appear to be very similar in liver and these 2 Morris hepatomas. When xenobiotic inducers of microsomal oxidases, such as phenobarbital and methylcholanthrene, are administered to normal and tumor-bearing rats, elevated rates of methyl sterol demethylation are observed with isolated liver microsomes obtained from both normal and tumor-bearing rats. Similar increases are not observed in the tumors. Furthermore, daily administration of an intestinal bile acid sequestrant elevates hepatic methyl sterol demethylase, but statistically significant changes were not observed in tumors 7777 and 5123C. Since the enzymes of methyl sterol demethylase appear to be grossly similar in liver and these hepatomas, regulation of the activity of the multienzymic system contained in the tumors may be altered. On the other hand, these agents in vivo simply may not affect liver and the hepatomas similarly, due to a lack of uptake of the foreign substances by the tumor that has been transplanted to the thighs.
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PMID:Characterization of microsomal methyl sterol demethylase in two Morris hepatomas. 17 91

1. Mitochondrial and microsomal fractions were prepared from normal rat liver and the Morris 7777 hepatoma and characterized by the use of the marker enzymes, succinate dehydrogenase and rotenone-insensitive NADPH-cytochrome c reductase. 2. The phospholipid content per mg membrane protein of Morris 7777 hepatoma mitochondria was increased by 75% as compared with mitochondria from normal rat liver. Microsomes from this poorly-differentiated tumor were found to have a 45% decrease in the content of phospholipid. These abnormalities were independent of tumor size or age. 3. The percent phospholipid content of the subcellular fractions was determined, and revealed an increase in the percent sphingomyelin in both the microsomal and mitochondrial fractions of the tumor. Decreases in the percent phosphatidylcholine and phosphatidylethanolamine were noted in tumor microsomes as compared with normal liver. Diphosphatidylglycerol was not found in significant quantities in the microsomal fraction of this hepatoma line. 4. The content of the various phospholipid classes per mg protein in the respective mitochondrial and microsomal fractions was determined. Large increases in nearly all the major phospholipid classes were found in tumor mitochondria; tumor microsomes were characterized by an increased content of sphingomyelin but the content of nearly all other phospholipids was significantly decreased. These findings suggest the presence of disturbances in the regulation of phospholipid metabolism in subcellular organelle membranes of the Morris 7777 hepatoma.
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PMID:Abnormal membrane phospholipid content in subcellular fractions from the Morris 7777 hepatoma. 18 53

The phospholipids of both mitochondrial and microsomal membranes from normal liver, host liver, and Morris hepatoma 7777 were isolated, separated, and quantitated. The total as well as the individual fatty acid concentrations and compositions were determined. The total phosphlipids isolated from tumor mitochondria were idly altered, compared with mitochondria from other normal or host liver. The polyenoic acids were decreased, and there was a concomitant increase in the monoenes. When the respiratory control was determined, the tumor mitochondria exhibited a significant decrease in this parameter. The tumor microsomal membrane fraction, on the other hand, contained about 50% less phospholipid than the controls. The fatty acid patterns of the total as well as the individual phospholipids were quite similar to those observed in the mitochondria. The species of phosphatidylcholine from both membrane fractions were separated by argentation chromatography of the intact molecules, and, as predicted by the fatty acid compositions, the major species of the tumor was the monoenoic/dienoic fraction. The acyl coenzyme A:1-acyl glycerophosphorylcholine acyltransferases, which aid in controlling the fatty acid composition of phospholipids, were measured. The very marked increase in activity of these enzymes toward polyenoic as well as monoenic fatty acids suggested that the polyenoic acids were not available for use in the resynthesis of the phosphatidylcholines in the tumor.
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PMID:Mitochondrial and microsomal phospholipids of Morris hepatoma 7777. 18 50

The activity of estrogen 16alpha-hydroxylase was measured for nine Morris hepatomas of different growth rates and host livers. Activity was measured in the microsomal fraction of the cell (100,000 X g). In the spectrum of hepatomas studied, 16alpha-hydroxylase activity was significantly decreased in parallel with the increase in hepatoma growth rate. The decrease in enzymic activity ranged from 16 to 19% for the slow-growing tumors (Hepatomas 44, 28A, and 9633), 2 to 9% for the intermediate-growing tumors (Hepatomas 38B, 7795, and 5123A), and 0% for the fast-growing tumors (Hepatomas 7288C, 7777, and 42A). Estrogen 16alpha-hydroxylase activity of the liver of tumor-bearing rats differed from that of liver of healthy animals. There was a decrease in enzymic activity ranging from 66% to 90% of normal control rats. The activity level of the host liver did not correlate with tumor growth rate. Stimulation of 16alpha-hydroxylase with phenobarbital showed a 4-fold increase in activity in normal liver and only a 2- to 3-fold increase in host livers. The slow- and intermediate-growing hepatomas showed a 1.2-to 1.4-fold increase in enzyme activity, and no activity or stimulation in the fast-growing hepatomas was observed.
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PMID:Metabolism of estrogens in hepatomas of different growth rates. 19 Nov 75

The subcellular distribution of arylamidase-active antigens in rat liver and in two chemically induced hepatomas (D23 and D33) was investigated. Soluble antigens or detergent-solubilized membrane antigens from isolated subcellular fractions were tested in fused rocket immunoelectrophoresis against antisera prepared against each of the fractions. The arylamidase active antigens were identified by means of a zymogram technique using L-leucine 2-naphthylamide as substrate. Two arylamidase-active antigens were shown to be shared between plasma membranes, microsomes, lysosomal membranes and lysosomal content of the hepatocytes. One of these occurred predominantly in the plasma membranes (the plasma membrane arylamidase) while the other was preferentially found in the lysosomal content (the lysosomal content arylamidase). Also a third arylamidase-active antigen was identified and was shown to be restricted to the microsomes and the lysosomal membranes (the microsomal/lysosomal arylamidase). The rat liver plasma membrane arylamidase-active antigen was also present in plasma membrane, microsomal and cell-sap fractions of both the hepatomas. However, in the hepatomas this antigen occurred predominantly in the microsomal fraction. The plasma membrane arylamidase was the only arylamidase-active antigen found in the hepatoma D33 while the plasma membrane and microsomal fractions of hepatoma D23 also contained another antigen with this activity. Neither the lysosomal content arylamidase nor the microsomal/lysosomal arylamidase could be detected in any of the hepatoma fractions.
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PMID:Arylamidases of rat liver and chemically induced hepatomas. 1. Subcellular distribution of L-leucine. 2. Naphthylamidase-active antigens. 19 10

Previously, we reported that the properties or microsomal 4-methyl sterol demethylase isolated from liver and Morris hepatomas 5123C and 7777 are grossly similar. The individual enzymic steps of this multicomponent system have now been studied, and the rate-determining step has been determined and shown to be identical for liver and these hepatomas. The rates of microsomal oxidative attacks of the 4alpha-methyl, 4alpha-hydroxymethyl, and 4-aldehydic groups are similar for microsomes prepared from rat liver and hepatoma 7777. The rates of mixed-function oxidative attack appear to increase in the order;--CH3 less than --CH2OH less than --CHO. Furthermore, the hepatic and hepatoma NAD-dependent decarboxylase, which catalyzes the reaction following the three oxidative attacks is similar in properties and velocity. The fifth step, an NADPH-dependent reduction of the 3 ketosteroid that is produced by decarboxylation, is also similar. For both tissues, the latter two reactions, under in vitro conditions, proceed at rates that exceed the initial oxidative process. Thus, for elimination of both of the 4-methyl groups of lanosterol, the 10 individual reactions catalyzed in this multicomponent system are identical in liver and hepatoma 7777 microsomes, and the rate-determining stop for both liver and hepatoma is the inital oxidative attack on the 4alpha-methyl group of cholesterol procursors. When the rate-determining reaction of both liver and hepatoma 7777 microsomes is assayed at different temperatures, the same activation energies and the same characteristic breaks in the arrhenius plots are observed. Thus, for both liver and hepatoma, both the nature and the site of rate determination in this multienzymic system must be similar. Since the microsomal enzymes of liver nad hepatoma appear to be catalytically similar and rate determination appears to be similar, too, the characteristic lact of response of tumor microsomes to treatments in vivo that alter host liver microsomal demethylation activity suggests that the insensitivity of these tumors to dietary cholesterol should not be ascribed to alterations in the catalytic proteins. Evidence in this report suggests that the postmicrosomal supernatant fraction of both liver and hepatoma contains a cytosolic protein that may participate in the regulation of the rate-determining attack of 4alpha-methyl sterol substrates. Thus, either qualitative or quantitative differences between the postmicrosomal supernatant fractions obtained from liver and heptomas may account for the observed differences in rates of cholesterol biosynthesis.
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PMID:Investigation of the rate-determining microsomal reaction of cholesterol biosynthesis from lanosterol in Morris hepatomas and liver. 19 49

Occurrence of estrone, estradiol, and testosterone glucuronyltranferase activities was tested in a well-differentiated hepatoma, Reuber H35. Transferase activities for estrone and estradiol were found in the hepatoma. The Michaelis-Menten kinetics of these two microsomal glucuronyltransferase activities were similar in hepatoma and in liver preparations, except for a somewhat higher apparent Km for estradiol in the hepatoma preparations. Under the same experimental conditions, only trace amounts of testosterone glucuronyltransferase activity could be detected in the hepatoma preparations. By contrast, in liver microsomal preparations, testosterone glucuronyltransferase activity was the highest among the steroid glucuronyltransferase activities tested.
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PMID:Occurrence of steroid glucuronyltransferases in a hepatoma. 19 40

The administration of different types of antitumor drugs is found to lead to a decrease in total activity of phosphatases in mitochondrial, lysosomal and microsomal fraction of Zajdela hepatoma cells, the free activity being enhanced. The isoenzyme pattern of phosphatases in soluble fraction is influenced too. The results suggest that different antitumor drugs cause a uniform response in tumor cells, manifested in disorders in the protein synthesizing system and membranes of subcellular particles involved.
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PMID:[Effect of 5-fluorouracil and thiophosphamide on the activity and fractional content of phosphatases of Zajdela hepatoma]. 19 7

The rat hepatoma cell H4-12 which synthesizes and secretes albumin was synchronized by growth in isoleucine-deficient medium followed by a second block with excess thymidine. Albumin synthesis and secretion was measured in the synchronized cells at different time intervals representative of early S, late S, G2, mitosis, early G1 and late G1 phases of the cell cycle. Maximal albumin synthesis occurred during G1 although significant synthesis also occurred during the other cell cyle phases. Most (75--80%) of the radioactive albumin produced during a 15 min pulse incubation with L-[4,5-3H] leucine was found in the microsomal cell fraction and this nascent albumin was secreted into the incubation medium during a 160 min chase period. Fifty percent of the nascent albumin was secreted by 50--55 min and this pattern of secretion did not change during the cell cycle. These data indicate that albumin synthesis occurs throughout the cell cycle but that it is preferred during G1. The rate of intracellular transport and secretion of albumin does not vary during the different phase of the cell cycle.
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PMID:Synthesis and secretion of albumin by a synchronized rat hepatoma cell line. 19 59

The postmicrosomal protein fraction from rat hepatoma 27 adjusted to pH 5.1 stimulates phospholipid exchange between rat liver microsomes and mitochondria with higher rates and in a less specific way than the corresponding fraction from rat liver. A phospholipid exchange protein has been purified to homogeneity from the hepatoma pH-5.1 supernatant by gel filtration on Sephadex G-75 and ion-exchange chromatography on carboxymethylcellulose. The isolated protein had a molecular weight of 11200 as determined by electrophoresis on polyacrylamide in the presence of dodecyl sulfate and of 11168 as calculated from the amino acid composition. Isoelectric focusing showed a single band at pH 5.2. in the assay system rat liver microsomes leads to mitochondria the protein exhibits a complete lack of substrate specificity transferring all the major microsomal phospholipids to about the same extent. The possible role of the isolated phospholipid exchange protein in the chemical dedifferentiation of hepatoma cell membranes is discussed.
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PMID:A universal lipid exchange protein from rat hepatoma. 20 54

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