Inhibition of hepatitis B virus in tissue culture by alpha interferon

Molecular virology of hepatitis B virus for clinicians

This article reviews the molecular biology of the hepatitis B virus in an effort to explain its natural history from a molecular perspective. The life cycle of the virus, with special attention to virus replication, polypeptide production, and morphogenesis, is described. The way in which these steps may influence the natural history of viral pathogenesis, as well as the effectiveness of interventions, receives special consideration.

In vitro resistance to interferon of hepatitis B virus with precore mutation

AIM: Chronic hepatitis B virus (HBV) infection is predominantly treated with interferon alpha (IFN-α), which results in an efficient reduction of the viral load only in 20-40% of treated patients. Mutations at HBV precore prevail in different clinical status of HBV infection. The roles of precore mutation in the progression of chronic hepatitis and interferon sensitivity are still unknown. The aim of this study was to explore if there was any relationship between HBV precore mutation and sensitivity to interferon in vitro.

METHODS: HBV replication-competent recombinant constructs with different patterns of precore mutations were developed. Then the recombinants were transiently transfected into hepatoma cell line (Huh7) by calcium phosphate transfection method. With or without IFN, viral products in culture medium were collected and quantified 3 d after transfection.

RESULTS: We obtained 4 recombinant constructs by orientation-cloning 1.2-fold-overlength HBV genome into pUC18 vector via the EcoRI and Hind III and PCR mediated site-directed mutagenesis method. All the recombinants contained mutations within precore region. Huh7 cells transfected with recombinants secreted HBsAg and HBV particles into the cell culture medium, indicating that all the recombinants were replication-competent. By comparing the amount of HBV DNA in the medium, we found that HBV DNA in medium reflecting HBV replication efficiency was different in different recombinants. Recombinants containing precore mutation had fewer HBV DNAs in culture medium than wild type. This result showed that recombinants containing precore mutation had lower replication efficiency than wild type. HBV DNA was decreased in pUC18-HBV1.2-WT recombinants after IFN was added while others with precore mutations were not, indicating that HBV harboring precore mutation was less sensitive to IFN in cell culture system.

CONCLUSION: These data indicate that HBV harboring precore mutation may be resistant to IFN in vitro.

Interferon for preventing and treating hepatocellular carcinoma associated with the hepatitis B and C viruses

The possibility that interferon-alpha might be effective for the prevention or treatment of hepatocellular carcinoma is suggested by its efficacy against the associated hepatitis B and C viruses, by its efficacy in the treatment of some other human tumours, and by evidence that interferon-alpha may inhibit the growth of human hepatocellular carcinoma cell lines and their production of hepatitis B surface antigen. Few studies support the use of interferon-alpha for preventing hepatitis B virus-associated hepatocellular carcinoma. In contrast, benefit from the use of interferon-alpha to prevent hepatitis C virus-associated hepatocellular carcinoma is suggested in a large number of studies, but most of these studies have weaknesses of study design that preclude definitive conclusions. Nevertheless, most of these studies suggest that the incidence of hepatocellular carcinoma is lower in hepatitis C virus-infected patients receiving interferon-alpha, particularly in patients with a sustained response to interferon-alpha, compared to nonresponders. As a treatment for hepatocellular carcinoma, interferon-alpha was only evaluated in a small number of patients with advanced disease; 'partial responses' and prolongation of survival times in a few of these studies suggest that additional studies should be done in patients with less advanced disease.

Chinese herbal medicine and interferon in the treatment of chronic hepatitis B: a meta-analysis of randomized, controlled trials

OBJECTIVES

This meta-analysis was conducted to examine the effectiveness of Chinese herbal medicine (either alone or with interferon alfa) in treating chronic hepatitis B.

METHODS

We searched the TCMLARS, AMED, CISCOM, EMBASE, MEDLINE, and Cochrane Collaboration databases and then hand-searched the articles' bibliographies.

RESULTS

Chinese herbal medicine significantly increased seroreversion of HBsAg and was equivalent to interferon alfa in seroreversion of HBeAg and hepatitis B virus (HBV) DNA; Chinese herbal medicine combined with interferon alfa significantly increased seroreversion of HBsAg, HBeAg, and HBV DNA. The Chinese herbal medicine active component bufotoxin combined with interferon alfa significantly increased HBeAg and HBV DNA seroreversion. The Chinese herbal medicine active component kurorinone was equivalent to interferon alfa in seroreversion of HBeAg and HBV DNA.

CONCLUSIONS

Although the quality of existing studies was poor, these data suggest that further trials of Chinese Herbal Medicine and interferon in chronic hepatitis B infection are justified.

Cytokine-sensitive replication of hepatitis B virus in immortalized mouse hepatocyte cultures

We have previously shown that alpha/beta interferon (IFN-alpha/beta) and gamma interferon (IFN-gamma) inhibit hepatitis B virus (HBV) replication by eliminating pregenomic RNA containing viral capsids from the hepatocyte. We have also shown that HBV-specific cytotoxic T lymphocytes that induce IFN-gamma and tumor necrosis factor alpha (TNF-alpha) in the liver can inhibit HBV gene expression by destabilizing preformed viral mRNA. In order to further study the antiviral activity of IFN-alpha/beta, IFN-gamma, and TNF-alpha at the molecular level, we sought to reproduce these observations in an in vitro system. Accordingly, hepatocytes were derived from the livers of HBV-transgenic mice that also expressed the constitutively active cytoplasmic domain of the human hepatocyte growth factor receptor (c-Met). Here, we show that the resultant well-differentiated, continuous hepatocyte cell lines (HBV-Met) replicate HBV and that viral replication in these cells is efficiently controlled by IFN-alpha/beta or IFN-gamma, which eliminate pregenomic RNA-containing capsids from the cells as they do in the liver. Furthermore, we demonstrate that IFN-gamma, but not IFN-alpha/beta, is capable of inhibiting HBV gene expression in this system, especially when it acts synergistically with TNF-alpha. These cells should facilitate the analysis of the intracellular signaling pathways and effector mechanisms responsible for these antiviral effects.

Interferon-alpha-2b plus ribavirin: a review of its use in the management of chronic hepatitis C

Relatively few patients (< or =20%) with chronic hepatitis C achieve a sustained virological response after interferon-alpha monotherapy. Hence, alternative treatment strategies such as the addition of the broad spectrum antiviral agent ribavirin to interferon-alpha-2b have been investigated. Combination therapy with subcutaneous interferon-alpha-2b [3 million units (MU) three times per week] plus oral ribavirin (1000 to 1200 mg/day) has proven effective in several well designed trials of 24 to 48 weeks' duration in adult patients with compensated chronic hepatitis C. Compared with interferon-alpha-2b (3 or 6 MU three times per week) with or without placebo, combination treatment with interferon-alpha-2b plus ribavirin significantly enhanced end-of-treatment and sustained virological and biochemical response rates in treatment-naive and treatment-experienced patients [sustained virological response rates in treatment-naive recipients (6 to 19% vs 31 to 43% of patients); sustained overall (virological plus biochemical) response rates in nonresponders to (1 vs 14%) or relapsers (4 to 5% vs 30 to 44%) after previous interferon-alpha monotherapy]. Forty-eight weeks of combination therapy was superior to 24 weeks in treatment-naive patients infected with hepatitis virus C (HCV) genotype 1, whereas response rates were similar at 24 and 48 weeks in those infected with other HCV genotypes. Furthermore, there were marked improvements in histological inflammatory scores in patients who responded to treatment with either interferon-alpha-2b plus ribavirin or interferon-alpha-2b alone. Although adverse events associated with either drug during combination therapy occurred frequently, these were generally mild to moderate in intensity and were consistent with those reported for each individual agent. Twenty-six percent of patients required dosage modifications of one or both drugs during combination therapy.

CONCLUSIONS

Interferon-alpha-2b plus ribavirin is an efficacious first- and second-line therapy in adult patients with compensated chronic hepatitis C, significantly improving sustained virological and biochemical responses versus interferon-alpha-2b monotherapy. The tolerability profile of interferon-alpha-2b plus ribavirin therapy is consistent with the individual profiles of these agents with no evidence of additive effects. The place of interferon-alpha-2b plus ribavirin combination therapy in relation to newer agents, including pegylated interferons-alpha and other multidrug regimens, remains to be determined in this rapidly evolving area of therapeutic management. Currently, combination therapy with interferon-alpha-2b plus ribavirin is recommended as first-line therapy for patients with chronic hepatitis C and compensated liver disease, and is an option for use as second-line therapy in those who have relapsed after, or failed to respond to, previous treatment with interferon-alpha.

Antiviral activity of interferon-alpha against hepatitis B virus can be studied in non-hepatic cells and Is independent of MxA

It is well established that interferon-alpha can induce non-cytotoxic intracellular suppression of hepatitis B virus replication, but the mechanisms involved are unclear. Cell culture studies to characterize these mechanisms are restricted, in part because hepatitis B virus replicates almost exclusively in liver-derived cells. To overcome this limitation we used a cytomegalovirus promoter-controlled hepatitis B virus expression system, which leads to intracellular viral replication even in non-hepatic cell lines. In this experimental system interferon-alpha treatment specifically suppressed viral replication demonstrating that antiviral activities against hepatitis B virus are not restricted to hepatic cells. Furthermore, the interferon-inducible MxA protein was recently reported to play a key role in the antiviral action of interferon-alpha against hepatitis B virus. Our data demonstrate that interferon-alpha also suppresses hepatitis B virus replication in MxA-deficient HEp2 cells, indicating that MxA is not essential for these activities. Taken together, our data imply that the experimental approach presented can also be adapted to established cell lines which are deficient in parts of the signal transduction pathway or other elements located further downstream, providing important insights into mechanisms specifically suppressing hepatitis B virus.

Inhibition of hepatitis B virus replication by the interferon-inducible MxA protein

Human MxA is an alpha/beta interferon-inducible intracytoplasmic protein that mediates antiviral activity against several RNA viruses. We had previously shown that overexpression of the hepatitis B virus (HBV) capsid led to selective downregulation of MxA gene expression, suggesting a mechanism by which the virus escapes from the host defense system (O. Rosmorduc, H. Sirma, P. Soussan, E. Gordien, P. Lebon, M. Horisberger, C. Brechot and D. Kremsdorf, J. Gen. Virol. 80:1253-1262, 1999). In the present study, we investigated the antiviral activity of MxA protein against HBV. MxA-expressing HuH7 clones were established and transiently transfected with HBV, and viral replication was then studied. Viral protein secretion was profoundly reduced in MxA-expressing clones by 80% for HBV surface antigen (HBsAg) and 70% for HBV e antigen (HBeAg). The levels of intracytoplasmic HBsAg and HBeAg were reduced by about 80 and 50% in the two MxA-positive clones tested. A nearly complete disappearance of HBV DNA replicative intermediates was observed in MxA-expressing clones. Although the expression of total viral RNAs was not modified, two- to fourfold reductions in HBV cytoplasmic RNAs were found in MxA-expressing clones. This suggests the inhibition of HBV replication at a posttranscriptional level. Indeed, using the well-characterized posttranscriptional regulation element (PRE) reporter system, we were able to demonstrate a marked reduction (three- to eightfold) in the nucleocytoplasmic export of unspliced RNA in MxA-expressing clones. In addition, MxA protein did not interact with HBV nucleocapsid or interfere with HBV nucleocapsid formation. Our results show an antiviral effect of MxA protein on a DNA virus for the first time. MxA protein acts, at least in part, by inhibiting the nucleocytoplasmic export of viral mRNA via the PRE sequence.

Lack of a role of the interferon-stimulated response element-like region in interferon alpha -induced suppression of Hepatitis B virus in vitro

The antiviral effect of interferon-alpha (IFNalpha) on hepatitis B virus (HBV) is well documented in vitro and in vivo, but the mechanisms involved are elusive. Recently, an interferon-stimulated response like element (ISRE) competent for binding of interferon-stimulated gene factor-3gamma (p48) has been identified in the HBV enhancer I region. Mutation of this element was shown to abrogate IFNalpha-mediated reduction of HBV X-gene promoter-driven reporter gene expression. This suggested a role of the ISRE and of p48 in IFNalpha-induced antiviral activity against productive HBV infection. Here, we analyzed the antiviral effect of both IFNalpha and enhanced p48 expression on complete HBV genomes containing the wild-type or mutated ISRE. In human hepatoma cells transfected with both genomes, viral RNA and replicative intermediates were reduced by IFNalpha treatment to a similar degree. Enhanced p48 expression increased IFNalpha-induced suppression of HBV RNA significantly from 75 +/- 22.5% to 46 +/- 9.8%, but this was independent of the integrity of the ISRE-like region. These data imply that p48 neither mediates the antiviral activity of IFNalpha against HBV nor down-regulates enhancer I activity by binding directly to the HBV ISRE-like region, but rather argue for an indirect role of p48.

Effect of oral administration of emtricitabine on woodchuck hepatitis virus replication in chronically infected woodchucks

Emtricitabine [(-)FTC] [(-)-beta-2', 3'-dideoxy-5-fluoro-3'-thiacytidine] has been shown to be an effective inhibitor of hepatitis B virus (HBV) in cell culture, with a potency and selectivity that are essentially identical to those of lamivudine. The antiviral activity of oral administration of (-)FTC against WHV replication in chronically infected woodchucks, an established and predictive model for antiviral therapy against HBV, was examined in a placebo-controlled study. (-)FTC significantly reduced viremia and intrahepatic WHV replication in a dose-dependent manner that was comparable to the antiviral activity of lamivudine observed in previous studies conducted by our laboratories. No effect on the levels of hepatic WHV RNA or the levels of woodchuck hepatitis surface antigen or anti-woodchuck hepatitis surface and core antibodies in the serum of the treated animals was observed. No evidence of drug-related toxicity was observed in any of the animals treated.

Effect of interferon alpha on hepatitis B virus replication and gene expression in transiently transfected human hepatoma cells

BACKGROUND/AIMS

Chronic hepatitis B virus (HBV) infection is predominantly treated with interferon alpha (IFNalpha), which results in efficient reduction of the viral load only in 10-20% of treated patients. The mechanisms induced by IFNalpha resulting in reduction of viremia in responding patients are unknown. The aim of this study was to characterize HBV-specific IFNalpha-induced intracellular inhibitory mechanisms and IFNalpha-sensitive HBV targets.

METHODS

To determine the antiviral activity, cells transiently transfected with HBV DNA were treated with IFNalpha and thereafter, viral products were quantified at different time points.

RESULTS

Time-dependent reduction of RNA, replicative DNA-intermediates, core protein and secreted HBsAg/HBeAg levels was observed in IFNalpha-treated cells. Viral RNA levels were reduced most effectively early post-treatment whereas those of core protein and replicative intermediates decreased later. By expression of subgenomic HBV sequences, an RNA target region mediating IFNalpha-induced RNA degradation was mapped.

CONCLUSIONS

These data indicate that HuH7 cells transiently transfected with HBV-DNA represent a system well suited for detailed analysis of IFNa-induced antiviral mechanisms and HBV targets. At least two IFNalpha-induced HBV-specific antiviral activities are active in this system: one reduces the levels of core protein and replicative intermediates, the other leads to posttranscriptional degradation of HBV-RNA. Based on the established in vitro system a detailed characterization of the IFNalpha-sensitive RNA-region and of factors mediating this intracellular antiviral effect is feasible. This may lead to the development of novel strategies for therapy of chronic hepatitis.

Elimination of duck hepatitis B virus RNA-containing capsids in duck interferon-alpha-treated hepatocytes

Evidence is presented that the previously cloned type I duck interferon (DuIFN) cDNA encodes a homologue of mammalian interferon-alpha (IFN-alpha). Recombinant DuIFN-alpha was used to study the inhibition of duck hepatitis B virus (DHBV) replication in primary hepatocytes in order to determine the IFN-sensitive steps of the virus replication cycle. IFN-treated cells accumulated two- to threefold-lower amounts of viral RNA transcripts early during infection, when IFN was added before virus. This reduction was not due to inhibition of virus entry since initial covalently closed circular DNA levels were not decreased in IFN-treated cells. Interestingly, the inhibitory effect of IFN on viral RNA levels was not observed in cells infected with a mutant DHBV that fails to synthesize core protein, suggesting that an uncharacterized core protein-mediated enhancing effect is blocked by IFN. When IFN was added at 4 days postinfection, encapsidated viral RNA pregenomes disappeared from infected cells within 3 days. This depletion was not simply due to conversion of pregenomes to DNA since depletion was not blocked by phosphonoformic acid, an inhibitor of the viral reverse transcriptase. The intracellular concentration of intact nucleocapsids was reduced, suggesting that in the presence of IFN pregenome-containing capsids were selectively depleted in hepatocytes. Thus, two steps in DHBV replication that involve the viral core protein were inhibited by DuIFN-alpha.

Inducible expression of human hepatitis B virus (HBV) in stably transfected hepatoblastoma cells: a novel system for screening potential inhibitors of HBV replication

We report the development and isolation of a cell line, termed HepAD38, that replicates human hepatitis B virus (HBV) under conditions that can be regulated with tetracycline. In the presence of the antibiotic, this cell line is free of virus due to the repression of pregenomic (pg) RNA synthesis. Upon removal of tetracycline from the culture medium, the cells express viral pg RNA, accumulate subviral particles in the cytoplasm that contain DNA intermediates characteristic of viral replication, and secrete virus-like particles into the supernatant. Since the HepAD38 cell line can produce high levels of HBV DNA, it should be useful for analyses of the viral replication cycle that depend upon viral DNA synthesis in a synchronized fashion. In addition, this cell line has been formatted into a high-throughput, cell-based assay that permits the large-scale screening of diverse compound libraries for new classes of inhibitors of HBV replication.

1592U89, a novel carbocyclic nucleoside analog with potent, selective anti-human immunodeficiency virus activity

1592U89, (-)-(1S,4R)-4-[2-amino-6-(cyclopropylamino)-9H-purin-9-yl]-2-cyclo pentene-1-methanol, is a carbocyclic nucleoside with a unique biological profile giving potent, selective anti-human immunodeficiency virus (HIV) activity. 1592U89 was selected after evaluation of a wide variety of analogs containing a cyclopentene substitution for the 2'-deoxyriboside of natural deoxynucleosides, optimizing in vitro anti-HIV potency, oral bioavailability, and central nervous system (CNS) penetration. 1592U89 was equivalent in potency to 3'-azido-3'-deoxythymidine (AZT) in human peripheral blood lymphocyte (PBL) cultures against clinical isolates of HIV type 1 (HIV-1) from antiretroviral drug-naive patients (average 50% inhibitory concentration [IC50], 0.26 microM for 1592U89 and 0.23 microM for AZT). 1592U89 showed minimal cross-resistance (approximately twofold) with AZT and other approved HIV reverse transcriptase (RT) inhibitors. 1592U89 was synergistic in combination with AZT, the nonnucleoside RT inhibitor nevirapine, and the protease inhibitor 141W94 in MT4 cells against HIV-1 (IIIB). 1592U89 was anabolized intracellularly to its 5'-monophosphate in CD4+ CEM cells and in PBLs, but the di- and triphosphates of 1592U89 were not detected. The only triphosphate found in cells incubated with 1592U89 was that of the guanine analog (-)-carbovir (CBV). However, the in vivo pharmacokinetic, distribution, and toxicological profiles of 1592U89 were distinct from and improved over those of CBV, probably because CBV itself was not appreciably formed from 1592U89 in cells or animals (<2%). The 5'-triphosphate of CBV was a potent, selective inhibitor of HIV-1 RT, with Ki values for DNA polymerases (alpha, beta, gamma, and epsilon which were 90-, 2,900-, 1,200-, and 1,900-fold greater, respectively, than for RT (Ki, 21 nM). 1592U89 was relatively nontoxic to human bone marrow progenitors erythroid burst-forming unit and granulocyte-macrophage CFU (IC50s, 110 microM) and human leukemic and liver tumor cell lines. 1592U89 had excellent oral bioavailability (105% in the rat) and penetrated the CNS (rat brain and monkey cerebrospinal fluid) as well as AZT. Having demonstrated an excellent preclinical profile, 1592U89 has progressed to clinical evaluation in HIV-infected patients.

DNA polymerase activity of hepatitis B virus particles: differential inhibition by L-enantiomers of nucleotide analogs

DNA polymerase activity was assayed in hepatitis B virus (HBV) and core particles isolated from chronic producer lines. The particle-associated DNA polymerase activity, which was found to be limited to incorporation of only a few nucleotides, was inhibited by the 5'-triphosphates of nucleoside analogs. The 1-beta-L (1S,4R) and 1-beta-D (1R,4S) enantiomers of antiviral nucleoside analogs were compared for the ability to inhibit incorporation of natural nucleoside triphosphates into the viral DNA. Previously, both enantiomers of several analogs were found to be substrates for human immunodeficiency virus type 1 reverse transcriptase (HIV RT); the 1-beta-D enantiomers of some pairs were preferred as substrates. In contrast, the 1-beta-L enantiomers of all pairs tested were the more potent inhibitors of labeled substrate incorporation into hepatitis B virus DNA; the concentration required to inhibit the incorporation of the natural substrate by 50% was 6-fold to several hundred-fold lower than the concentration of the 1-beta-D enantiomer required for the same inhibitory effect. This preference for the 1-beta-L enantiomers was observed for both RNA-directed synthesis in core particles and DNA-directed synthesis in viral particles. The observed antiviral effect of the nucleoside analogs in cell culture seemed to be limited chiefly by their phosphorylation in cells.

2',3'-dideoxy-3'-fluoroguanosine inhibits duck hepatitis B virus in vivo

Duck hepatitis B virus (DHBV) belongs to the same virus family as the human hepatitis B virus (HBV). Domestic ducks infected with DHBV can be used as an animal model for chronic hepatitis B virus infection in therapeutic trials. In this study the antiviral effect of the guanosine analogue 2',3'-dideoxy-3'-fluoroguanosine (FLG) was tried in vivo on chronically DHBV-infected ducks. The ducks were either congenitally infected, or inoculated with DHBV immediately post-hatch. FLG was given as intraperitoneal injections twice daily, at different dosages. Serum DHBV levels were determined by DNA dot-blot hybridization. A strong inhibition of serum DHBV DNA was observed with FLG doses down to 1 mg kg-1 day-1, given for 7 to 10 days. With the corresponding thymidine analogue, 2',3'-dideoxy-3'-fluorothymidine; however, no inhibition was obtained. This difference may be due to different phosphorylation mechanisms. Independently of FLG dose, serum DHBV DNA returned to pretreatment levels within a few days after cessation of therapy. After a long-term trial (FLG, 5 mg kg-1 day-1 for 33 days), the same relapse of DHBV production was seen. Thus, FLG is an efficient inhibitor of DHBV replication, and is a candidate for treatment of HBV infections. However, the effect is transient, and therefore combination with other types of anti-HBV drugs should be considered.