UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

p73 has been recently identified as a new structural and functional homologue of the transcription factor p53. It is expressed in either a full-length form, alpha, or a shorter beta mRNA variant, with exon 13 spliced out. Here we report the identification and functional characterization of two new p73 splicing variants, gamma (splicing out exon 11) and delta (splicing out exons 11, 12, and 13). Both gamma and delta p73 variants are expressed in human peripheral blood lymphocytes, primary keratinocytes, and different tumor cell lines, including neuroblastoma, glioblastoma, melanoma, hepatoma, and leukemia. The expression pattern of the four p73 splicing variants differs in both primary cells of different lineage and established cell lines even within the same type of tumor. A two-hybrid assay was used to characterize the homodimeric and heterodimeric interactions between the p73 variants, and showed that neither p73gamma nor p73delta interact with p53, whereas p73gamma showed strong interactions with all p73 isoforms, and p73delta binds efficiently p73alpha and p73gamma but only weakly p73beta. At the functional level, p73gamma is significantly less efficient in activating transcription of the p21(Waf1/Cip1) promoter than p53 or p73beta, whereas the effect of p73delta is intermediate and comparable to that of p73alpha. The ability of the different p73 variants to affect cell growth in p53 null osteosarcoma SAOS-2 cells correlates with their transcriptional activity on the p21(Waf1/Cip1) promoter: p73beta is the most efficient in inhibiting colony formation, whereas p73gamma is almost ineffective. Our results suggest that p73 isoforms may be differentially regulated, with four different isoforms capable of interacting among themselves and with p53. The relative expression level of each splice variant may modulate p73 transcriptional and growth suppression activities by affecting heterodimer formation.
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PMID:Two new p73 splice variants, gamma and delta, with different transcriptional activity. 980 88

Accumulating evidence has demonstrated that aberration of the p53 tumour-suppressor gene is one of the pivotal genetic events in hepatocellular carcinogenesis. Recent reports suggest that the product of hepatitis B virus (HBV) interacts with p53 and that the hepatitis C virus (HCV) core protein reduces p53 expression. A novel p73 gene, which is related to p53, has recently been identified and mapped to chromosome 1p36.3, which is a locus of multiple tumour-suppressor genes for many cancers, including hepatocellular carcinoma (HCC) and neuroblastoma. Here, we investigated mRNA expression, allelotype and mutation of p73 in 48 HCCs obtained from untreated patients. Reverse transcriptase polymerase chain reaction (RT-PCR) revealed that p73 mRNA was expressed ubiquitously at low levels in all the tumour tissues, as well as in the adjacent normal liver tissues. The frequency of p73 loss of heterozygosity was observed in 20% of HCCs, but PCR-single strand conformation polymorphism (SSCP) analysis showed no mutations in the 48 tumours except for three types of polymorphisms. These results suggest that p73 may play a role in hepatocellular carcinogenesis in a different manner from a Knudson two-hit model. The regulatory mechanism of interaction between p73 and hepatitis viruses remains to be determined.
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PMID:Absence of mutation of the p73 gene localized at chromosome 1p36.3 in hepatocellular carcinoma. 1040 9

Transcription of hepatitis B Virus (HBV), an important risk factor of hepatocellular carcinoma (HCC), is controlled by cellular transcription activators including some of the cellular signaling targets. Consequently, HBV transcription rate changes in response to the cellular physiological conditions. In this report we investigated HBV gene expression and the role of physiological levels of the viral X protein (pX) under cisplatin induced genotoxic stress. We show that under these conditions the RNA level of an HBV mutant which does not express pX is sharply reduced. Studies revealed that transcription repression is responsible for the observed reduction in HBV RNA level. Repression of HBV transcription was obtained only in the p53 proficient cells. Furthermore, HBV transcription rate is recovered by the cotransfected p53 dominant negative plasmid, indicating that p53 is directly responsible for HBV transcription repression. Unexpectedly, p73, the recent p53 homologue, does not repress but rather activates HBV transcription. Interestingly, pX produced either by the HBV genome or by a cotransfected plasmid, relieves the p53 mediated repression. Collectively, these results attribute a physiological role to p53-inactivation by pX, and explain how pX may support HCC development.
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PMID:HBV transcription repression in response to genotoxic stress is p53-dependent and abrogated by pX. 1060 9

Loss of heterozygosity (LOH) at 1p36 occurs in a number of solid tumors including hepatocellular carcinoma (HCC). Recently, a novel gene, p73, has been identified at 1p36.33. p73 is structurally and functionally related to p53 located at 17p13.1, which is a target for inactivation in HCCs. p73 produces at least two splicing variants, p73alpha and beta, and a polymorphism in exon 2 results in two alleles, GC or AT. Initially, only the AT allele and p73alpha transcripts were identified in malignant cell lines, suggesting a role for these in the malignant phenotype. The aims of this study were to determine the extent of LOH at 1p36 and 17p13.1 in HCCs from Australia and South Africa, and to identify patterns of p73 mRNA and p73 and p53 protein expression. LOH at 1p36 was found in 8 of 25 Australian and 6 of 10 South African cases. p73 mRNA expression occurred in 8 HCCs, but not in nonmalignant liver tissue. Two of these 8 HCCs had LOH of 1p36. Both alpha and beta transcripts were observed in GC/GC homozygotes and GC/AT heterozygotes. No p73 protein expression was observed by immunohistochemistry in nonmalignant liver tissue or in HCC. p53 inactivation appeared to be associated with up-regulation of p73 expression, suggesting a compensatory role for p73 in this situation. The LOH at 1p36 implies a liver-specific tumor suppressor gene is in this region. However, the up-regulation of p73 mRNA suggests p73 is not the target of this loss.
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PMID:p73 is up-regulated in a subset of hepatocellular carcinomas. 1070 49

The p73 gene has been mapped to 1p36.33, a region which is frequently deleted in a wide variety of neoplasms including tumours of neuroectodermal origin. The p73 protein shows structural and functional homology to p53. For these reasons, p73 was considered as a positional and functional candidate tumour suppressor gene. Thus far, mutation analysis has provided no evidence for involvement of p73 in oligodendrogliomas, lung carcinoma, oesophageal carcinoma, prostatic carcinoma and hepatocellular carcinoma. In neuroblastoma, two mutations have been observed in a series of 140 tumours. In view of the occurrence of 1p deletions in Merkel cell carcinoma (MCC) and the location of p73 we decided to search for mutations in the p73 gene in five MCC cell lines and ten MCC tumours to test potential tumour suppressor function for this gene in MCC. In view of the possible complementary functions of p73 and TP53 we also examined the status of the TP53 gene. Sequence analysis of the entire coding region of the p73 gene revealed previously reported polymorphisms in four MCCs. In one MCC tumour, a mis-sense mutation located in the NH2-terminal transactivation region of the p73 gene was found. These results show that p73, analogous to neuroblastoma, is infrequently mutated in MCC. This is also the first report in which the role of TP53 in MCC has been investigated by sequencing the entire coding region of TP53. TP53 mis-sense mutations and one non-sense mutation were detected in three of 15 examined MCCs, suggesting that TP53 mutations may play a role in the pathogenesis or progression of a subset of MCCs. Moreover, typical UVB induced C to T mutations were found in one MCC cell line thus providing further evidence for sun-exposure in the aetiology of this rare skin cancer.
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PMID:Mutation analysis of P73 and TP53 in Merkel cell carcinoma. 1073 53

p73, a structural homologue of the tumor suppressor gene, p53, has recently been identified and mapped to chromosome 1p36, where genomic loss of heterozygosity (LOH) often occurs in human hepatocellular carcinoma (HCC). To determine whether p73 is involved in the development of HCC and whether there is an inverse correlation between the mutations of p73 and p53, we examined 22 paired tumors/noncancerous liver tissues for allelic expression, LOH and mutation of p73 and for mutation of p53. p73 was biallelically expressed in noncancerous liver tissues and in 7 out of the 8 informative tumors. One tumor tissue expressed only a single allele. LOH of p73 was found in 2 out of the 11 (18%) informative cases. A tumor-specific five-nucleotide deletion mutation causing a reading frameshift/early truncation of p73 DNA-binding domain was found, in which case no concomitant mutation in the DNA-binding domain of p53 was identified. Nine out of the 22 cases (41%) contained tumor-specific mutations in the DNA-binding domain of p53. Two of the three cases with p73 genetic alternations had a tumor size of less than 2 centimeters. These results suggest that p73 is a biallelically expressed gene in the liver and that allelic loss and mutation of p73 is infrequent and may occur early in HCC. p73 is unlikely to be the putative tumor suppressor gene located at chromosome 1p36 in HCC.
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PMID:Genetic alternations of p73 are infrequent but may occur in early stage hepatocellular carcinoma. 1092 60

p53 and p73 proteins activate similar target genes and induce apoptosis and cell cycle arrest. However, p53, but not p73 is considered a tumour-suppressor gene. Unlike p53, p73 deficiency in mice does not lead to a cancer-prone phenotype, and p73 gene is not mutated in human cancers, including hepatocellular carcinoma. Here we report that normal liver cells express only DeltaN-p73 transcript forms giving rise to the synthesis of N-terminally truncated, transcriptionally inactive and dominant negative p73 proteins. In contrast, most hepatocellular carcinoma cells express TA-p73 transcript forms encoding full-length and transcriptionally active p73 proteins, in addition to DeltaN-p73. We also show that together with the acquired expression of TA-p73, the 'retinoblastoma pathway' is inactivated, and E2F1-target genes including cyclin E and p14(ARF) are activated in hepatocellular carcinoma. However, there was no full correlation between 'retinoblastoma pathway' inactivation and TA-p73 expression. Most TA-p73-expressing hepatocellular carcinoma cells have also lost p53 function either by lack of expression or missense mutations. The p73 gene, encoding only DeltaN-p73 protein, may function as a tumour promoter rather than a tumour suppressor in liver tissue. This may be one reason why p73 is not a mutation target in hepatocellular carcinoma.
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PMID:Acquired expression of transcriptionally active p73 in hepatocellular carcinoma cells. 1152 99

We performed a genome-wide scan for loss of heterozygosity (LOH) in 22 intrahepatic cholangiocarcinoma (ICC) cases using 168 polymorphic microsatellite markers throughout all of the human chromosomes and 48 markers of which LOH is reportedly characteristic of hepatocellular carcinoma (HCC). Markers with LOH in more than 30% of informative cases were observed at 21 loci. Among these, eight markers on 6q (three loci), 4q (two loci), 9q, 16q, and 17p shared high frequencies of LOH with HCC in our previous study. As for gross appearance, mass-forming type tumors showed higher frequency of LOH (P < 0.001) compared with other types. Compared by tumor size (< or =5 cm versus >5 cm), number (multiple versus solitary), and the International Union Against Cancer TNM classification (stage IVB versus II-IVA), LOH was observed more frequently in advanced stages (P < 0.01, respectively). However, LOH frequency does not differ regardless of lymph node status (pN0 versus pN1). Frequent LOH on 1p36 including the p73 locus was noted in large tumors without lymph node metastasis. These suggest that ICC shares some common carcinogenic steps with HCC such as LOH of 4q and 6q and that inactivation of tumor suppressor genes on chromosome 1p36 contributes to progression of ICC but not to metastatic traits.
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PMID:Comprehensive allelotyping of human intrahepatic cholangiocarcinoma. 1155 75

p73 is the first identified homolog of p53, but its function has not been established. Our study investigated the expression of p73 in liver tissue of patients with hepatitis C virus (HCV)-associated hepatocellular carcinoma (HCC). RT-PCR was performed on RNA extracted from tumorous and nontumorous liver tissue of HCV-associated HCC, and control tissue and the cDNA were sequenced. Anti-p73 polyclonal antibodies were used for protein analysis and immunohistochemistry, and patients' sera were analyzed for anti-p73 antibodies by radioimmunoassay. Analysis of the p53 gene was performed by SSCP and RFLP-PCR. The p73 mRNA and protein were highly expressed and accumulated in HCC tissues. Immunohistochemical studies revealed significant immunoreactivity in the nuclei of HCC cells. No mutations were detected in the p73 gene or in p53, and no loss of heterozygosity of the p53 gene was found. Anti-p73 antibodies were detected in sera of HCC patients, but were not significantly different from that occurring in non-HCV or non-HCC patients. In conclusion, p73 protein is overexpressed and accumulates in the nuclei of HCV-associated HCCs and may play a role in HCC development.
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PMID:p73 overexpression and nuclear accumulation in hepatitis C virus-associated hepatocellular carcinoma. 1199 98

The prognosis of hepatocellular carcinoma (HCC) still remains dismal, although many advances in its clinical study have been made. It is important for tumor control to identify the factors that predispose patients to death. With new discoveries in cancer biology, the pathological and biological prognostic factors of HCC have been studied quite extensively. Analyzing molecular markers (biomarkers) with prognostic significance is a complementary method. A large number of molecular factors have been shown to associate with the invasiveness of HCC, and have potential prognostic significance. One important aspect is the analysis of molecular markers for the cellular malignancy phenotype. These include alterations in DNA ploidy, cellular proliferation markers (PCNA, Ki-67, Mcm2, MIB1, MIA, and CSE1L/CAS protein), nuclear morphology, the p53 gene and its related molecule MD M2, other cell cycle regulators (cyclin A, cyclin D, cyclin E, cdc2, p27, p73), oncogenes and their receptors (such as ras, c-myc, c-fms, HGF, c-met, and erb-B receptor family members), apoptosis related factors (Fas and FasL), as well as telomerase activity. Another important aspect is the analysis of molecular markers involved in the process of cancer invasion and metastasis. Adhesion molecules (E-cadherin, catenins, serum intercellular adhesion molecule-1, CD44 variants), proteinases involved in the degradation of extracellular matrix (MMP-2, MMP-9, uPA, uPAR, PAI), as well as other molecules have been regarded as biomarkers for the malignant phenotype of HCC, and are related to prognosis and therapeutic outcomes. Tumor angiogenesis is critical to both the growth and metastasis of cancers including HCC, and has drawn much attention in recent years. Many angiogenesis-related markers, such as vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), platelet-derived endothelial cell growth factor (PD-ECGF), thrombospondin (TSP), angiogenin, pleiotrophin, and endostatin (ES) levels, as well as intratumor microvessel density (MVD) have been evaluated and found to be of prognostic significance. Body fluid (particularly blood and urinary) testing for biomarkers is easily accessible and useful in clinical patients. The prognostic significance of circulating DNA in plasma or serum, and its genetic alterations in HCC are other important trends. More attention should be paid to these two areas in future. As the progress of the human genome project advances, so does a clearer understanding of tumor biology, and more and more new prognostic markers with high sensitivity and specificity will be found and used in clinical assays. However, the combination of some items, i.e., the pathological features and some biomarkers mentioned above, seems to be more practical for now.
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PMID:The prognostic molecular markers in hepatocellular carcinoma. 1204 56

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