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)

We previously reported that LEC rats, which show a spontaneous occurrence of liver injury and hepatocellular carcinoma (HCC), are highly susceptible to chemical carcinogens such as diethylnitrosamine (DEN). Since abnormal copper accumulation in the liver of LEC rats was found to be a cause of liver injury, it is necessary to elucidate whether the carcinogen susceptibility of LEC rats is related to the accumulation of copper in the liver. In this study we have examined the relationship between the susceptibility of FI [LEC x LEA or LEC x Fischer 344 (F344)] and FI backcross rats to DEN and hepatic copper concentration, as copper accumulation has been demonstrated to be inherited as an autosomal recessive trait. The groups of F1 and F1 backcross rats were given a single intraperitoneal injection of DEN (20 mg/kg wt) and subjected to a modified Solt-Farber protocol for assaying glutathione S-transferase placental form (GST-P)-positive foci. The hepatic copper concentration was examined by atomic absorption. Although no F1 rats showed a high copper concentration in the liver, the numbers of foci were as high as those in LEC rats which accumulate copper. Backcross rats separated into high and low copper concentration groups at an almost 1:1 ratio, but there was no significant difference in the mean numbers of foci between these two groups. The results clearly indicate that the high susceptibility of LEC rats to DEN is genetically independent of copper accumulation in the liver. A possible dominant inheritance of this high carcinogen susceptibility was suggested. Biochemical measurement of cytochromes P450 and b5 in the liver of F1 rats indicated that alterations in drug metabolizing enzymes may be partially responsible for the high carcinogen susceptibility of LEC rats.
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PMID:The high hepatocarcinogen susceptibility of LEC rats is genetically independent of abnormal copper accumulation in the liver. 769 3

Cells of a dedifferentiated rat hepatoma clone were submitted in vitro to copper deficiency. This treatment caused inhibition of cell growth. In addition, in treated cultures, the frequency of differentiated revertants selected in glucose-free medium was drastically increased when compared with the spontaneous frequency. The maximum effect was observed when cell proliferation spontaneously resumed after 20 days of copper deficiency. Furthermore, a copper depletion/replenishment protocol applied before the selection of revertants reduced the period of time of copper deficiency that was necessary to provoke the reversion process. It has been previously demonstrated that cell growth arrest and reinitiation may induce gene amplification events. Amplification of the dihydrofolate reductase gene as an indicator of such events was tested during the copper deficiency treatment. The frequency of cells resistant to increasing methotrexate concentrations due to gene amplification was enhanced by the treatment, just as was the frequency of differentiated revertants. These results suggest that in rat hepatoma cells the phenotypic transition to the stable differentiated state involves gene amplification and/or genome rearrangement.
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PMID:Inductive effect of copper deficiency on the reversion of dedifferentiated rat hepatoma cells and on gene amplification. 769 21

In order to clarify the factors contributing to the signal intensities (SIs) of HCC on T1-weighted images, the amount of water, lipid, copper (Cu), iron (Fe), and manganese (Mn) was determined in HCC and surrounding hepatic parenchyma of 13 patients. The relationships among these findings, the histopathologic findings, and the SIs of T1-weighted images were evaluated. Among the 13 HCC, 3 had a high SI, 5 were isointense, and 5 had a low SI on T1-weighted images compared to the surrounding hepatic parenchyma. The paramagnetic ions which contributed to the SI patterns were assumed to be Cu in HCC (38.0 +/- 62.4 micrograms/g ww), and Fe in the liver (61.1 +/- 42.4 micrograms/g ww) and HCC (40.0 +/- 34.3 micrograms/g ww). In 8 HCC with high- or isointensity, 2 were grades I, 5 were grade II, and one was grade III according to the Edmondson-Steiner's histopathologic classification. It is concluded that the SI patterns alone can not be a sign of low grade malignancy because of the existence of Fe in livers and HCC.
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PMID:MR imaging of hepatocellular carcinoma. Correlation of metal content and signal intensity. 771 Jul 97

The accumulation process of copper (Cu) in the liver and the following metabolic disorder of Cu were examined in LEC rats, a mutant strain which accumulates Cu with age and shows spontaneous acute hepatitis and/or hepatoma. Cu concentration in the liver of female rats was approximately 220 micrograms/g liver at 2 weeks of age, decreased to 100 micrograms/g liver at 4-6 weeks, and then started to increase with age linearly to the highest concentration of 250 micrograms/g liver at 16 weeks. Although the Cu level expressed by concentration (microgram/g liver) decreased during weaning, it increased linearly with age when it was expressed by content (mg/liver), indicating a constant and preferential accumulation of Cu in the liver. Cu concentration stopped increasing at 16 weeks in the liver, followed by a sudden decrease to 1/2 the highest level. Biological markers (serum lactate dehydrogenase and glutamic-oxaloacetic transaminase activities) for liver damage started to increase, together with the appearance of signs of jaundice, when Cu attained the highest concentration. Distributions of Cu and zinc (Zn) in the supernatant fraction of the liver indicated that both metals were mostly distributed to metallothionein (MT) and, to a small extent, to superoxide dismutase on a gel filtration column throughout the course of the experiments. Serum Cu concentration started to increase in a form of ceruloplasmin, together with serum marker enzyme activities for liver damage. Cu concentration in the kidneys also started to increase after the increase of serum Cu. The results indicate that Cu accumulates in the form of MT in the liver of LEC rats to a maximum level of approximately 250 micrograms/g liver, and then decreases suddenly with the onset of acute hepatitis. The maximum level seems to be related to the capacity of MT synthesis, and acute hepatitis is assumed to occur when Cu accumulates beyond the capacity. Serum Cu started to increase, from the abnormally low level, when the metal accumulated beyond the capacity of MT synthesis in the liver, and it was partly reabsorbed by the kidneys and the rest was excreted into urine. Changes in iron and zinc levels were determined and discussed in relation to those of Cu.
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PMID:Copper metabolism leading to and following acute hepatitis in LEC rats. 771 95

Long-Evans rats with a cinnamon-like coat color (LEC) is an inbred strain accumulating copper (Cu) in the liver abnormally and showing spontaneous hepatitis and hepatoma. The present study was intended to clarify how Cu accumulates in the LEC rat liver. For this purpose, the distribution profiles of Cu and zinc (Zn) and the inducibility of metallothionein (MT) synthesis were examined in the liver between Cu-loaded Long Evans agouti (LEA, the original strain of LEC) rats and were compared with those in control LEC rats. LEA rats (female, five weeks old) were injected subcutaneously with CuCl2 daily at a dose of 3 mg Cu/kg body weight for 2, 4, 6, and 9 days. The concentration of Cu (124 micrograms/g) accumulated in the LEA rat liver after four injections was comparable to that in control LEC rats. Only 20% of Cu in the liver of LEA rats was recovered in the supernatant fraction in the form of MT, while Cu in the LEC rat liver (113 micrograms/g) was recovered mostly in the supernatant fraction, and was bound to MT. Although the increased concentration of Cu in the LEA rat liver was further elevated after additional injections of Cu, the amount of MT did not increase further. The MT mRNA content in the LEA rat liver remained lower than that of LEC rats even after further injections of Cu. Therefore, the present results suggest that LEC rats can accumulate Cu at a high concentration in the liver because of their extremely high inducibility of MT.
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PMID:Enhanced synthesis of metallothionein as a possible cause of abnormal copper accumulation in LEC rats. 779 93

We determined the copper (Cu) and metallothionein (MT) concentrations in the liver and kidney supernatants of Long-Evans rats with a cinnamon-like coat color (LEC rats), and also measured the Cu and MT levels in the serum of these rats. Seven-week-old rats had abnormally high levels of both substances in the liver. The levels in the liver supernatant were over 80- and 16-fold higher, respectively, in LEC rats than in normal 7-week-old Wistar rats. LEC rats suffering from acute hepatitis or hepatoma had a much higher level of hepatic MT, but the Cu level was higher only in the liver of those with hepatoma. The serum levels of Cu and MT in LEC rats with acute hepatitis were more than 10-fold higher than those in normal LEC rats. These levels were decreased in the rats with chronic hepatitis or hepatoma. In the liver of LEC rats with hepatoma, the area of hepatocellular carcinoma and of noncancerous liver showed over twice higher Cu and MT levels than the area of cholangiofibrosis. The Sephadex G-75 elution profile from the liver supernatant of a normal LEC rat showed that the peak of Cu closely corresponded to that of MT recognized with anti-MT antiserum. The levels of Cu and MT in the kidney supernatant of LEC rats with acute hepatitis were more than 25-fold higher than in that of normal LEC rats. However, there were no marked increases in the levels in the kidney supernatant of LEC rats with chronic hepatitis or hepatoma.
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PMID:Abnormal accumulation of copper-metallothionein in the liver and kidney of Long-Evans rats with a cinnamon-like coat color (LEC rats). 792 Apr 14

Effects of metallothionein (MT) synthesis inhibiting compounds (actinomycin D, cycloheximide), MT synthesis stimulating compounds (dexamethasone, dibu-cAMP) and interfering metals (Cd, Zn) on copper accumulation were investigated in rat hepatoma tissue culture cells. Copper-metallothionein (Cu-MT) and MT-associated copper levels were determined to find a possible correlation between cytosolic copper concentrations and MT as a Cu-detoxifying protein. Further, intracellular non-MT associated copper levels and levels of GSH and SOD were determined. Cell viability was tested under all experimental conditions by measuring LDH-release, K+ uptake and total cell protein. Administration of dexamethasone and dibu-cAMP showed no effect on MT levels (compared with controls), and only a marginal effect on 64Cu and total Cu accumulation. Administration of actinomycin D resulted in increased copper accumulation in the particulate fraction, possibly due to inhibition of copper secretion processes and/or protein synthesis. Presence of zinc had no effect on MT levels nor on total Cu and 64Cu levels, in contrast with cadmium which drastically enhanced copper accumulation and MT levels in the cells. Cu/MT ratios varied from 1.0 +/- 0.3 to 3.3 +/- 1.2, which is far below the assumed maximum molar ratio of 8-12 mol Cu per mol MT. SOD levels appeared to be enhanced up to 2- or 3-fold in the presence of Cd2+, relative to control values. The role of GSH as Cu-intermediate in intracellular Cu distribution plus its role in copper defence mechanism(s) was tested by application of BSO, an inhibitor of GSH synthesis. It was found that BSO had no effect on intracellular MT level; it was found however that MT-bound copper levels were markedly decreased. The results presented support a model for copper metabolism in hepatoma tissue culture (HTC) cells, where Cu(I) is complexed by GSH immediately after entering the cell. GSH is capable of transferring copper to MT where it is stored. Depletion of GSH (by administration of Cd2+, actinomycin D, cycloheximide) almost instantaneously results in enhanced cellular toxicity. When also MT is depleted (by actinomycin D) non-MT associated, 'free' cytosolic Cu2+ is elevated, and HTC cells rapidly loose their resistance to copper toxicity, as also reflected in loss of cell viability (LDH, K+ and total cell protein).
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PMID:Role of cytosolic copper, metallothionein and glutathione in copper toxicity in rat hepatoma tissue culture cells. 794 May 70

To investigate the effects of in vivo copper on magnetic resonance (MR) images, the authors studied Long-Evans cinnamon rats, which develop hepatitis and hepatocellular carcinoma as a result of abnormal copper metabolism. The livers of the rats were imaged before hepatitis developed; the absence of hepatic disease was confirmed histopathologically. The copper that accumulated in the liver of the rats was thought to exist in the form of divalent ions, which were suspected of reducing the T1 and T2 of neighboring protons. However, the signal intensities of the liver on T1- and T2*-weighted images did not change, suggesting that in vivo copper, even when accumulated abnormally, does not influence the signal intensity of MR images.
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PMID:Influence of in vivo copper on MR images of the liver in rats. 794 81

A number of biochemical events accompany the development of chronic liver disease and its evolution into hepatic cancer. Low plasma zinc and high plasma copper levels have been observed in individuals with advanced hepatocellular liver disease. Moreover, many investigators have demonstrated an increase in serum estradiol levels in individuals with chronic liver disease and hepatocellular carcinoma (HCC). In the present study, the relationship between these biochemical events and HCC was investigated in an animal model. Specifically, carbon tetrachloride (CCL4) was administered intragastrically to 20 female Sprague Dawley rats for 30 weeks. All 20 animals developed cirrhosis. Six (30%) developed HCC. Significantly higher serum estradiol, zinc and copper levels were observed in the rats developing HCC as compared with those with cirrhosis alone (P < or = 0.05, 0.01 and 0.001, respectively). A trend toward increased serum levels of progesterone, ALT and total bilirubin (0.1 > or = P < or = 0.05) was found in the animals developing HCC. No differences in serum testosterone and alkaline phosphatase levels were noted between animals with and without HCC. These studies demonstrate that in animals with experimental CCL4-induced cirrhosis and HCC serum levels of estradiol, zinc and copper are increased, as is the case in man.
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PMID:CCL4-induced liver cirrhosis and hepatocellular carcinoma in rats: relationship to plasma zinc, copper and estradiol levels. 795 73

The effects of selenite or selenate supplementation on the concentration and distribution of Fe, Cu, Zn, As, Br, and Rb are investigated using the radioisotope-induced X-ray fluorescence, RIXRF. These effects are studied in the animals bearing BW7756 murine hepatoma and healthy animals for both of the oxidation states. Selenite and selenate induce different effects on the distribution of selenium, zinc, copper, bromine, and rubidium. The differences may be attributed to the differences in the inter element interaction after absorption into the bloodstream as well as to the mode of their intestinal absorption. Simultaneous supplementation of copper with selenite or selenate at the described levels has a profound influence on the concentration levels of other elements in the normal as well as in the diseased mice. The administration of selenium (0.67 micrograms/g body wt sodium selenite or sodium selenate, daily) and selenium and copper (0.67 and 1.35 micrograms/g body wt, respectively) has no effect on the incidence rate of hepatoma development.
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PMID:Fluctuations in Fe, Cu, Zn, Br, As, Se, and Rb concentrations in C57L/J mice bearing BW7756 murine hepatoma using radioisotope-induced X-ray fluorescence. 798 Oct 8

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