P. Paterlini scite author profile

Chronic infection by HBV is the leading cause of hepatocellular carcinoma in man. Several lines of evidence suggest that the viral transactivator HBx plays a critical role in the molecular pathogenesis of HBVrelated HCC. To study the actual impact of HBx and the mechanism of its action, we have recently cloned and characterized a set of X-sequences from HCC in patients with chronic infection by HBV. In the present study, we have compared the e ects of HBx and its naturally arising mutants on cell growth and viability. We report that HBx inhibits clonal outgrowth of cells and induces apoptosis by a p53-independent pathway. Furthermore, HBx expression induced a late G1 cell cycle block prior to their counterselection by apoptosis. Importantly, mutations in the HBx-gene evolving in hepatocellular carcinoma abolished both HBx-induced growth arrest and apoptosis. Using a panel of engineered mutants we have mapped the growth suppressive e ect of HBx to domains shown to be required for its transactivating function. Based on these results, we propose that abrogation of the anti-proliferative and apoptotic e ects of HBx by naturally occurring mutations might render the hepatocytes susceptible to uncontrolled growth and contribute to multistep hepatocarcinogenesis associated with HBV-infection.

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Selective accumulation of the X transcript of hepatitis B virus in patients negative for hepatitis B surface antigen with hepatocellular carcinoma

Paterlini

et al. 1995

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In HBsAg-negative patients with hepatocellular carcinoma (HCC), hepatitis B virus (HBV) genomes are present at a low copy number per cell, and the role of HBV in liver transformation is still unclear. We have mapped by polymerase chain reaction (PCR) the HBV genome in 19 HBsAg-negative tumorous and 9 corresponding nontumorous tissues and evaluated, by RT-PCR, the presence of HBV S, X, and C transcripts in the tumorous and nontumorous tissue of nine HBsAg-negative and, for comparison, six HBsAg-positive patients. Disrupted, presumably integrated, HBV genomes were detected by PCR in 10 of 19 tumorous tissues and in only one of nine nontumorous tissues. Significant accumulation of viral RNAs containing X but not C or S sequences was shown in 7/9 tumors and 7/8 nontumorous tissues from HBsAg-negative patients. In contrast, viral RNAs revealed by X-as well as by S- and C-specific primers were detected in five of six tumors and in six of six nontumorous tissues from HBsAg-positive patients. In conclusion, our results suggest the frequent integration of the HBV genome and the accumulation of X-related RNAs in HCCs developing in HBsAg-negative patients. This finding is consistent with a role, in these cases, for the potentially transforming X protein.

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HCV-associated liver cancer without cirrhosis

Mitri¹,

Pisi²,

Poussin³

et al. 1995

The Lancet

266

116

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Polymerase Chain Reaction to Detect Hepatitis B Virus DNA and RNA Sequences in Primary Liver Cancers from Patients Negative for Hepatitis B Surface Antigen

Paterlini

Gerken²,

Nakajima³

et al. 1990

N Engl J Med

246

108

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Persistence of Hepatitis B and Hepatitis C Viral Genomes in Primary Liver Cancers from HBsAg-Negative Patients: A Study of a Low-endemic Area

et al. 1993

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The role of HBV and HCV in the course of primary liver cancer in patients who are negative for HBsAg has been debated. Using a combination of serological and polymerase chain reaction assays, we investigated the association between HCV and HBV infections and primary liver cancer in 24 HBsAg-negative patients living in France. The presence of HCV RNA and HBV DNA sequences was tested for in serum and in tumorous and nontumorous liver samples. Twelve patients had anti-HCV, and 11 patients had anti-HBs and/or anti-HBc. HCV RNA sequences were found in the serum samples of all anti-HCV-positive patients and none of the patients who were negative. Patients with HCV viremia had HCV RNA genomic sequences and presumed replicative intermediates in both tumorous and nontumorous specimens. Sequence analysis of a hypervariable region in the E2/NS1 gene of HCV showed significant variations between the viral molecules isolated from the nontumorous, tumorous and serum samples. This eliminated the hypothesis of the contamination of the tumor by nontumorous cells and serum particles and assessed that liver tumor cells did contain HCV RNA genomes. Eleven of 22 patients tested had HBV DNA in the serum; 5 patients were anti-HBc positive and anti-HBs positive. Patients with HBV viremia had HBV DNA sequences in both tumorous and nontumorous liver specimens. Selective loss of part of the HBV genome in the tumorous tissue of two of these patients suggested HBV DNA persistence in clonally expanded malignant cells. Only 4 of the 22 patients were negative for both viruses. Our results show that HBsAg-negative hepatocellular cancer in France is associated with chronic HBV or HCV infection and, in some cases, both; these findings are consistent with an etiological role for HBV and HCV in HCC that develops in cirrhotic patients living in areas of low prevalence.

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P. Paterlini

Hepatitis B virus X mutants, present in hepatocellular carcinoma tissue abrogate both the antiproliferative and transactivation effects of HBx

Selective accumulation of the X transcript of hepatitis B virus in patients negative for hepatitis B surface antigen with hepatocellular carcinoma

HCV-associated liver cancer without cirrhosis

Polymerase Chain Reaction to Detect Hepatitis B Virus DNA and RNA Sequences in Primary Liver Cancers from Patients Negative for Hepatitis B Surface Antigen

Persistence of Hepatitis B and Hepatitis C Viral Genomes in Primary Liver Cancers from HBsAg-Negative Patients: A Study of a Low-endemic Area

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