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)

Female inbred BUF rats bearing intrahepatically transplanted hepatomas (5123 or 19) were subjected to acute exposure to a variety of hepatotoxic agents (actinomycin D, aflatoxin B1, CCl4, dimethylnitrosamine, ethionine, puromycin, or sparsomycin) or of stimulatory agents (hydrocortisone, phenobarbital, or whole-body X-ray). The responses in terms of changes in polyribosomes and protein synthesis (in vitro and in vivo) of host liver and hepatoma were evaluated. The responses of the host livers and hepatomas to the different agents varied. In general, the host livers responded much more than did the hepatomas. Of the two hepatomas, hepatoma 19 responded less (particularly in terms of polyribosome changes) than did hepatoma 5123. In a few experiments, different doses of actinomycin D, ethionine, or sparsomycin were used and in all instances the host livers responded more than did the hepatomas.
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PMID:Effect of inhibitory and stimulatory agents on protein synthesis in hepatomas and host livers of rats. 28 39

(1) Rats have been given 6 weeks' feeding with low levels of the hepatocarcinogens aflatoxin B1 and 2-methyl dimethyl aminoazobenzene (2-Me-DAB). (2) It has been confirmed that 3 weeks' feeding with either toxin is sub-carcinogenic, whereas 6 weeks' feeding results in a high incidence of hepatocarcinoma. (3) The changes occurring in the liver during this feeding have been monitored by histological examination and zonal rotor centrifugation. (4) Marked similarities have been observed between the time courses of development of changes induced in the liver by the two carcinogens. Little change is observed after 2 weeks' feeding with the toxins. The greatest change occurs after 3 weeks' feeding, which results in tissue necrosis and the loss of a large proportion of the tetraploid hepatocyte nuclei. (5) A compensatory proliferation of predominantly diploid hepatocytes takes place in the presence of a continuing supply of either of the carcinogens. This indicates that not only does feeding each carcinogen induce the production of a population of hepatocytes resistant to the cytotoxicity of the inducing agent, but that the population is also resistant to the cytotoxicity of the other carcinogen.
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PMID:A comparison of the changes induced in rat liver by feeding low levels of aflatoxin B1 or an azo dye. 41 63

Aflatoxin B1 has been suggested as a causative agent for a G to T mutation at codon 249 in the p53 gene in human hepatocellular carcinomas from southern Africa and Qidong in China. To test this hypothesis, nine tumors induced by aflatoxin B1 in nonhuman primates were analyzed for mutations in the p53 gene. These included four hepatocellular carcinomas, two cholangiocarcinomas, a spindle cell carcinoma of the bile duct, a hemangioendothelial sarcoma of the liver, and an osteogenic sarcoma of the tibia. None of the tumors showed changes at the third position of codon 249 by cleavage analysis of the HaeIII enzyme site at codon 249. A point mutation was identified in one hepatocellular carcinoma at the second position of codon 175 (G to T transversion) by sequencing analysis of the four conserved domains (II to V) in the p53 gene. These data suggest that mutations in the p53 gene are not necessary in aflatoxin B1 induced hepatocarcinogenesis in nonhuman primates. The occurrence of mutation in codon 249 of the p53 gene in selective samples of human hepatocellular cancers may indicate involvement of environmental carcinogens other than aflatoxin B1 or that hepatitis B virus-related hepatitis is a prerequisite for aflatoxin B1 induction of G to T transversion in codon 249.
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PMID:Low frequency of p53 gene mutation in tumors induced by aflatoxin B1 in nonhuman primates. 131 Jun 37

Primary hepatocellular carcinoma is one of the most common and lethal cancers in the world. It is particularly prevalent on the continents of Africa and Asia. A number of epidemiological studies have associated the exposure status of people to aflatoxin B1 as being important in the etiology of liver cancer. However, to date these studies have relied upon the criteria of presumptive intake data, rather than relying upon quantitative analyses of aflatoxin DNA adduct and metabolite content obtained by monitoring biological fluids from exposed people. Information obtained by monitoring exposed individuals for specific DNA adducts and metabolites will define the pharmacokinetics of aflatoxin B1 in people, thereby facilitating risk assessments. In combination with the human monitoring studies is the need to use animals models to help provide an interpretable data base for the human results. Animal models are also going to be critical to the development of chemoprotection strategies. The molecular dosimetry studies described in this chapter support the concept that measurement of the major, rapidly excised AFB-N7-guanine adduct in urine is an appropriate dosimeter for estimating exposure status and possibly risk in individuals consuming this mycotoxin.
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PMID:Molecular dosimetry of aflatoxin DNA adducts in humans and experimental rat models. 132 Feb 72

An attempt was made to isolate cancer cell lines from liver tumors that had been induced by aflatoxin B1 (AFB1) in rats. A clonal cell line named AFB-1 was isolated from a liver tumor that was histologically diagnosed as hepatocellular carcinoma. When AFB-1 cells were inoculated into the subcutaneous tissue at the dorsal region of syngenic animals, they metastasized from the site of inoculation into the abdominal cavity to form many tumor nodules throughout the serous membrane and metastatic foci in the kidney and pancreas. They also metastasized into the thoracic cavity to form metastatic foci in the lung. This is the first instance where a metastasizing AFB1-induced cancer cell line has been isolated.
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PMID:Isolation of a metastasizing cancer cell line from an aflatoxin B1-induced rat liver tumor. 132 57

Recent studies of the p53 tumor suppressor locus (designated TP53) in primary hepatocellular carcinoma (PHC) have identified a high frequency of codon 249 mutations. Due to the geographic location from which the samples were obtained and the substitution observed, the mutation was suggested to be attributable to aflatoxin B1 (AFB1) exposure. To determine the generality of this phenomenon, we have examined PHC tissues from 107 geographically and ethnically diverse sources. The frequency of p53 gene mutations was evaluated by using PCR/restriction-digest methods, GC-clamp (G+C-rich sequence) denaturing gradient gel electrophoresis, and DNA sequencing. The mutation rate observed in tumors from high-AFB1-exposure regions (25%) was more than double the rate observed in low-exposure regions (12%) but lower than the 50% frequency previously reported. Codon 249 mutations occurred at a much lower frequency than previously reported (2 of 107 samples examined). These results suggest that changes in DNA encoding p53 may not represent primary oncogenic effects but instead represent genetic changes related to tumor progression. High AFB1 levels may facilitate the generation of these progressional changes, but not by inducing a specific p53 gene mutation at codon 249 as previously reported.
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PMID:Low frequency of p53 mutations observed in a diverse collection of primary hepatocellular carcinomas. 132 3

In order to clarify the significance of mutation of the p53 tumor suppressor gene in the genesis and development of human hepatocellular carcinoma (HCC) in an aflatoxin B1 low-exposure area, the spectrum, i.e., incidence, type, and site, of p53 gene mutations was examined in 169 tissue samples resected mainly from Japanese patients using single-strand conformation polymorphism analysis and direct sequencing. Forty-nine tumors (29%) showed a p53 mutation (39 point mutations and 10 frameshifts). The point mutations comprised 18 transitions, only 4 of which occurred at CpG sites, and 21 transversions. Two evolutionarily conserved domains, IV and V, contained 65% of all mutations and codon 249 was the most frequent mutation site (7/49). The spectrum of p53 mutation did not differ among HCCs in relation to the type of hepatitis virus infection, sex, age, and background liver disease of patients, tumor size, or presence of metastasis, but incidence and site were significantly associated with the degree of differentiation of cancer cells. In poorly differentiated HCC, p53 mutation was frequent (54%) and clustered on domains IV and V, whereas in well or moderately differentiated HCC, the mutation was less frequent (21%) and equally distributed on domains II to V. Restriction fragment length polymorphism analysis revealed loss of heterozygosity on chromosome 17p in 55 (69%) of 80 informative cases and in 34 (95%) of 36 cases with p53 mutation. Therefore, p53 gene mutation is suggested to occur independently of the type of viral infection or status of preexisting liver disease and to occur preferentially in moderately and poorly differentiated HCCs in association with or after loss of another p53 allele as a late event of HCC progression.
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PMID:p53 gene mutation spectrum in hepatocellular carcinoma. 133 Feb 91

One of the major debates in hepatocellular carcinogenesis at present is whether the hepatitis-B and -C viruses are directly carcinogenic or exert their effect indirectly by causing chronic necro-inflammatory hepatic disease, which in turn is responsible for malignant transformation of hepatocytes. This debate has been fueled by the observation that hepatitis C virus is a single-stranded RNA virus with no precedent for inducing cancer but with a marked propensity to cause chronic necro-inflammatory hepatic disease and by the findings in Chisari's transgenic mouse model, which suggest that severe and prolonged hepatocellular injury per se induces a proliferative response that progresses to tumour formation. Recent reports of a guanine to thymine mutation of the third base of codon 249 of the tumour suppressor gene, p53, in 50% of patients with hepatocellular carcinoma in regions of high aflatoxin exposure, and mutagenic experiments showing that aflatoxin B1 binds particularly to guanine residues in G-C-rich domains and that codon 249 is a preferred target have suggested a mechanism whereby aflatoxin might induce malignant transformation.
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PMID:Tumours of the liver. 133 85

Human hepatocellular carcinomas from patients in Britain, an area of low prevalence of hepatocellular carcinoma and low dietary exposure to aflatoxin B1, were analyzed for mutations in the p53 tumor-suppressor gene. Abnormalities in the p53 gene were detected in 2 of 19 hepatocellular carcinomas by polymerase chain reaction--single-stranded conformation polymorphism. Direct sequencing of the evolutionarily conserved regions of p53 (exons 5, 6, 7 and 8), where mutations have been commonly found in a variety of tumors, confirmed that only two hepatocellular carcinomas had mutations in p53, one a 6-bp deletion of codons 158 and 159 (exon 5) and the other a G to A transition at codon 286 (exon 8). No mutations were found in any hepatocellular carcinoma in exons 6 and 7; in particular all tumors had wild-type sequence at codon 249, which has been reported to be a mutational hot spot in the p53 gene in hepatocellular carcinomas from high incidence areas such as China and southern Africa. Abnormalities in p53 expression were examined by immunohistochemistry and found in 1 of the 19 hepatocellular carcinomas. These findings show that p53 mutations are infrequently involved in the malignant transformation of hepatocytes in an area of low hepatocellular carcinoma prevalence. They support the suggestion of a possible link between dietary exposure to aflatoxin and selective G to T mutations at codon 249 of the p53 gene. Our observations also indicate that hepatitis B virus infection alone, present in six of the hepatocellular carcinomas examined, does not account for the specificity for codon 249 mutations reported from endemic areas.
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PMID:Analysis of the p53 tumor-suppressor gene in hepatocellular carcinomas from Britain. 133 21

Reports of an increase in a serum epoxide hydrolase (sEH), immunochemically related to microsomal EH in humans and rats with hepatocellular carcinoma (HCC), suggested its use as a serum marker for this disease. We have now measured sEH levels (as either immunochemically determined content or enzyme activity) in a number of human and experimental models of liver disease. sEH was elevated above the normal range in at least 50% of individuals with HCC, including: 3 of 6 northern Californians; 4 of 7 Koreans with hepatitis B-associated HCC; hepatitis B-associated HCC in woodchucks; and male rats receiving chronic treatment with aflatoxin B1 or ciprofibrate. sEH was rarely elevated in other forms of chronic liver disease. Only 2 of 9 Koreans with hepatitis B-associated cirrhosis, 1 of 8 carriers, but none with chronic active hepatitis or infection with no apparent liver disease had elevated sEH. In addition, no elevations were found in woodchucks with noncancerous viral hepatitis. In aflatoxin B1- and M1-treated rats sEH was not elevated in those with only hyperplastic foci or hepatocellular adenomas, and in two rat initiation-promotion protocols sEH was elevated only in those rats which received the entire set of treatments. sEH was also increased during acute hepatotoxicity in rats treated with CCl4 or 1,2-dibromo-3-chloropropane. The mechanism of increase in sEH during hepatocarcinogenesis appears to be different from that of other markers of HCC, for in the Korean patients, there was no correlation between sEH concentrations and those of alpha-fetoprotein or ferritin, nor was there a correlation with alpha-fetoprotein concentrations in the aflatoxin-treated rats. Furthermore, the increase in sEH does not correlate with induction of microsomal EH in the liver of experimental animals. Studies to date indicate that sEH is selective for HCC and severe hepatonecrotic injury, and may be of some use in the diagnosis of HCC, particularly as a complement to other serum markers.
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PMID:Serum epoxide hydrolase (preneoplastic antigen) in human and experimental liver injury. 133 49


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