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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatocellular carcinoma, sometimes shows multiple tumor nodules, therefore poses a problem of differential diagnosis between cancers of multifocal and those of metastatic origin. Conventionally, pathological criteria have been used for this purpose, but these are largely subjective. In order to facilitate more objective differential diagnosis of multiple hepatocellular carcinoma, we used the pattern of mutation of the p53 gene as a marker for each tumor nodule. We studied 58 nodules from 26 cases of multiple hepatocellular carcinoma using polymerase chain reaction-single strand conformation polymorphism analysis, a simple method for detecting mutations. p53 gene mutations were detected in 65% (17 of 26) of cases. The internodule mutation patterns were heterogeneous in 11 cases and homogeneous in 6, enabling a multifocal origin to be diagnosed in the former and a metastatic origin in the latter at the genetic level. Moreover, the origin of recurrent tumors was determined from the mutation pattern. It is concluded that analysis of p53 mutations seems to be useful for differentiating the origin of multiple cancers, since the information it yields is essentially objective.
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PMID:Mutation pattern of the p53 gene as a diagnostic marker for multiple hepatocellular carcinoma. 131 27

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

Recent fundamental research has disclosed the presence of multiple genetic alterations including activation of oncogenes and inactivation of tumor suppressor genes in various human cancers. These multiple genetic alterations are thought to be correlated with multiple stages of carcinogenesis and further progression. Hepatocellular carcinoma (HCC) is a typical example. The majority of HCCs are associated with infection by hepatitis virus B or C. In the damaged liver, small nodular lesions develop due to clonal expansion of hepatocytes. Some of these nodules are diagnosed as early HCC of the well differentiated type and correspond to in situ or microinvasive carcinoma. Within these nodules, moderately or poorly differentiated HCCs often emerge as nodule-in-nodule lesions when the diameter of the nodules exceeds 1.5 cm. Ordinary HCCs formed by progression show highly increased cell proliferation, neovascularization, production of high-molecular-mass forms of basic fibroblast growth factor and aneuploidy in some tumors. Corresponding to this stage of malignant progression, HCCs show loss of heterozygosity for multiple chromosomes including chromosomes 4, 16q and 17p. Tumor suppressor gene p53, located on 17p, is frequently mutated in high-grade, but not in early, HCCs. Thus, it is strongly suggested that inactivation of multiple tumor suppressor genes plays an important role in progression, and probably directly or indirectly causes chromosome instability, enhanced cell proliferation and neovascularization.
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PMID:Pathology and molecular mechanisms of multistage human hepatocarcinogenesis. 172 34

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

Hepatocellular carcinoma is one of the most common cancers worldwide. Epidemiologic studies shows a striking correlation between areas where this tumor is prevalent and where hepatitis virus B and C are endemic, contaminations of food with mycotoxin aflatoxin B1, excessive alcohol intake, prolonged cigarette smoking, sexual hormones. Combination of chemical, physical, and genetic insults to individual hepatocytes involve changes in the genome transformed or neoplastic cell, depending to both the activation of oncogenes (e.g., ras) and the inactivation of tumor supressor genes (e.g., p53). Advances in radiologic techniques such as ultrasonography, computed tomography, angiography and dosages of tumor markers like alpha-fetoprotein offers still the best for diagnosis and screening for hepatocellular carcinoma. Then the diagnosis has become possible during the early stages, characterized to be a very well-differentiated tumour that has returned its preexisting liver structure, with a certain proportion have a multicentric origin. Hepatocellular carcinoma carries an extremely poor prognosis, with a median survival between 2-4 weeks, for those without treatment. Surgical resection are the only curative modality for this disease. In these patients two main patterns of intrahepatic recurrence after hepatectomy are defined, and depends on the growth of residual satellite tumours or synchronous and metachronous multicentric carcinogenesis. This evolution is estimated to be nearly 50%, with 5-year survival rate of nearly 30%. The presence of cirrhosis, satellite nodules, venous invasion, the absence of capsule formation and positive surgical margin (< or = 5 mm) were associated with higher intrahepatic recurrence rates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Small hepatocellular carcinoma. New concepts on intrahepatic recurrence after hepatectomy in orthotopic liver transplantation]. 757 79

Hepatocellular carcinoma is common among Alaska Natives. The known risk factor in this population is hepatitis B viral infection; fungal toxins, including aflatoxin B1, have not been detected in foodstuffs. In this series of 14 patients (including 4 siblings and 2 second cousins), 3 patients were less than 12 years old at diagnosis of hepatocellular carcinoma, 8 patients were 13-24 years old, and 3 patients were more than 60 years old. Since p53 mutations occur in 29% of hepatocellular carcinomas worldwide, we tested the tumors for p53 mutations and serum samples for anti-p53 antibodies. Serum samples from these 14 patients did not contain detectable levels of anti-p53 antibodies. Loss of heterozygosity within the p53 locus was not detected in any of 9 informative cases. Immunohistochemical analysis for p53 protein accumulation was negative in all of 11 tumors. DNA sequence analysis of 12 tumor samples showed no evidence of p53 mutation in the highly conserved regions included in exons 5-8. These data, combined with one case from a previous report, indicate a mutation frequency of 0 of 13, which differs significantly from the worldwide frequency of 29% (chi 2 3.9; P = 0.048). These results indicate that liver carcinogenesis among Alaska Natives occurs independently of a traditional p53 pathway. The familial clustering and early onset in this population strongly suggest an inherited genetic predisposition to develop liver cancer. Germline mutations in a tumor suppressor or a cancer susceptibility gene are likely. Future studies of these samples should include investigations of candidate suppressor or susceptibility genes which map to chromosomal regions commonly deleted in liver cancers.
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PMID:p53 is not mutated in hepatocellular carcinomas from Alaska Natives. 789 27

Hepatocellular carcinoma samples obtained from 59 patients at surgical resection were examined for mutations of the third base at codon 249 of the p53 gene, using the polymerase chain reaction and oligonucleotide hybridization techniques. This point mutation, which is frequently observed in HCC cases from Southern Africa and Quidong in China, was not recognized in either 60 hepatocellular carcinomas or 53 noncancerous liver tissue samples from Japan. Thirty-four of 45 patients (75.6%) were positive for the hepatitis C virus, which was a higher rate than that for hepatitis B virus infection (9 of 55; 16.4%). The exposure to aflatoxin B1 was not considered to be remarkable. These results suggest that the point mutation of the third base at codon 249 is not common in Japanese patients, and it is suggested that numerous other factors affect the mutation of the p53 gene and the development of hepatocellular carcinoma.
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PMID:The mutation of codon 249 in the p53 gene is not specific in Japanese hepatocellular carcinoma. 825 41

Hepatocellular carcinoma (HCC) accumulates a mutation of the p53 gene with a common substitution of nucleotide in a particular site. It is hypothesized that infection of hepatitis B virus (HBV) or exposure to aflatoxins could induce it. In Japan, the concentration of aflatoxins in the environment is low; however, infection of HBV and/or hepatitis C virus (HCV) is frequently seen in patients with HCC. The purpose of our studies was to determine whether these hepatoviral factors influence p53 alterations. In our results, p53 abnormalities, which were composed of loss of heterozygosity (LOH) and/or point mutation, were shown in 39% of patients. We postulated that they occurred at late stages in tumor growth based on the following two results. LOH analysis on p53 showed that most of the tumor nodule consisted of two phenotypes, LOH and non-LOH cancer cells. The p53 abnormalities correlated with the grade of cancer cell atypia which advanced with tumor growth. HBV and HCV infections were identified by polymerase chain reaction using DNA extracted from cancerous and noncancerous regions of the liver. By these methods, the patients who had been infected with either HBV or HCV showed an incidence of p53 abnormalities (45%) higher than those infected by neither (13%). However, the detection rate of these viruses was lower in the HCC region (33%) than that in the noncancerous region (56%) in cases with mutated p53. The low rate of HCV detection (22%) in the HCC region with altered p53 was attributable to these different viral detection rates. There was a difference in pattern of p53 mutational changes in patients depending upon whether they were infected by HBV or by HCV. Two of three HBV-infected patients had a transversional change of nucleotide at the G:C site to T:A. However, in cases with HCV, four of eight patients had a transitional change of nucleotide of p53. These results showed that HBV and HCV infections affect carcinogenic pathways causing p53 abnormalities independently.
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PMID:p53 gene abnormalities are closely related to hepatoviral infections and occur at a late stage of hepatocarcinogenesis. 826 44

Hepatocellular carcinoma (HCC) is a heterogeneous disease. HCC derived from different stages of cellular differentiation may have different clinical and pathobiological behavior. To test the hypothesis that HCC can be classified into two types based on its phenotypic markers (hepatocellular and biliary differentiation), liver tissues from 290 Chinese patients with HCC were studied. Expression of hepatocytic differentiation marker (HEP-PAR-reactive antigen), biliary differentiation markers (AE1-AE3, cytokeratin-19), proliferation markers (Ki-67, proliferating cell nuclear antigen), alpha-fetoprotein, p53, and transforming growth factor-alpha in the tumor tissue were assessed by immunohistochemistry. Hepatocytic differentiation marker was detected in 99.7% and biliary differentiation markers were detected in 29.3% of these tumors. Clinically, no patient with HCC with biliary markers survived for more than 27 weeks compared with a 22.6% survival rate in patients with HCC negative for biliary markers. HCCs positive for the biliary differentiation markers showed features of more aggressive disease in terms of poorer cellular differentiation (P < 0.001) and high-level expression of proliferation markers (Ki-67, P < 0.001; proliferating cell nuclear antigen, P = 0.0114) compared with HCCs without biliary markers. HCCs with biliary markers also had a higher level of expression of alpha-fetoprotein (P < 0.001) and p53 (P = 0.0077). Classification of HCCs based on its phenotypic (differentiation) markers has both clinical and pathobiological implications.
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PMID:Classification of hepatocellular carcinoma according to hepatocellular and biliary differentiation markers. Clinical and biological implications. 886 66

Hepatocellular carcinoma (HCC), a chemoresistant tumour, is the most common fatal cancer in Taiwan. Hepatocellular carcinoma frequently expresses a high level of P-glycoprotein (P-gp), which is a specific phenotype of a multidrug-resistance gene, and harbours mutations of the tumour suppressor gene p53. A modulatory relationship between p53 and P-gp has been reported. In this study, we analysed the expression of P-gp in relation to chemotherapeutic response and p5353 protein expression in advanced HCC. Prechemotherapeutic tumour samples were obtained from 25 patients with HCC which had been treated with either etoposide (VP-16) or doxorubicin. P-glycoprotein and p53 in HCC were visualized by immunohistochemical staining using the monoclonal antibodies JSB-1 and DO1, respectively. We investigated the correlation of P-gp expression with chemotherapeutic responses, clinicopathological features and p53 protein expression. In our study, seven cases achieved partial remission, and the remaining 18 cases had a poor response to chemotherapy. Expression of P-gp was observed in 13 tumours (52%). Positive P-gp protein expression was significantly associated with non-responders (8% or 1/13 vs 50% or 6/12, P = 0.03). Thus, P-gp expression inversely correlated with chemotherapeutic response. Expression of p53 protein was seen in 12 cases and did not correlate with chemosensitivity or P-gp expression. In summary, P-gp expression correlates with the chemosensitivity of HCC that has been treated with VP-16 or doxorubicin and p 53 mutations do not appear to be a major determinant of P-gp expression in advanced HCC.
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PMID:Expression of P-glycoprotein and p53 in advanced hepatocellular carcinoma treated by single agent chemotherapy: clinical correlation. 930 8


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