UNIPROT:P04637 - FACTA Search

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

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

Structural mutations in the p53 gene are seen in virtually every form of human cancer. To determine whether such mutations are important for initiating tumorigenesis, we have been studying hepatocellular carcinoma, in which most cases are associated with chronic hepatitis B virus infections. Using a transgenic mouse model where expression of a single HBV gene product, the HBx protein, induces progressive changes in the liver, we show that tumour development correlates precisely with p53 binding to HBx in the cytoplasm and complete blockage of p53 entry into the nucleus. Analysis of tumour cell DNA shows no evidence for p53 mutation, except in advanced tumours where a small proportion of cells may have acquired specific base substitutions. Our results suggest that genetic changes in p53 are late events which may contribute to tumour progression.
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PMID:Functional inactivation but not structural mutation of p53 causes liver cancer. 770 23

Chronic hepadnavirus infection is associated with hepatocellular carcinoma (HCC) in natural hosts such as humans, woodchucks, and Beechey ground squirrels. Several possible oncogenic mechanisms have been identified, including a potential role of the hepadnavirus x (hbx) gene, which transactivates transcription regulated by certain cis-acting sequences, e.g. regulatory sequences of the hepatitis B virus (HBV) and heterologous regulatory sequences of other viruses and cellular genes. The oncogenic potential of hbx is suggested by the observation of HCCs in hbx transgenic mice, the oncogenic transformation of cells expressing hbx in culture, and the transactivation of oncogenes c-myc and c-jun by hbx. Cis-activation of cellular oncogenes N-myc and c-myc by viral promoter insertion has been a common finding in woodchuck hepatitis virus (WHV)-associated HCCs of woodchucks. No such cis-activation of any cellular gene has been shown in virus-associated HCCs of ground squirrels or humans. Amplification and overexpression of the c-myc gene has been a common finding in HCCs of ground squirrels, and is rare in woodchuck or human HCCs. Point mutations in the p53 gene and allelic deletion of p53 have been common findings in human HCCs, but have not been found in HCCs in woodchucks and have been found rarely in ground squirrels. How each of these genetic changes in the different hosts contributes to HCC remains to be determined, but apparently different changes in different HCCs of hepadnavirus-infected hosts suggest that several separate genetic events may contribute to the development of HCC. These events may differ in each host, and some may not result from a direct virus-specific mechanism. Chronic hepadnavirus infection is often associated with chronic necroinflammatory liver disease and cirrhosis, a pathologic process common to several other risk factors for HCC. This suggests that this pathologic process (necroinflammatory disease) may be hepatocarcinogenic regardless of the inciting agent. Thus hepadnavirus infection may play an important role in the development of HCC by causing chronic hepatitis and HCC with the same mechanisms by which other risk factors for HCC cause chronic necroinflammatory liver disease and HCC.
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PMID:Molecular events in the pathogenesis of hepadnavirus-associated hepatocellular carcinoma. 819 85

Mutations in the p53 tumour suppressor gene have been recently described in hepatocellular carcinomas (HCC) from high risk areas such as China and South Africa. Our study was designed to assess the importance of p53 aberrations in HCCs from Europe, where the major risk factors in hepatocarcinogenesis, aflatoxin exposure and chronic hepatitis B virus (HBV) infection, do not play a dominant role. We investigated 22 HCCs and, as controls, their corresponding tumour-free liver tissues, seven livers with primary biliary cirrhosis and four morphologically normal livers. p53 overexpression, which is usually associated with point mutations of the p53 gene, was detected in 10 of the 22 HCCs by immunoblotting and immunohistochemistry. p53 expression was restricted to the nucleus in the positive cells, while all cells in the control tissues were negative. There was no obvious etiological preference in the p53 positive tumours. Particularly, underlying chronic HBV infection did not appear to be associated with an increased rate of p53 overexpression in European HCCs. SSCP and sequence analysis of exons 5-8 of the p53 gene revealed point mutations in six out of eight tumours with increased steady state levels of p53. In conclusion, our study demonstrates increased p53 levels due to point mutations in a significant proportion of European HCCs. The codon 249 mutation, which was detected in one of the cases, is not predominant in these tumours.
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PMID:p53 overexpression is frequent in European hepatocellular carcinoma and largely independent of the codon 249 hot spot mutation. 830 80

Hepatitis C virus infection is a common cause of chronic liver disease and hepatocellular carcinoma. Recently, mutations in the p53 tumor suppressor gene with generation of circulating autoantibodies to p53 protein have been detected in a significant proportion of patients with different malignancies. Using ELISA methods we assessed alpha-fetoprotein and anti-p53 as serological screening parameters for hepatocellular carcinoma in 147 consecutive patients with chronic hepatitis C. Liver cirrhosis was histologically diagnosed in 58 patients (39.5%) and a hepatocellular carcinoma confirmed in seven patients (4.8%). Serum alpha-fetoprotein was raised above 20 ng/ml in 26/147 patients and above 100 ng/ml in 5/147 patients. In 6/7 patients with hepatocellular carcinoma, alpha-fetoprotein was raised above 20 ng/ml, but only in 3/7 cases above 100 ng/ml, resulting in a sensitivity and specificity of 85.7% and 85.7% (alpha-fetoprotein > 20 ng/ml) and 42.9% and 98.6% (alpha-fetoprotein > 100 ng/ml) for the detection of hepatocellular carcinoma, respectively. Autoantibodies to p53 were detected in 3/7 patients with hepatocellular carcinoma, but in 0/140 patients without malignancy (sensitivity 42.9%, specificity 100%). Screening for hepatocellular carcinoma was improved by combining alpha-fetoprotein measurement (level > 100 ng/ml) with detection for anti-p53 (sensitivity 71.4%, specificity 98.6%). In conclusion, the presence of anti-p53 was highly specific for malignancy and independent of alpha-fetoprotein status. Further studies including a larger number of patients with hepatitis C virus-related hepatocellular carcinoma are required to investigate whether serological testing for anti-p53 in combination with alpha-fetoprotein might improve the detection of hepatocellular carcinoma in high-risk patients with liver cirrhosis.
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PMID:Alpha-fetoprotein and p53 autoantibodies in patients with chronic hepatitis C. 853 17

The hepatitis B virus (HBV) genome encodes a 154 amino acid protein termed X (HBx, hepatitis B x protein), which is a promiscuous transcriptional activator of polymerase II and III promoters. HBx upregulates a wide range of cellular and viral genes and is thought to facilitate viral pregenome and mRNA transcription; however, its precise role in the viral replication cycle remains to be elucidated. The functional mechanisms of HBx appear very complex. It was shown to activate transcription factors AP-1 and NF-kappa B vis cytoplasmic pathways including ras-MAP kinase. In contrast, nuclear HBx is thought to activate the transcriptional machinery directly. A second transcriptional activator protein (Mst, middle s transactivator) is encoded by 3'-truncated preS2/S sequences of integrated HBV DNA, but not by the intact viral gene. HBx and Mst may contribute to the pathogenicity of chronic hepatitis B and are suggested to promote hepatocyte transformation via upregulation of cellular proto-oncogenes. Further, HBx may enhance HBV related carcinogenesis by inactivation of the tumour suppressor gene product p53.
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PMID:Hepatitis B virus transcriptional activators: mechanisms and possible role in oncogenesis. 887 69

Two different processes appear to be involved in the initiation of hepatocarcinogenesis by chronic hepatitis B virus (HBV) infection and by chronic hepatitis C virus (HCV) infection. Initiation of hepatocellular carcinoma (HCC) by chronic HBV infection usually occurs early in life; most patients have had onset of HBV infection before the end of childhood, although rare cases of HCC have been reported following HBV infections acquired in adulthood. In contrast, HCV-associated HCC in many cases probably develops after a chronic HCV infection that was acquired during adulthood. HBV-DNA usually is integrated in the tumor DNA of HBV-associated HCC; it produces two proteins that can transactivate known oncogenes in vitro and that theoretically could affect genes at distant sites in vivo. HCV is a nonintegrating virus and no transactivating HCV proteins have been identified so far. In the later stages of hepatocarcinogenesis, "tumor promotion" and "tumor progression," HBV-associated HCC may share certain features with those of HCV-associated HCC. Chronic inflammation and cirrhosis, accompanied by regenerative processes, may function as a tumor promoter, providing a common pathway from chronic HBV or HCV infection to HCC. Tumor progression may be brought about in HCC by mutations of the p53 tumor suppressor gene. Mutations of this gene are common in HCCs, and they are found more often in advanced human HCCs than in small, well-differentiated HCCs. The prevalences of p53 mutations are similar in HBV-associated and HCV-associated HCCs (30-50%). Even in the absence of a p53 mutation, the functions of normal p53 can be inactivated as a result of binding by viral or by cellular proteins. It is not known yet whether this type of binding contributes to the development of HCC, but p53 binding by the HBV X protein in vitro has been reported. Abnormalities of the RB tumor suppressor gene also have been found frequently in HCC patients, particularly in HCCs that contain p53 mutations.
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PMID:Hepatocarcinogenesis: hepatitis viruses and altered tumor suppressor gene function. 887 20

Inactivation of the tumor suppressor p53 seems to be important to the pathogenesis of hepatocellular carcinoma (HCC) associated with chronic hepatitis B virus infection. Although this inactivation may be due to mutations in the p53 gene, recent evidence suggests that the hepatitis B virus-encoded X antigen (HBxAg) binds to and inactivates wild-type p53. Hence, experiments were designed to test the hypothesis that there is a low frequency of p53 mutations in HBxAg-positive HCC. HBxAg and p53 were assayed by immunohistochemistry (IHC) in HCC and nontumor liver from 16 Chinese patients, half of whom were hepatitis B surface antigen carriers. HBxAg was detectable in tumor and/or nontumor cells from all patients by IHC; six of these samples also had detectable p53. To determine whether p53 detection by IHC, and hence stabilization, is associated with mutation, sequencing of p53 exons 5-8 was performed with each patient sample. Wild-type sequences were found in 13 of 16 HBxAg-positive cases (81%). Hence, HBxAg is a common marker of HCC that correlates with the persistence of wild-type p53 among both carriers and noncarriers. The low frequency of p53 mutations in HCC in these patients implies that p53 inactivation may occur predominantly by complex formation with HBxAg.
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PMID:Integrity of p53 in hepatitis B x antigen-positive and -negative hepatocellular carcinomas. 901 69

The mechanism which is responsible for the association of chronic hepatitis B virus (HBV) infection with hepatocellular carcinoma (HCC) is poorly understood. The protein encoded by the HBV X-gene (HBx) has been identified as potentially oncogenic. HBx is a promiscuous indirect trans-activator of a wide range of cellular and viral cis-elements and may disrupt the maintenance of genomic integrity by inhibiting p53 function and binding a putative DNA repair protein (XAP-1). In this report, we show that there is preferential binding of recombinant HBx to damaged DNA through an association with nuclear proteins. We have used the transcriptional activation by HBx of the beta-actin promoter of a beta-galactosidase reporter cassette to label cultured Chang liver cells expressing HBx. We demonstrate that cells expressing HBx are sensitised to the lethal effects of low dose ultraviolet irradiation. These data indicate that HBx interferes with liver cell DNA repair by binding damaged DNA and may predispose to the accumulation of potentially lethal or carcinogenic mutations.
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PMID:Hepatitis B virus X-protein binds damaged DNA and sensitizes liver cells to ultraviolet irradiation. 912 43

Recent studies have implicated aflatoxin B1 (AFB1) exposure as an etiological agent in hepatocellular carcinoma (HCC) and suggested an interaction with chronic hepatitis B virus (HBV) infection. Worldwide AFB1 exposure correlates with a specific mutation at codon 249 in the p53 tumor suppressor gene in liver tumors. This study investigated the roles of HBV and AFB1 in the HCC carcinogenic pathway involving p53 mutations. In cases and controls, chronic HBV infection was assessed by serum hepatitis B surface antigen (HBsAg) and AFB1 exposure by immunohistochemical detection of AFB1-DNA adduct in liver tissue. p53 protein mutations in tumor tissues of HCC cases were identified by immunohistochemistry and DNA mutations by single-stranded conformational polymorphism and sequencing analysis. Both chronic HBsAg carrier status and liver AFB1-DNA adducts were significantly higher in cases than in controls with odds ratios (OR) of 8.4 and 3.9, respectively (P < 0.01). Moreover, HCC risk was greatest in individuals with both AFB1-DNA adducts and HBsAg, suggesting a viral-chemical interaction. Mutant p53 protein, mutations in the p53 gene, and specific codon 249 mutations were detected in 37, 29, and 13%, respectively, of the HCC cases. Most of the DNA mutations were transversions, and the only major clustering site for mutations was codon 249. AFB1-DNA adducts were associated with p53 protein (OR = 2.9, P = 0.054) and DNA mutations (OR = 2.9, P = 0.082) but with borderline significance. All of the codon 249 mutations (n = 12) occurred in HBsAg-seropositive carriers, resulting in an OR of 10.0 (P < 0.05), suggesting that HBV may be involved in the selection of these mutations. The ORs between HBsAg and p53 DNA and protein mutations were 2.6 (P = 0.077) and 1.8 (P > 0.05), respectively. Both p53 DNA and protein mutations were related to tumor stage, suggesting that they are late events. These studies provided further support for the role of aflatoxin exposure in HCC in Taiwan and insight into viral-chemical interactions and molecular pathogenesis.
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PMID:p53 mutations, chronic hepatitis B virus infection, and aflatoxin exposure in hepatocellular carcinoma in Taiwan. 927 15

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