HBV
not annotated - annotated - LINNAEUS only
20962085
Novel F141L pre-S2 mutation in hepatitis B virus increases the risk of hepatocellular carcinoma in patients with chronic genotype C infections.
Several lines of evidence have suggested that some naturally occurring mutations of hepatitis B virus (HBV) play a critical role in hepatocellular carcinoma (HCC). Here, we describe a novel HCC-related pre-S2 mutation, F141L. To prove the relationship between the F141L mutation and HCC, molecular epidemiology studies using MboII PCR restriction analysis (PRA) were performed, and the molecular mechanism was investigated through construction of a stable hepatocyte cell line expressing the large surface HB protein (LHB) with the F141L mutation (F141L-LHB). Application of MboII PRA to samples from 241 Korean patients with chronic liver diseases of different clinical stages confirmed that F141L mutants were significantly related to HCC, even in comparison to liver cirrhosis (HCC, 26.3% of patients, or 26/99; liver cirrhosis, 3.8% of patients, or 2/52; P = 0.001). By studying stable cell lines, we found that F141L-LHBs could induce cell cycle progression by downregulating the p53 and p21 pathways and upregulating CDK4 and cyclin A. Furthermore, we found that in a colony-forming assay, the colony-forming rates in cell lines expressing F141L-LHBs were about twice as high as those of the wild type. In conclusion, our results suggest that F141L-LHBs may contribute importantly to the pathogenesis of HCC by inducing cell proliferation and transformation. So, the F141L mutation examined in this study could serve as a diagnostic marker for the prognosis of HCC.
20962099
Replicative and transcriptional activities of hepatitis B virus in patients coinfected with hepatitis B and hepatitis delta virusesviruses.
Hepatitis B virus (HBV) and hepatitis delta virus (HDV) interplay was investigated by examining liver and serum samples from 21 coinfected and 22 HBV-monoinfected patients with chronic liver disease. Different real-time PCR assays were applied to evaluate intrahepatic amounts of HBV DNA, covalently closed circular DNA (cccDNA), pregenomic RNA (pgRNA), pre-S/S RNAs, and HDV RNA. Besides HBV DNA and HDV RNA levels, HBsAg concentrations in the sera were also determined. HDV-coinfected cases showed significantly lower median levels of serum HBV DNA (-5 log), intrahepatic relaxed-circular DNA (-2 log), and cccDNA (-2 log) than those of HBV-monoinfected cases. Interestingly, pgRNA and pre-S/S RNA amounts were significantly lower (both -1 log) in HDV-positive patients, whereas serum HBsAg concentrations were comparable between the two patient groups. Pre-S/S RNA and HBsAg amounts per cccDNA molecule were higher in HDV-positive patients (3-fold and 1 log, respectively), showing that HBV replication was reduced, whereas synthesis of envelope proteins was not specifically decreased. The ratios of cccDNA to intracellular total HBV DNA showed a larger proportion of cccDNA molecules in HDV-positive cases. For these patients, both intrahepatic and serum HDV RNA amounts were associated with cccDNA but not with HBsAg or HBV DNA levels. Finally, HBV genomes with large deletions in the basal core promoter/precore region were detected in 5/21 HDV-positive patients but in no HDV-negative patients and were associated with lower viremia levels. These findings provide significant information about the interference exerted by HDV on HBV replication and transcription activities in the human liver.
21511329
Hepatitis delta virus.
Hepatitis delta virus (HDV) is a small, defective RNA virus that can infect only individuals who have hepatitis B virus (HBV); worldwide more than 15 million people are co-infected. There are eight reported genotypes of HDV with unexplained variations in their geographical distribution and pathogenicity. The hepatitis D virion is composed of a coat of HBV envelope proteins surrounding the nucleocapsid, which consists of a single-stranded, circular RNA genome complexed with delta antigen, the viral protein. HDV is clinically important because although it suppresses HBV replication, it causes severe liver disease with rapid progression to cirrhosis and hepatic decompensation. The range of clinical presentation is wide, varying from mild disease to fulminant liver failure. The prevalence of HDV is declining in some endemic areas but increasing in northern and central Europe because of immigration. Treatment of HDV is with pegylated interferon alfa; however, response rates are poor. Increased understanding of the molecular virology of HDV will identify novel therapeutic targets for this most severe form of chronic viral hepatitis.
20950650
Rapid detection of drug-resistant mutations in hepatitis B virus by the PCR-Invader assay.
Early detection of resistant mutations of hepatitis B virus (HBV) is important for patients on nucleos(t)ide analog therapy. An assay based on the PCR-Invader technology was developed to detect resistant mutations with high sensitivity. The assay specifically detects mutations at codons 180, 181, 184, 202, 204, and 250 of the HBV polymerase reverse transcriptase domain. These mutations result in resistance to lamivudine and entecavir. In mixtures of plasmids containing wild-type and resistant mutants, fold-over-zero values for resistant mutations were detected in 2% of the total. Seventy-five serum samples from patients, whose treatment had been switched from lamivudine to entecavir, were examined by the PCR-Invader assay and direct sequencing. The PCR-Invader assay detected all resistant mutations that were detected by direct sequencing and even detected the presence of mutants that direct sequencing could not. Cloning sequencing confirmed those mutations found by the PCR-Invader assay and not by direct sequencing. The PCR-Invader assay is a useful tool for the early detection of drug-resistant mutations.