HBV Expression Research Articles

HBx down-regulated Gld2 plays a critical role in HBV-related dysregulation of miR-122.

miR-122 is a liver-rich-specific microRNA that plays an important role in hepatic gene expression via post-transcription regulation, and it is potentially associated with the development of hepatocellular carcinoma. It has been confirmed that miR-122 is down-regulated during HBV infection; however, how HBV affects miR-122 is still debated. One research provided evidence that HBx could reduce the miR-122 transcription level, but the other insisted that HBV had no significant effect on miR-122 transcription level but reduce miR-122 level via binding and sequestering endogenous miR-122. It is determinate that Gld2 could increase the specific miRNA stabilization by monoadenylation which was a post-transcription regulation. In this study, we aimed to investigate the mechanism of HBV-induced reduction of miR-122 and examine whether Gld2 is involved in it. According to the results of a microRNA microarray, we found miR-122 was the most down-regulated microRNA in HepG2.2.15 compared to HepG2. As revealed by qRT-PCR and western blotting analyses, both miR-122 and Gld2 levels were reduced in hepatic cell lines with expression of HBV or HBx but not other proteins of HBV, and over-expression of Gld2 could abolish the effect of HBV and HBx on the miR-122 level. What's more, both HBV and HBx have no significant effect on pre-miR-122 levels. And the dual-luciferase assay implicated that HBx could reduce the Gld2 promoter activity but had no significant effect on miR-122 promoter activity. In conclusion, HBx is a critical protein derived from HBV, which regulates miR-122 via down-regulating Gld2.

Effect of recombinant adenovirus-associated virus-mediated RNA interference on HBV replication and expression

Effect of recombinant adenovirus-associated virus-mediated RNA interference on HBV replication and expression

The Flavonoids in Citrus madurensis Lour and their Anti-Hepatitis B Virus Activity

In this study, we evaluated anti-hepatitis B virus (HBV) activity of the extracts (dichloromethane, ethyl acetate, n-butanol, acetone, and methanol respectively) of fruit (peels and pulp) of Citrus madurensis Lour. (calamondin) using HBV transected cell line MS-G2. The ethyl acetate extracts from the peels strongly reduced the HBsAg expression of HBV in dose 50 μg/mL. According to the previous result, we chose this extract to elute by column chromatography and then separately eluted into 7 fractions. In dose in 50 μg/mL, fractions 2, 3, and 4 had lower HBsAg expression (compare with control). Furthermore, fraction 3 had a strongest inhibitory ability. The flavonoids (hesperidin, diosmin, neohesperidin, nobiletin, tangeretin, and 5-hydroxy-3’,4’,6,7,8-pentamethoxyflavone) were analysis in each fractions by high-performance liquid chromatography (HPLC). The results shown fraction 2, 3, 4 were detected containing nobiletin, tangeretin, and 5-hydroxy-3’,4’,6,7,8-pentamethoxyflavone. The anti-HBV activity of the flavonoids show that nobiletin, tangeretin, and also had a lower HBsAg expression. The IC50 value were nobiletin (33.9 μM), tangeretin (20.7 μM), and 5F (5.12 μM), respectively. Taken together, we suggest that 5F could be used as a standard marker for the anti-HBV effect of calamondin.

Small interfering RNA targeting to hepatitis B virus X gene and 5-aza-2'-deoxycytidineon inhibited growth of the subcutaneous implanted tumor of hepatocellular carcinoma in nude mice

To investigate the anti-tumor effect of small interfering RNA targeting to HBV X gene (X-siRNA) and 5-aza-2'-deoxycytidine (5-aza-dC) on HBV-related hepatocellular carcinoma. X-siRNA and control siRNA were synthesized. HepG2/GFP-HBx cells were treated with X-siRNA, and the levels of HBV X mRNA were detected by semi-quantitative reverse transcription polymerase chain reaction (RT-PCR). Nude mice were inoculated with HepG2/GFP and HepG2/GFP-HBx cells subcutaneous respectively to establish implant models of hepatocellular carcinoma, and were treated with X-siRNA, 5-aza-dC alone or in combination, and tumor growth was observed. The methylation of p16 gene promoter was detected by methylation specific polymerase chain reaction (MSP). RT-PCR showed the expression of HBV X mRNA in HepG2/GFP-HBx cells was inhibited markedly by X-siRNA. The nude mice experiment showed that the gross tumor volume was much bigger in HepG2/GFP-HBx group than that in HepG2/GFP group (P < 0.05). The growth of palpable tumors in X-siRNA or 5-aza-dC treatment group notably decreased (P < 0.05). MSP analysis showed that p16 gene methylation was observed in HepG2/ GFP-HBx-caused palpable tumors, while no methylation was detected in HepG2/GFP group. However, after treatment with X-siRNA or 5-aza-dC, p16 gene methylation reduced. HBV X-siRNA and methylation inhibitor can inhibit the growth of hepatoma cells via reversing p16 methylation.

MicroRNA-141 represses HBV replication by targeting PPARA.

MicroRNAs (miRNAs) are small non-coding RNAs that regulate gene expression primarily at the post-transcriptional level and play critical roles in a variety of physiological and pathological processes. In this report, miR-141 was identified to repress HBV expression by screening a small miRNA expressing library and synthetic miR-141 mimics could also significantly suppress HBV expression and replication in HepG2 cells. Bioinformatic analysis and experiment assays indicate that peroxisome proliferator-activated receptor alpha (PPARA) was the target of hsa-miR-141 during this process. Furthermore, knockdown of PPARA by small interfering RNA (siRNA) inhibited HBV replication similar to levels observed for miR-141. Promoter functional analysis indicated that repression of HBV replication by miR-141 mimics or siRNA was mediated by interfering with the HBV promoter functions, consistent with previous studies demonstrating that PPARA regulated HBV gene expression through interactions with HBV promoter regulatory elements. Our results suggest that miR-141 suppressed HBV replication by reducing HBV promoter activities by down-regulating PPARA. This study provides new insights into the molecular mechanisms associated with HBV-host interactions. Furthermore, this information may facilitate the development of novel anti-HBV therapeutic strategies.

PreC/C gene-targeting RNA interference suppresses hepatitis B virus replication and expression in human hepatoma cells

To explore the antiviral efficacy of small interfering RNAs (siRNAs)/shRNA targeting preC/C of HBV in human hepatoma cells Huh-7 and HepG2.2.15 cells. Three 21 nucleotide(nt) siRNAs for treating HBV preC/C gene were designed and synthesized according to the HBV genome in GenBank accession numbers (U95551); simultaneously, one 21-nt-long non-homologous siRNA was also designed randomly for negative control. They were cloned into vector pU6 for constructing shRNA-expressing plasmids pU6-C1, pU6-C2, pU6-C3 and control pU6-C4. To assess the function of siRNAs, a reporter gene system was constructed. The HBV preC/C gene was synthesized by PCR with pT-HBV1.3 as the template. The preC/C gene was then inserted into the enhanced green fluorescent protein expression vector (EGFP-N1) in order to construct the recombinant plasmid pEGFP-preC/C (E-C), which carries the EGFP reporter gene. The three shRNA-expressing plasmids-pU6-C1, pU6-C2, or pU6-C3-was each then cotransfected into Huh-7 cells along with either reporter gene expression vector E-C or the controls; or these three plasmids-pU6-C1, pU6-C2, or pU6-C3-was each cotransfected into HepG2.2.15 cells along with the controls. First, upon determination of the number of cells exhibiting EGFP expression in Huh-7cells as detected by an BH-2 fluorescence microscope and FACS-440 flow cytometry at different times after cotransfection, the investigators evaluated the inhibitory efficiency of the three shRNA-expressing plasmids by an EGFP reporter system in cultured cells. Subsequently, the expression amount of HBsAg and HBeAg in HepG2.2.15 cell supernatant at 24, 48, 72 and 96 h post-cotransfection was detected by enzyme-linked immunosorbent assay (ELISA). Immunofluorescence was used to detect the expression of HBsAg and HBcAg at 72 h post-cotransfection in HepG2.2.15 cells. The copy level of HBV mRNA transcripts cDNA in HepG2.2.15 cells was further investigated through quantitative real-time polymerase chain reaction (real-time PCR). In comparison with single plasmid transfection pEGFP-N1 or E-C, fluorescence microscope examination and flow cytometry detection at 48 hours after cotransfection indicated that the expression of the reporter gene EGFP in cotransfected group Huh-7 cell involving pU6-C1, pU6-C2 or pU6-C3 resulted in an 80% reduction in EGFP signal relative to the controls (P < 0.01). It was also found through immunofluorescence that the expression of HBsAg and HBcAg in HepG2.2.15 cells was reduced markedly (P < 0.01), that the copy level of HBV mRNA transcripts cDNA as detected at 48 hours after cotransfection by quantitative real-time PCR was reduced respectively by 73.9% ± 1.2% (P = 0.029), 48.2% ± 1.8% and 35.8% ± 1.4% (P = 0.037, 0.040) relative to the control, that it conformed with that detected by fluorescence microscope/flow cytometry, ELISA, and immunofluorescence (P < 0.01). Thereby further corroborating the antiviral efficacy of RNAi. The efficacy was obvious at 48 h, reaching a peak at 72 h. For the first time it has been found that RNAi induced by siRNA/shRNA targeting HBV preC/C gene is effective and specific in inhibiting HBV replication and expression in human hepatoma cells Huh-7 and HepG2.2.15 cells. Our data suggest that RNAi may provide an effective, viable approach in gene therapy to treating major infectious diseases such as HBV/HCV/HIV infection.

Core-APOBEC3C chimerical protein inhibits hepatitis B virus replication

We tested the capsid targeted viral inactivation method as an anti-HBV strategy. HepG2 cells were cotransfected with HBV expression plasmid and the plasmid encoding fusion protein of either Core-A3C or Core-humanized renilla GFP (hrGFP). Core-A3C had substantial effect on HBV DNA levels. In the HepG2 cells expressing Core-A3C, the number of G-to-A mutations increased dramatically, whereas other nucleotide substitutions were rare. In addition, Core-A3C substantially inhibited HBV production intracellularly and in culture supernatant. These results suggest that Core-A3C may be a candidate as a novel antiviral agent against human HBV infection.

Inhibition of HBV replication by small interference RNA in HepG2.2.15 cells

Objective Virus-specific RNA interference (RNAi) is a powerful inhibitor of gene expression and replication of HBV. It is known to have high efficiency, specificity, and few side effects. We wanted to evaluate the effects of siRNA silencing HBV replication on the growth of hepatocellular carcinomatic(HCC) cells to find out an ideal method for treatment of HCC. Methods We transfected siRNA into HepG2.2. 15 cells (HCC cell inserting HBV gene) and detected the HBsAg and HBV DNA copies for evaluating the inhibitory effects of siRNA. Then we evaluated cell growth and self-renewal ability after transfection of siRNA by MTT. Results The HBsAg level and HBV DNA copies were reduced after the transfection of siRNA, the highest inhibition rate was 83.9%,while the inhibition rate of HBV DNA copies reached 73. 4%. The siRNA group's growth ability and self-renewal rate were lower than the control group in 5 days. Conclusion siRNA can effectively inhibit HBV replication and expression in HepG2.2.15 cells and silencing HBV replication can inhibit HepG2.2.15 cell's growth and self-renewal. Key words: Carcinoma hepatocellular; Hepatitis B virus; siRNA; HepG2.2. 15

Interferon-alpha Induces High Expression of APOBEC3G and STAT-1 in Vitro and in Vivo

To investigate whether the JAK-STAT (Janus kinase-signal transducers and activators of transcription) pathway participates in the regulation of APOBEC3G (Apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G) gene transcription and to study the molecular mechanisms of interferon resistance in patients with chronic hepatitis B (CHB), changes in APOBEC3G and STAT-1 expression levels in HepG2.2.15 cells after treatment with various concentrations of IFN-α, were detected using real-time RT-PCR and Western-blot. In addition, the differences in STAT-1 and APOBEC3G expression in liver tissues were also observed in patients with different anti-viral responses to IFN-α. It is found that IFN-α suppressed HBV replication and expression markedly in HepG2.2.15 cells, and simultaneously enhanced APOBEC3G expression in a dose- or time-dependent manner within a certain range. Moreover, a corresponding gradual increase in STAT-1 expression levels was also observed. The expression levels of STAT-1 and APOBEC3G in the liver of CHB patients with a complete response to IFN-α are significantly higher than that of the patients with non-response to IFN-α treatment. It is suggested that inducing intracellular APOBEC3G expression may be one of anti-HBV mechanisms of IFN-α, and IFN-α-induced APOBEC3G expression may be via the JAK-STAT signaling pathway. Moreover, interferon resistance may be related to the down-regulation of STAT-1 expression in the patients who had non-response to IFN-α treatment.

PP-119 Lamivudine in hepatitis B reactivation in patients with rheumatologic diseases on chronic immunosuppression

investigate the influence of the hepatitis B virus X protein on function of natural killer (NK) cell in NK-92 cells. Methods: The recombinant eukaryotic expression plasmid pcDNA3.1 (+)-HBX was transfected into NK-92 cells with lipofectamine. The expression of HBV X gene was detected by RT-PCR and Western blotting. Western blotting was also applied for the determination of NKG2D level in NK-92 cells. ELISA was employed to determine the IFN-g level secreted by NK-92 cells. And finally the cytotoxicities of NK cells were analyzed by MTT colorimetry, with the hepatoblastoma cell line (HepG2) as target cell. Results: RT-PCR and western blotting confirmed the expression of HBV X gene in the NK-92 cells transfected with pcDNA3.1(+)-HBX. Compare to empty vector transfected and untransfected cells, NKG2D level significantly decreased, cytotoxicity function and IFN-g secretion markedly attenuated in NK-92 cells transfected with cDNA3.1(+)HBX. Conclusions: Transient expression of HBV X gene can decrease IFN-g secretion and cytotoxicities of NK-92 cells. The influence of the hepatitis B virus X protein on cytotoxicities of NK cell was probably associated with downregulation of expression of NKG2D.

T cell immunoglobulin- and mucin-domain-containing molecule-3 (Tim-3) mediates natural killer cell suppression in chronic hepatitis B

T cell immunoglobulin- and mucin-domain-containing molecule-3 (Tim-3) has been shown to influence autoimmune diseases; however, its function in viral infection has not been well-defined. We therefore investigated the expression and regulatory function of Tim-3 in natural killer (NK) cells in chronic Hepatitis B (CHB) infection. Seventy-six CHB patients, 38 healthy controls, and 18 patients with fatty liver disease (FLD) were tested for Tim-3 expression on peripheral blood mononuclear cells (PBMCs) and in the liver tissue by flow cytometry and immunohistochemical stainning. The effects of HBV infection on Tim-3 expression in NK cells and the roles of Tim-3 in regulation of NK-cell function were also studied. There was a significant increase of Tim-3 expression in PBMCs, circulating NK cells and liver infiltrating lymphocytes (LILs) from CHB patients compared to that of healthy controls and FLD patients. Increased Tim-3 expression was also detected in NK92 cells that had been transfected with a HBV expression vector and NK cells isolated from the liver of HBV transgenic mice. Importantly, blockage of Tim-3 signaling with anti-Tim-3 antibodies or Tim-3-Fc fusion proteins resulted in an increased cytotoxicity for NK92 cells compared to HepG2 and HepG2.2.15 cells, as well as an elevated interferon-gamma (IFN-gamma) production. Similarly, enhanced cytotoxicity was also observed in PBMCs or NK cells from CHB patients treated with the Tim-3 blockade ex vivo. HBV infection can up-regulate Tim-3 expression in NK cells, which may in turn suppress NK-cell functions in CHB patients.

A novel mouse model for immunogenic evaluation of human HBV vaccines

To prepare a human HBV vaccine, investigators need an animal model that can help them screen and prioritize vaccine candidates. In this study, HBV/HLA-A2.1 double transgenic mice (dTg), confirmed by analysis of genomic integration and by observation of long-term expression of HBV and HLA genes, were generated for the first time. The HBV/HLA-A2.1 dTg not only display tolerance to HBV antigens (Ags), but also have the ability to process and present HLA-A2 restricted antigenic epitopes. The animals vaccinated with HLA-A2 restricted HBc 18–27 or HBs 183–191 epitope peptide vaccine induced effective HLA-A2 restricted peptide-specific cytolytic T lymphocyte responses. This was supported by the evidence of cytotoxicity assay, ELISPOT and tetramer staining analysis. Furthermore, T cell tolerance against HBV Ags in HBV/HLA-A2.1 dTg was broken by the HBc 18–27 or HBs 183–191 peptide vaccine. In conclusion, HBV/HLA-A2.1 dTg was demonstrated to be useful model for in vivo immunogenicity testing of human HBV-based vaccines.

Aflatoxin B1 and/or Hepatitis B Virus Induced Tumor Spectrum in a Genetically Engineered Hepatitis B Virus Expression and Trp53 Haploinsufficient Mouse Model System for Hepatocarcinogenesis

The authors investigated the spectrum of tumors and Trp53 mutations in genetically engineered models using the FVB/N mouse that expressed the hepatitis B virus genome and/or carried a Trp53 null and wildtype allele and/or were exposed to aflatoxin B1. Liver tumor incidence was increased when all three risk factors were present. Without aflatoxin B1 exposure, neither Trp53 haploinsufficiency nor HBV expression affected liver tumor development. Liver tumor prevalence increased with aflatoxin B1 exposure (p < .001), as thirteen of fourteen mice with liver tumors were initiated with aflatoxin B1. Liver tumors were more frequent in males (12/190) than females (2/170). Seventy-three mice developed sarcomas. Trp53 haploinsufficiency was associated with increased sarcoma incidence in males and females (p < .001). In Trp53 haploinsufficient mice, the HBV transgene increased the risk of sarcoma in males and females (p < .001). Lymphoma was significantly increased in Trp53 haploinsufficient FVB/N mice. There was no loss of heterozygosity at the wildtype Trp53 locus in twenty-five sarcomas or four hepatocellular tumors examined. No mutations were identified in the mRNA (exons 2-11) of Trp53 in six liver neoplasms or twenty-four sarcomas. In this model system, HBV expression affected only hepatocellular neoplasia in association with both aflatoxin B1 initiation and p53 haploinsufficiency.

Hepatitis B virus induced hepatocellular carcinoma

A number of risk factors appear to play a role in Hepatocellularcinoma (HCC), HBV infection being one of the most important. Chronic inflammation and cytokines are key determinants in the development of fibrosis and liver cell proliferation. HBV DNA integration and/or expression of HBV proteins may have a direct effect on cellular functions. Occult hepatitis B virus infection is characterized by persistence of HBV DNA in hepatitis B surface antigen-negative individuals. There are evidences that occult HBV is a risk factor for the development of HCC and that the potential mechanisms whereby overt HBV might induce tumour formation are mostly maintained.

HBV S gene-specific antisense locked nucleic acid significantly inhibits HBV replication and expression in HBV transgenic mice

HBV S gene-specific antisense locked nucleic acid significantly inhibits HBV replication and expression in HBV transgenic mice

Hepatitis B Virus X‐DNA

HBV genome replication intermediates blocked at early stages of minus strand synthesis have been identified in a study on circulating DNA and RNA during short-term lamivudine therapy. This suggested that the inhibition of HBV replication processes in the liver are mirrored in the blood. Levels of circulating HBV mRNA remained largely unaffected. Here we followed therapy with two patients (patients 1 and 2) up to stages without apparent replication. As in the earlier study, DNA segments produced successively during replication were used as targets for quantitative PCR: X (early minus strand), C (completed minus strand), and preC (nascent plus strand). Corresponding RNA was quantified by RT/PCR. Polyadenylated viral RNA were assayed as full-length (f) and as truncated (tr) RNAs. Blocked X-region intermediates persisted for about one year. After a period of undetectable HBV DNA viral replication resumed in patient 1 because of the emergence of drug-resistant mutants and in patient 2 because of the discontinuation of therapy. In the former case, X-region intermediates reappeared first, then C- and, finally, preC-region intermediates. Stopping therapy, in contrast, led to a simultaneous reappearance of all three types of intermediates. At low replication levels or its absence, trRNA represented the only polyadenylated viral RNA. Apparently, HBV serum nucleic acid markers allow a study of replication and transcription separately. Specifically, it is concluded (1) that PCR assays for monitoring lamivudine therapy must target the X-gene region and (2) that in the absence of HBV replication, trRNA may constitute a serum marker for HBV expression.

Targeted screening of SiRNA directed HBV polymerase gene for effective inhibition of HBV expression

In order to screen potential mRNA locations of P gene in which targeting siRNAs can effectively inhibit HBV expression, 5 recombinant plasmids containing 4 targeting-specific siRNA fragments and a control were prepared and transfected into 2.2.15 cells respectively. The expression levels of HBx mRNA, HBs mRNA and HBc mRNA were detected by RT-PCR. The concentrations of the hepatitis B virus antigens, including HBsAg and HBeAg harvested from the culture supernatant of transfected 2.2.15 cells, were measured by ELISA. X protein was tested by Western blot. The results showed that four siRNAs against distinct mRNA locations of HBV polymerase gene had different inhibitory effects on their targeted mRNA. The plasmid-derived psiRNA1 and psiRNA2 could effectively inhibit the transcription and translation of HBs gene, whereas the inhibitory efficiency of psiRNA3, psiRNA4 for HBe gene was much higher than that of psiRNA1 and psiRNA2. In comparison to the rest of psiRNAs in this study, psiRNA4 was the most effective to suppress the transcription and translation of HBx. It is suggested that siRNA can be considered as a powerful therapeutic agent for reducing HBV expression. The siRNAs against HBV polymerase are effective largely depending on the location of targeted sites. To enhance inhibitory efficiency, hunting for high effective target in polymerase gene is necessary and feasible.

SMYD3 expression differences in hepatoma cell lines with different HBV expression levels

SMYD3 expression differences in hepatoma cell lines with different HBV expression levels

Virological and clinical aspects of HBV‐HCV coinfection in HIV positive patients

In a long-term follow-up study the clinical and virological presentation of HBV/HCV coinfection in anti-HIV positive patients was evaluated. Plasma HBV-DNA, HCV-RNA, and HIV-RNA were determined by PCR in 5 HBsAg/anti-HCV/anti-HIV positive patients, in 4 HBsAg/anti-HIV positive patients and in 82 anti-HCV/anti-HIV positive patients first observed at a Unit of Infectious Diseases in Naples (Italy) from 1990 to 2000 (follow up 6-16 years). All five hepatitis B and C coinfected patients showed reciprocal inhibition of viral replication on admission and during the follow up. At the end of the follow up a clearance of HBsAg from serum was observed in four patients and a clearance of anti-HCV in one of them. In two patients after clearance of HBsAg, evidence of occult HBV infection was observed, at times associated with a hepatic flare. None of the four patients with HIV/HBV coinfection lost HBsAg and none of the 82 with HIV/HCV coinfection lost anti-HCV during the follow up. In anti-HIV positive patients HBV/HCV coinfection is characterized by reciprocal inhibition of viral replication, more evident in HBV expression in plasma and at times by progression to occult HBV infection.

Two approaches to construct mammalian expression vector of shRNA to reduce expression and replication of HBV in vitro

Two approaches have been developed to construct plasmids that mediate RNA interference to inhibit the replication and expression of HBV in 2.2.15 cell. The overlapping PCR extension and restriction enzyme-digestion were used to generate DNA fragments encoding designed shRNA based on sequences of ORF C of HBV genome. The pU6 derived vectors were constructed to develop plasmid based shRNA delivery systems termed pU6/HBVi. There were significant reductions in the expression of HBsAg and HBeAg between cells transfected with pU6/HBVi and control groups (as to HBsAg: P < 0. 01; and HBeAg: P < 0. 01). Consistently, the HBV DNA copies were reduced from 2.71 x 10(7) to <5 x 10(2) copies with or without pU6/HBVi. These results suggested that shRNA delivery by recombinant plasmids harboring shRNA encoding DNA fragment of interest generated either by overlapping PCR extension or restriction enzyme-digestion, could inhibit expressions of viral proteins and reduce viral replications. The pU6 derived plasmids might be a useful shRNA delivery system in mammalian cells. In addition, we found siRNA based on stealth 2311 was a potent RNAi target of HBV genome.