Hepatitis B Virus Genotype C Isolates with Wild-Type Core Promoter Sequence Replicate Less Efficiently than Genotype B Isolates but Possess Higher Virion Secretion Capacity

Qin, Yanli; Tang, Xiaoli; Garcia, Tamako; Hussain, Munira; Zhang, Jiming; Lok, Anna S.; Wands, Jack R.; Li, Jisu; Tong, Shuping

doi:10.1128/jvi.00819-11

Cited by 45 publications

(77 citation statements)

References 51 publications

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“…One limitation of our study is that we only investigated one clone per genotype, although we note that our findings pertaining to replication of genotypes B2 and C2 were similar to those of a previous study (10). In contrast, another earlier study observed greater replication in genotype B2 than in genotype C2 (12). Taken together, these and our present studies suggest that it is not possible to make broad generalizations about HBV replication phenotype across genotypes and subtypes.…”

Section: Discussioncontrasting

confidence: 53%

“…A more recent study utilizing 1.28-fold copies of the HBV genome concluded that the HBV genotype D replicated at lower levels than the HBV genotype A, although HBV replication was again low in this study (11). Direct comparisons of the replication phenotype of genotypes B and C utilizing 1.24-mer clones (10) or tandem dimers (12) identified differences in the comparative replication phenotypes of genotypes B and C in these studies, with Sugiyama et al (10) identifying higher levels of DNA replication for genotype C than for genotype B, in contrast to the findings of Qin et al (12), who identified higher levels of DNA replication for genotype B. Genotype differences in virus secretion were also observed, with Qin et al observing higher levels of secretion for genotype C than for genotype B (12), in contrast to Sugiyama et al, who observed similar levels of virion secretion for genotypes B2 (Ba) and C (10). This suggests that it is difficult to generalize about the impact of replication phenotype observed in vitro on the differences in HBV natural history observed across HBV genotypes and subtypes.…”

contrasting

confidence: 55%

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In Vitro Studies Show that Sequence Variability Contributes to Marked Variation in Hepatitis B Virus Replication, Protein Expression, and Function Observed across Genotypes

Sozzi

Walsh

Littlejohn

et al. 2016

J Virol

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The hepatitis B virus (HBV) exists as 9 major genotypes (A to I), one minor strain (designated J) and multiple subtypes. Marked differences in HBV natural history, disease progression and treatment response are exhibited by many of these genotypes and subtypes. For example, HBV genotype C is associated with later hepatitis B e antigen (HBeAg) seroconversion and high rates of liver cancer compared to other HBV genotypes, whereas genotype A2 is rarely associated with HBeAg-negative disease or liver cancer. The reasons for these and other differences in HBV natural history are yet to be determined but could in part be due to sequence differences in the HBV genome that alter replicative capacity and/or gene expression. Direct comparative studies on HBV replication and protein expression have been limited to date due largely to the absence of infectious HBV cDNA clones for each of the HBV genotypes present in the same genetic arrangement. We have produced replication-competent infectious cDNA clones of the most common subtypes of genotypes A to D, namely, A2, B2, C2, D3, and the minor strain J, and compared their HBV replication phenotype using transient-transfection models. We identified striking differences in HBV replicative capacity as well as HBeAg and surface (HBsAg) protein expression across genotypes, which may in part be due to sequence variability in regulatory regions of the HBV genome. Functional analysis showed that sequence differences in the major upstream regulatory region across genotypes impacted promoter activity. IMPORTANCEThere have been very few studies directly comparing the replication phenotype of different HBV genotypes, for which there are marked differences in natural history and disease progression worldwide. We have generated replication-competent 1.3-mer cDNA clones of the major genotypes A2, B2, C2, and D3, as well as a recently identified strain J, and identified striking differences in replicative capacity and protein expression that may contribute to some of the observed differences in HBV natural history observed globally. Hepatitis B virus (HBV) is a major human health problem, with approximately 240 million people living with chronic hepatitis B (CHB) worldwide (1) and up to 1 million people dying each year from HBV-related liver conditions such as cirrhosis and liver cancer (2). HBV exists as nine genotypes worldwide (A to I), as well as a recently identified minor strain (designated J), with marked differences in natural history, pathogenesis, and treatment response observed across genotypes (3). These differences include the time to hepatitis B e antigen (HBeAg) seroconversion and the propensity for progression to serious liver disease such as liver cancer, both of which are greater for HBV genotype C (3). Genotypes differ by Ͼ8% in nucleotide sequence across the complete HBV genome, and within most genotypes multiple subtypes have also been identified that differ in nucleotide sequence by between 4 and 7.9% (3). The major genotypes worldwide are A to D, with genotypes...

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Section: Discussioncontrasting

confidence: 53%

contrasting

confidence: 55%

In Vitro Studies Show that Sequence Variability Contributes to Marked Variation in Hepatitis B Virus Replication, Protein Expression, and Function Observed across Genotypes

Sozzi

Walsh

Littlejohn

et al. 2016

J Virol

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“…Particles in the pellet were resuspended in 1/100 the original volume with complete medium or phosphate-buffered saline (PBS) for storage at Ϫ80°C, and the genome copy number was determined by dot hybridization using serial dilutions of cloned HBV DNA of known concentration for calibration (30). Similar procedures were used to purify sHBV from viremic serum samples collected from chronic HBV carriers from Shanghai, China, for another study (31). Informed consent was obtained from patients, and the study was approved by Institutional Board and by the Recombinant DNA Committee of Rhode Island Hospital.…”

Section: Methodsmentioning

confidence: 99%

“…Covalently closed circular DNA (cccDNA) was extracted according to an established method (33). Virions were immunoprecipitated from culture supernatant by a combination of rabbit antipreS1 antibody (R271) and horse anti-Ad/Ay antibody according to established protocols (29,31). Virion DNA, intracellular replicative DNA, and cccDNA were detected by Southern blotting, while HBV RNA was detected by Northern blotting.…”

Section: Methodsmentioning

confidence: 99%

“…The HBsAg/ HBeAg ratio refers to HBsAg titer in culture supernatant divided by HBeAg titer from the same volume of culture supernatant. Southern and Northern blot analyses were performed as previously described (29,31), and for such purposes the cells were seeded in 6-or 12-well plates for infection experiments. To avoid bias in detecting ccHBV or sHBV, the 3.1-kb HBV DNA of genotypes B, C, and D was mixed at 1:1:2 ratio for probe labeling.…”

Section: Methodsmentioning

confidence: 99%

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Unusual Features of Sodium Taurocholate Cotransporting Polypeptide as a Hepatitis B Virus Receptor

Zong

Sureau

et al. 2016

J Virol

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Hepatitis B virus (HBV) is a major etiological agent for liver cirrhosis and hepatocellular carcinoma (1). The nature of the liver-specific HBV receptor(s) has been a longstanding puzzle in the field (2); this is partly attributable to the paucity of cell lines supporting productive HBV infection. Other than primary human hepatocytes (PHHs) and primary tupaia hepatocytes (PTHs), only the human liver progenitor cell line HepaRG could be infected with HBV after prolonged treatment with dimethyl sulfoxide (DMSO) (3). DMSO promotes the differentiation of HepaRG cell into foci of hepatocytes surrounded by biliary cells. Other human hepatoma cell lines such as HepG2 and Huh7 support HBV DNA replication and virion production upon transfection with cloned HBV genome but not after inoculation with HBV particles. HBV protein expression and genome replication are driven by several coterminal transcripts ranging from 0.7 to 3.5 kb (4). The subgenomic RNAs of 2.4 and 2.1 kb are responsible for the expression of three coterminal envelope proteins termed large (L), middle (M), and small (S), with the M protein having an extra preS2 domain than the S protein and the L protein having an extra preS1 domain than the M protein. In addition to their incorporation into virions, the envelope proteins, especially S and M, are secreted as capsid-free subviral particles that exceed virions by Ն1,000-fold. The large quantity of S protein associated with subviral particles is detected by enzyme-linked immunosorbent assay (ELISA) as hepatitis B surface antigen (HBsAg), which provides a sensitive serological marker of HBV infection. Another serological marker is hepatitis B e antigen (HBeAg), a secreted

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Molecular Variants of the Precore, Core, and Core Promoter Regions of Hepatitis B Virus, and Their Clinical Significance

Karayiannis

Carman²,

Thomas

2013

Viral Hepatitis

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Hepatitis B Virus Genotype C Isolates with Wild-Type Core Promoter Sequence Replicate Less Efficiently than Genotype B Isolates but Possess Higher Virion Secretion Capacity

Cited by 45 publications

References 51 publications

In Vitro Studies Show that Sequence Variability Contributes to Marked Variation in Hepatitis B Virus Replication, Protein Expression, and Function Observed across Genotypes

In Vitro Studies Show that Sequence Variability Contributes to Marked Variation in Hepatitis B Virus Replication, Protein Expression, and Function Observed across Genotypes

Unusual Features of Sodium Taurocholate Cotransporting Polypeptide as a Hepatitis B Virus Receptor

Molecular Variants of the Precore, Core, and Core Promoter Regions of Hepatitis B Virus, and Their Clinical Significance

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