UNIPROT:P04637 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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

Recent advances in imaging techniques have led to the discovery of small hepatocellular carcinomas (HCC). The small HCC most often exhibit low-grade malignant (LGM) or extremely well differentiated features, which are different from those of advanced, full-blown HCC. The LGM-HCC present a serious diagnostic challenge to pathologists and must be differentiated from benign (reactive) and atypical (borderline) hyperplastic nodules. Analysis of small HCC revealed that hepatocarcinogenesis frequently occurs stepwise from atypical hyperplasia to LGM-HCC and subsequently to advanced HCC. The HCC arise in irregular regeneration in chronic liver disease and in the essentially normal liver after steroid administration. Although the tumor suppressor gene, p53, is revealed to be often mutated in advanced HCC, the genetic events corresponding to each stage of multistep hepatocarcinogenesis are not clarified at all.
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PMID:Small hepatocellular carcinoma: its relationship to multistep hepatocarcinogenesis. 778 87

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

Despite good evidence for p53 dysfunction in human hepatocellular carcinomas, little is known of the significance of p53 to normal hepatocytes and whether p53 dysfunction is relevant to early hepatocarcinogenesis. We have therefore examined the consequences of targeted p53 deficiency in hepatocytes for regulation of apoptosis, proliferation, and ploidy. p53 deficiency was silent in normal liver and did not affect progression from diploidy to polyploidy in the aging liver. However, in primary culture the absence of p53 resulted in increased hepatocyte proliferation indices and decreased sensitivity to proliferation inhibition by TGFbeta. Moreover, p53-deficient cells continued to survive and proliferate under conditions of minimal trophic support that led to growth arrest and apoptosis of wild-type cells. In vivo, p53-deficient mice had enhanced proliferative responses to both xenobiotic hepatomitogen and CCl4-induced liver necrosis, although lack of persistent proliferation showed that other control mechanisms are important. There was no simple relationship between p53 and apoptosis after DNA damage because UV irradiation led to p53-independent apoptosis, even though p53 was stabilized. However, p53 did couple DNA damage to growth arrest, and abnormal mitoses after gamma-irradiation of regenerating p53 null livers demonstrated circumstances where loss of G1 and G2 checkpoints may generate abnormal ploidy. Thus p53 becomes important when hepatocytes are released from G0 and stressed, sensitizing them to mitogen and cytokine regulators of cell cycle progression and apoptosis. Hence p53 deficiency is likely to be significant in an environment of persistent regenerative stimuli and unfavorable trophic support or in the presence of other enabling genetic lesions. This model is relevant to human hepatocarcinogenesis, which almost always occurs against a background of chronic hepatocellular destruction in hepatitis and cirrhosis. In that context, by reducing the need for cytokine support and disabling DNA damage-induced growth arrest, p53 deficiency should facilitate the expansion of preneoplastic clones in chronic liver disease.
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PMID:p53 Deficiency in liver reduces local control of survival and proliferation, but does not affect apoptosis after DNA damage. 921 83

Patients with hepatitis C have an increased risk of developing hepatocellular carcinoma (HCC). This is related to the stage of chronic liver disease, as characterized histologically by hepatic fibrosis and architectural distortion, but it is unclear whether histological markers can define the risk of developing HCC. We conducted a case-control immunohistochemical study of Ki-67, a marker for hepatocellular proliferation, in livers of 18 patients who had developed HCC more than 2 years after the biopsy specimen had been taken. Using conditional logistic regression analysis, the results were compared with 18 selected controls, who were age-matched patients with hepatitis C of similar histological stage who had not developed HCC. We also examined livers for cellular dysplasia, p53 mutations, and bcl-2 overexpression, and assessed whether the results could be correlated with demographic and disease-related variables, such as gender, region of birth, alcohol consumption, severity of liver disease, HCV genotype, and markers of hepatitis B virus (HBV) infection. Livers from patients who developed HCC were more often positive for Ki-67 (13 of 18 [72%] v 9 of 18 [50%]; P = .06) and tended to have higher mean Ki-67 scores (6 +/- 7.5 v 3 +/- 4.4; P = .10) compared with control cases. In the HCC-predisposed group, three livers showed large cell dysplasia, two were positive for p53 mutations, and two for bcl-2 overexpression. In contrast, in the non-HCC group, only one case had dysplasia, and none were positive for immunostaining for p53 or bcl-2 mutations. With the exception of one case, all livers with large cell dysplasia or p53 mutations and bcl-2 overexpression were also positive for Ki-67. Twelve (55%) of the 22 Ki-67-positive cases were anti-HBc-positive in the serum, in contrast to 2 of 14 (14%) patients in the Ki-67-negative group (P = .01). Patients with evidence of past infection with HBV were more often Ki-67 positive than those who had no evidence of past infection (85% [11 of 13] v 45% [10 of 22]; P = .02). There were no other associations between demographic or disease-related variables and Ki-67 expression. Increased hepatocellular proliferative activity, as assessed by Ki-67 expression, may be one factor indicative of an increased risk of developing HCC among patients with chronic hepatitis C. Furthermore, past infection with HBV appears to be an important correlate of increased hepatocellular proliferation in hepatitis C.
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PMID:Hepatocellular proliferation and development of hepatocellular carcinoma: a case-control study in chronic hepatitis C. 982 7

In hepatocellular carcinoma (HCC) of patients from the Western hemisphere, mutations in the p53 tumour suppressor gene are present in up to 37% of cases. Conformational change and cellular accumulation can initiate an immune response with generation of circulating autoantibodies to p53 protein. In the present study, we investigated 711 consecutive patients with chronic liver disease to evaluate the sensitivity and specificity of autoantibodies to p53 protein as a serological marker for HCC. Detection of p53 autoantibodies was performed using an enzyme-linked immunosorbent assay with immobilised recombinant p53 protein. Liver cirrhosis was present in 259 patients (36.4%) and a HCC was diagnosed in 75 patients (10.6%). Autoantibodies to p53 protein were detectable in 15 of 377 patients with chronic liver disease (4.0%) and in 10 of 259 patients presenting with liver cirrhosis (3.9%). All 25 p53 autoantibody-positive/HCC-negative patients were carefully investigated and no underlying malignancy was clinically detected, suggesting that elevated p53 antibody levels may not exclusively be detectable in patients with malignant disease. In patients with clinically manifest HCC, p53 autoantibodies were detected in 17 of 75 cases, thus resulting in a sensitivity of 22.7% and a specificity of 96.1%. In contrast, assessment of serum alpha-fetoprotein (AFP) resulted in a sensitivity and specificity of 69.3 and 91.8% (AFP > 20 ng/ml) and 53.3 and 99.1% (AFP > 100 ng/ml) for the detection of HCC, respectively. The data of the present study reveal that the presence of p53 autoantibodies in patients with chronic liver disease is not completely specific for HCC. Moreover, we obtained no direct evidence that p53 autoantibody formation precedes the clinical diagnosis of HCC. However, serological screening for HCC might be improved by combining AFP and p53 autoantibody assays.
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PMID:Clinical evaluation of autoantibodies to p53 protein in patients with chronic liver disease and hepatocellular carcinoma. 984 79

This study evaluated whether the codon 72 p53 polymorphism was related to hepatocellular carcinoma (HCC). Genotypes of p53 were determined in 80 incident cases of HCC and 328 controls nested in a cohort study of 4,841 male chronic hepatitis B carriers. No overall increase in HCC risk with the Pro variant allele of the p53 polymorphism was apparent. However, there were synergistic effects on HCC development for the Pro allele with chronic liver disease and family history of HCC in first-degree relatives. Compared with subjects without the Pro allele and chronic liver disease, the increase in HCC risk associated with chronic liver disease among those without the Pro allele was only threefold. Subjects with both chronic liver disease and the Pro allele were at an increased risk of 7.60 (95% CI = 2.28-25.31). When subjects without family history of HCC and the Pro allele were considered as the reference group, there was no apparent increased risk of HCC for those without the Pro allele who had family history of HCC. Among those with both factors, there was a significantly increased risk of 3.29 (95% CI = 1.10-9.85). Both cigarette smoking and glutathione S-transferase M1 genotype modified the risk of HCC associated with the p53 polymorphism. Significantly increased risk associated with the p53 genotype was observed only among smokers who were glutathione S-transferase-null (Pro/Pro vs. Arg/Arg: odds ratio = 6.46; 95% CI = 1.55-26.94). The p53 polymorphism also interacted with the cytochrome P450 1A1 and carotenoid levels in smoking-related hepatocarcinogenesis.
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PMID:A p53 genetic polymorphism as a modulator of hepatocellular carcinoma risk in relation to chronic liver disease, familial tendency, and cigarette smoking in hepatitis B carriers. 1005 70

In spite of the importance of periodic screening for hepatocellular carcinoma (HCC) by ultrasonography (US) in patients with underlying liver disease, the clinicopathological characteristics of hyperechoic nodules have not been clearly evaluated. The aim of this study was to characterize the pathological and proliferating features of small hyperechoic nodules. Tissue specimens of 55 hyperechoic and 107 hypoechoic nodules less than 20 mm in diameter in patients with chronic liver disease were obtained by echo-guided needle biopsy and examined histopathologically. Of these, 42 (76%) hyperechoic and 56 (52%) hypoechoic nodules were diagnosed as HCC, and 82% of hyperechoic HCCs contained fatty change and/or clear cell change. In addition, immunohistochemical staining using cyclin D1, p53, and Ki-67 was examined. A high-level expression of cyclin D1 was found in only 5% of hyperechoic HCCs, in contrast to 38% of hypoechoic HCCs (P <.02). The labeling index of Ki-67 in hyperechoic HCCs was lower than in hypoechoic HCCs (4.2% vs. 8.9%; P <.003). However, there was no difference on p53 staining between them. Retrospective follow-up study revealed that hyperechoic nodules showed slow growth (doubling time, median: 1,403 days) initially, and came to show rapid growth (doubling time, median: 56 days). From these results, small hyperechoic nodules in chronic liver diseases are worth notice as candidates for well-differentiated HCC with low cyclin D1 and Ki-67 expression.
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PMID:Small hyperechoic nodules in chronic liver diseases include hepatocellular carcinomas with low cyclin D1 and Ki-67 expression. 1034 14

The aim of this study is to elucidate the important role of the previous infection of HBV, and the relations among HBV genome integration and p53 gene mutation, telomerase activity and genetic instability in liver tissue with HBsAg-negative (NB) and anti-HCV negative (NC) hepatocellular carcinoma (HCC). We examined the backgrounds of 34 NB and NC (NBNC) Japanese patients with chronic liver disease (CLD) patients not associated with HCC and 26 NBNC CLD patients with HCC. HBV genome integration into host cell genome, p53 gene mutation telomerase activity and genetic instability were examined in 6 with NBNC HCC (NBNC-HCC) tumorous tissue (T) and non-tumorous tissues (NT). In the NBNC group, HBV-related antibody positive patients with HCC are significantly more than the patients without HCC. Moreover, concerning the stage of the coexisted liver diseases, in NBNC CLD, LC patients with HCC is 19 of 26 (73.1%) , on the other hand, LC patients without HCC is 16 of 34 (47.1%). LC patients with HCC group is significantly more than that without HCC. Three (50%) of 6 in T and 3 cases (50% ) in NT were found to integrated genome of HBV. p53 gene mutation was observed in 3 (50%) of T. Concerning the telomerase activity, 3 of 6 cases (50%) in T and 1 case in NT was recognized. There was no genetic instability (LOH or RER) of D2S123, D3S1067 and TP 53 in T and NT. Finally in T of NBNC HCC cases, TTVDNA was detected in 3 of 5. Even in the HBsAg-negative and anti-HCV negative HCC cases, CLD coexisting with LC, previous HBV infection and HBVDNA integration were observed. There were a few cases with HBVDNA integration, p53 gene mutation, telomerase activity and genetic instability, simultaneously in HCC tissue, and in some cases, the coexistence with TTVDNA were concurrently confirmed. It is speculated that the important role of the previous infection of HBV may have also been proposed for HCC oncogentic progression in NBNC CLD [corrected].
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PMID:The role of previous infection of hepatitis B virus in Hbs antigen negative and anti-HCV negative Japanese patients with hepatocellular carcinoma: etiological and molecular biological study. 1060 85

The worldwide incidence of hepatocellular carcinoma (HCC) is approximately one million cases a year. This makes HCC one of the most frequent human malignancies, especially in Asia and Africa, although the incidence is increasing also in the western world. HCC is a complication of chronic liver disease, with cirrhosis as the most important risk factor. Viral co-pathogenesis makes cirrhosis due to hepatitis B (HBV) and hepatitis C virus (HCV) infection a very important factor in the development of HCC. As curative therapy is often ruled out due to the late detection of HCC, it would be attractive to find parameters which predict malignant transformation in HBV- and HCV-infected livers. This study has used comparative genomic hybridization (CGH) to analyse 26 HCCs (11 non-viral, nine HBV, six HCV) and 12 concurrent dysplasias (five non-viral, five HBV, two HCV). Frequent gain (> or =25% of all tumours) was detected, in decreasing order of frequency, on 8q (69%), 1q (46%), 17q (46%), 12q (42%), 20q (31%), 5p (27%), 6q (27%), and Xq (27%). Frequent loss (> or =25% of all tumours) was found, in decreasing order of frequency, on 8p (58%), 16q (54%), 4q (42%), 13q (39%), 1p (35%), 4p (35%), 16p (35%), 18q (35%), 14q (31%), 17p (31%), 9p (27%), and 9q (27%). Minimal overlapping regions could be determined at multiple locations (candidate genes in parentheses). Minimal regions of overlap for deletions were assigned to 4p14-15 (PCDH7), 8p21-22 (FEZ1), 9p12-13, 13q14-31 (RB1), 14q31 (TSHR), 16p12-13.1 (GSPT1), 16q21-23 (CDH1), 17p12-13 (TP53), and 18q21-22 (DPC4, DCC). Minimal overlapping amplified sites could be seen at 8q24 (MYC), 12q15-21 (MDM2), 17q22-25 (SSTR2, GH1), and 20q12-13.2 (MYBL2, PTPN1). A single high level amplification was seen on 5q21 in an HBV-related tumour. Aberrations appeared more frequent in HBV-related HCCs than in HCV-associated tumours (p=0.008). This was most prominent with respect to losses (p=0.004), specifically loss on 4p (p=0.007), 16q (p=0.04), 17p (p=0.04), and 18q (p=0.03). In addition, loss on 17p was significantly lower in non-viral cancers than in HBV-related HCC (p<0.001). Furthermore, loss on 13q was more prevalent in HCCs in non-cirrhotic livers (p=0.02), thus suggesting a different, potentially more aggressive, pathway in neoplastic progression. A tendency (p=0.07) was observed for loss on 9q in high-stage tumours; no specific changes were found in relation to tumour grade. A subset of the HCC-associated genetic changes was disclosed in the preneoplastic stage, i.e. liver cell dysplasia. This group of dysplasias showed frequent gain on 17q (25%) and frequent loss on 16q (33%), 4q (25%), and 17p (25%). The majority of the dysplasias with alterations revealed genetic changes that were also present in the primary tumour. In conclusion, firstly, this study has provided a detailed map of genomic changes occurring in HCC of viral and non-viral origin, and has suggested candidate genes. Loss on 17p, including the TP53 region, appeared significantly more prevalent in HBV-associated liver cancers, whereas loss on 13q, with possible involvement of RB1, was distinguished as a possible genetic biomarker. Secondly, CGH analysis of liver cell dysplasia, both viral and non-viral, has revealed HCC-specific early genetic changes, thereby confirming its preneoplastic nature. Finally, genes residing in these early altered regions, such as CDH1 or TP53, might be associated with hepatocellular carcinogenesis.
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PMID:Molecular cytogenetic evaluation of virus-associated and non-viral hepatocellular carcinoma: analysis of 26 carcinomas and 12 concurrent dysplasias. 1100 97

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