UMLS:C0019163 - FACTA Search

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Query: UMLS:C0019163 (hepatitis B)
38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatocellular carcinoma (HCC) is a prevalent cancer in sub-Saharan Africa and eastern Asia. Hepatitis B virus and aflatoxins are risk factors for HCC, but the molecular mechanism of human hepatocellular carcinogenesis is largely unknown. Abnormalities in the structure and expression of the tumour-suppressor gene p53 are frequent in HCC cell lines, and allelic losses from chromosome 17p have been found in HCCs from China and Japan. Here we report on allelic deletions from chromosome 17p and mutations of the p53 gene found in 50% of primary HCCs from southern Africa. Four of five mutations detected were G----T substitutions, with clustering at codon 249. This mutation specificity could reflect exposure to a specific carcinogen, one candidate being aflatoxin B1 (ref. 7), a food contaminant in Africa, which is both a mutagen that induces G to T substitution and a liver-specific carcinogen.
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PMID:Selective G to T mutations of p53 gene in hepatocellular carcinoma from southern Africa. 201 Nov 86

Loss of tumor suppressor genes is involved in the mechanism of tumorigenesis of many solid tumors. We tested 9 hepatitis B virus (HBV)-positive and 10 HBV-negative hepatocellular carcinomas for loss of somatic heterozygosity using 14 polymorphic probes mapping to chromosomes 4, 11, 13, and 17. Losses were found on all chromosome arms tested. The highest frequency of loss was observed at the D13S1 locus (67%) at band 13q12. Losses were also observed at three other loci on 13q. Twenty-one % of informative cases showed loss on 17p using the probe pYNZ22 which maps near the p53 locus. Losses on 4q were infrequent with 17% found at one locus and no loss at two others. The retinoblastoma gene and the locus on 17p were only inactivated in our HBV-negative tumors, although the numbers were too small for statistical significance. For all loci tested, we found no significant differences in the frequency of losses with HBV status, ethnic background, cirrhosis, grade of tumor, or presence of hemochromatosis.
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PMID:Loss of somatic heterozygosity in hepatocellular carcinoma. 167 14

Mutations of the p53 gene are found in hepatocellular carcinoma (HCC), the most common form of primary liver cancer. Specific mutations might reflect exposure to specific carcinogens and we have screened HCC samples from patients in 14 different countries to determine the frequency of a hotspot mutation at codon 249 of the tumour suppressor p53 gene. We detected mutations in 17% of tumours (12/72) from four countries in south Africa and the southeast coast of Asia. There was no codon 249 mutation in 95 specimens of HCC from other geographical locations including North America, Europe, Middle East, and Japan. Worldwide, the presence of the codon 249 mutation in HCCs correlated with high risk of exposure to aflatoxins and the hepatitis B virus (HBV). Further studies were completed in two groups of HBV-infected patients at different risks of exposure to aflatoxins. 53% of patients (8/15) from Mozambique at high risk of aflatoxin exposure had a tumour with a codon 249 mutation, in contrast with 8% of patients from Transkei (1/12) who were at low risk. HCC is an endemic disease in Mozambique and accounts for up to two thirds of all tumours in men. A codon 249 mutation of the p53 gene identifies an endemic form of HCC strongly associated with dietary aflatoxin intake.
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PMID:p53 mutation in hepatocellular carcinoma after aflatoxin exposure. 168 37

Human hepatocellular carcinomas (HCC) from patients in Qidong, an area of high incidence in China, in which both hepatitis B virus and aflatoxin B1 are risk factors, were analysed for mutations in p53, a putative tumour-suppressor gene. Eight of the 16 HCC had a point mutation at the third base position of codon 249. The G----T transversion in seven HCC DNA samples and the G----C transversion in the other HCC are consistent with mutations caused by aflatoxin B1 in mutagenesis experiments. No mutations were found in exons 5,6,8 or the remainder of exon 7. These results contrast with p53 mutations previously reported in carcinomas and sarcomas of human lung, colon, oesophagus and breast; these are primarily scattered over four of the five evolutionarily conserved domains, which include codon 249 (refs 4-9). We suggest that the mutant p53 protein may be responsible for a selective clonal expansion of hepatocytes during carcinogenesis.
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PMID:Mutational hotspot in the p53 gene in human hepatocellular carcinomas. 201 Nov 86

Mutations in the evolutionarily conserved codons of the p53 tumor suppressor gene are common in diverse types of human cancer. The p53 mutational spectrum differs among cancers of the colon, lung, esophagus, breast, liver, brain, reticuloendothelial tissues, and hemopoietic tissues. Analysis of these mutations can provide clues to the etiology of these diverse tumors and to the function of specific regions of p53. Transitions predominate in colon, brain, and lymphoid malignancies, whereas G:C to T:A transversions are the most frequent substitutions observed in cancers of the lung and liver. Mutations at A:T base pairs are seen more frequently in esophageal carcinomas than in other solid tumors. Most transitions in colorectal carcinomas, brain tumors, leukemias, and lymphomas are at CpG dinucleotide mutational hot spots. G to T transversions in lung, breast, and esophageal carcinomas are dispersed among numerous codons. In liver tumors in persons from geographic areas in which both aflatoxin B1 and hepatitis B virus are cancer risk factors, most mutations are at one nucleotide pair of codon 249. These differences may reflect the etiological contributions of both exogenous and endogenous factors to human carcinogenesis.
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PMID:p53 mutations in human cancers. 190 40

Hepatitis B virus (HBV) is clearly a factor in the development of hepatocellular carcinoma, but its mechanism of action remains obscure. One possibility is that the HBV integration event alters the expression of a nearby growth-regulatory cellular gene. A 9-kilobase (kb) DNA fragment containing an HBV insert plus flanking cellular sequences was cloned from a hepatoma specimen from Shanghai, People's Republic of China. Restriction mapping of the insert revealed a large inverted repeat structure consisting of both viral sequences (encompassing all of the core and pre-S regions and portions of the X and S genes) and at least 3 kb of unique cellular sequences. The virus-cell junction mapped 11 nucleotides from the DR1 region, in a position within the HBV X gene and included in the cohesive overlap region. A probe generated from 1.0 kb of the flanking cellular DNA mapped the viral insert to chromosome 17 in the region designated 17p11.2-17p12, which is near the human proto-oncogene p53. Sequence data from a portion of the flanking cellular DNA revealed a stretch of approximately 70 base pairs that showed highly significant homology with a conserved region of a number of functional mammalian DNAs, including the human autonomously replicating sequence 1 (ARS1).
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PMID:Structural analysis of a hepatitis B virus genome integrated into chromosome 17p of a human hepatocellular carcinoma. 284 34

The human hepatitis B virus (HBV) HBx protein is a small transcriptional activator that is essential for virus infection. HBx is thought to be involved in viral hepatocarcinogenesis because it promotes tumorigenesis in transgenic mice. HBx activates the RAS-RAF-mitogen-activated protein (MAP) kinase signaling cascade, through which it activates transcription factors AP-1 and NF-kappa B, and stimulates cell DNA synthesis. We show that HBx stimulates cell cycle progression, shortening the emergence of cells from quiescence (G0) and entry into S phase by at least 12 h, and accelerating transit through checkpoint controls at G0/G1 and G2/M. Compared with serum stimulation, HBx was found to strongly increase the rate and level of activation of the cyclin-dependent kinases CDK2 and CDC2, and their respective active association with cyclins E and A or cyclin B. HBx is also shown to override or greatly reduce serum dependence for cell cycle activation. Both HBx and serum were found to require activation of RAS to stimulate cell cycling, but only HBx could shorten checkpoint intervals. HBx therefore stimulates cell proliferation by activating RAS and a second unknown effector, which may be related to its reported ability to induce prolonged activation of JUN or to interact with cellular p53 protein. These data suggest a molecular mechanism by which HBx likely contributes to viral carcinogenesis. By deregulating checkpoint controls, HBx could participate in the selection of cells that are genetically unstable, some of which would accumulate unrepaired transforming mutations.
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PMID:Hepatitis B virus HBx protein deregulates cell cycle checkpoint controls. 747 68

Hepatocellular carcinoma (HCC) is among the 10 most common tumors in the world. However, incidence is not evenly distributed across the world. In many instances, the proximate cause for the tumor can be identified. Chronic hepatitis B infection is probably the most common cause, followed by chronic hepatitis C. Other important causes are alcoholic liver disease, hemochromatosis, alpha 1-antitrypsin deficiency, and other chronic liver diseases. Although proximate causes may be identifiable, pathogenesis remains uncertain. Factors that may be important include the presence of Aflatoxin B1 in food, genetic changes induced by the hepatitis B virus, and repeated rounds of necrosis and regeneration, also induced by hepatitis viruses. The genes involved and the mutations necessary for hepatic carcinogenesis are unknown, with the sole exception of the p53 gene, which is probably a late phenomenon. Screening for HCC is widely practiced despite the lack of evidence of improved survival. The screening tests used include alphafetoprotein levels and ultrasonography. Screening can identify small tumors; however, survival may not be improved, because the presence of cirrhosis may limit the number of patients who can undergo resections; recurrences or second primary tumors are common; and the presence of chronic liver disease means that survival may be limited anyway. There are many different forms of therapy available; unfortunately, most have not been compared in randomized controlled trials. Surgery remains the therapy of choice if feasible. All other therapy is palliative, including chemotherapy, chemoembolization, hepatic artery embolization, various forms of radiotherapy, and various forms of ablative therapy.
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PMID:Hepatocellular carcinoma. 753 16

Thirty-six hepatocellular carcinoma (HCC) tissues obtained from 34 patients were classified according to histological diagnosis into six well-differentiated HCC, 20 moderately differentiated HCC and 10 poorly differentiated HCC. High molecular weight DNA was prepared from each tumour and the corresponding non-tumour tissue. Loss of heterozygosity (LOH) on chromosomes 4q, 5q, 10q, 11p, 16q, 17p, mutation of the p53 gene and polymorphism of intron 25 of the retinoblastoma (RB) gene were simultaneously analysed. The patients were composed of three cases of small HCC (the diameter of which was < 3 cm) and 31 cases of advanced HCC. Twenty-nine of 34 (85.3%) patients analysed had been exposed to hepatitis B virus and/or hepatitis C virus. The frequencies of LOH on seven chromosomes were 57.9% in 17p13.3, 45.1% in 17p, 45.1% in 11p, 41.9% in 5q, 41.9% in 16q24, 29.0% in 4q, 25.8% in 10q in advanced HCC (four of well differentiated, 18 of moderately differentiated and nine of poorly differentiated carcinoma). In contrast, LOH was observed on 4q, 5q, 16q and 17p in 33% (1/3) of the small HCC (two of well differentiated and one of moderately differentiated carcinoma). The mutation of the p53 genes and polymorphism of the RB gene were present in 25.8% (8/31) and 12.9% (4/31) of the advanced tumours, respectively, but the mutation was not found in small HCC. LOH on every chromosome and the p53 mutation were observed more frequently in more advanced tumours, and the genetic changes accumulated with the increase of the histopathological grade.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Loss of heterozygosity and analysis of mutation of p53 in hepatocellular carcinoma. 754 Apr 33

Overexpression of the p53 tumour suppressor gene is one of the most common abnormalities in primary human cancers and appears to be a result of point mutation within a highly conserved region of the gene with subsequent encoding for a mutant, more stable protein. In the study, 71 surgically resected hepatocellular carcinomas (HCC) were examined to study the expression of the p53 gene, its relation with clinicopathological parameters and its prognostic significance. Using immunohistochemical detection for mutant p53 protein with monoclonal antibody PAb1801, p53 overexpression was found in 22 tumours (31%) but in none of the non-tumorous liver specimens. Overexpression of p53 was more frequent in tumours with poor cellular differentiation (P = 0.01), in tumours > 5 cm in diameter (P = 0.05), and in those with giant cells present (P = 0.03) and, less significantly, of massive type of Eggel's classification (P = 0.06). It did not have any significant correlation with hepatitis B or C status, background liver disease or serum alpha-fetoprotein levels, nor was it related to tumour invasiveness (venous permeation, direct liver invasion and tumour microsatellite formation). In addition, the presence of p53 mutant protein did not influence tumour recurrence or patients' survival rates. The data suggested that p53 mutation in HCC was associated with a later stage of oncogenesis. However, it was not apparently related to tumour invasiveness/aggressiveness and prognosis.
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PMID:Overexpression of p53 in hepatocellular carcinomas: a clinicopathological and prognostic correlation. 754 99

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