A Mouse Model for Studying the Clearance of Hepatitis B Virus In Vivo Using a Luciferase Reporter

Hepatitis B virus(HBV) infection remains a global problem, despite the effectiveness of the Hepatitis B vaccine in preventing infection. The resolution of Hepatitis B virus infection has been believed to be attributable to virus-specific immunity. In vivo direct evaluation of anti-HBV immunity in the liver is currently not possible. We have developed a new assay system that detects HBV clearance in the liver after the hydrodynamic transfer of a reporter gene and over-length, linear HBV DNA into hepatocytes, followed by bioluminescence imaging of the reporter gene (Fluc). We employed bioluminescence detection of luciferase expression in HBV-infected hepatocytes to measure the Hepatitis B core antigen (HBcAg)-specific immune responses directed against these infected hepatocytes. Only HBcAg-immunized, but not mock-treated, animals decreased the amounts of luciferase expression, HBsAg and viral DNA from the liver at day 28 after hydrodynamic infection with over-length HBV DNA, indicating that control of luciferase expression correlates with viral clearance from infected hepatocytes.     

Dynamical Behaviour of Viral Cycle and Identification of Steady States

The molecular biology of viruses can be effectively described by kinetic logic as several feedback loops are implicated in all viral cycles and as viral proteins generally display several functions. We applied this method to the study of the rhabdovirus cycle.Formally, the dynamics of the model are explored on the basis of a discrete caricature (kinetic logic), with special emphasis on the role of the constitutive feedback loops to determine the essential dynamical behaviour of the viral cycle. From a biological point of view, our model accounts for several stable regimes or attractors: healthy cells, acute infection and different kinds of persistent infections, a multistationarity in good agreement with the existence of several positive feedback loops in our system.     

A chronic carrierlike state is established in nude mice injected with cloned hepatitis B virus DNA.

BALB/c nude mice were injected intrahepatically with hepatitis B virus (HBV) DNA prepared from recombinant plasmids. Hepatitis B surface antigen appeared in the circulation in 19 of 23 mice (82%) 3 to 20 weeks postinjection and persisted for more than 6 months in most animals. Hepatitis B e antigen appeared transiently in the circulation in 12 of the 23 mice (52%) within a few weeks after the appearance of hepatitis B surface antigen. Antibodies to the core, X, and/or polymerase gene products of HBV have also been observed in 14 (61%) of the mice. Histopathological examination of the livers at 7 months postinjection demonstrated that nearly half had characteristics consistent with chronic hepatitis. HBV DNA appeared to be integrated into host liver DNA. No evidence of viral replication was observed in sera or livers from these mice at 7 months postinjection. These results demonstrate that an HBV chronic carrierlike state can be established in mice and that such a model could be used to study host and virus factors important in the establishment and maintenance of HBV-associated chronic liver disease.     

Hepatitis B viral factors and clinical outcomes of chronic hepatitis B

Hepatitis B virus (HBV) infection is an important health problem and the major cause of chronic hepatitis, cirrhosis as well as hepatocellular carcinoma (HCC) worldwide. The natural history of chronic HBV infection can be divided into 4 dynamic phases in HBV carriers who acquire the virus early in life. In general, the frequency and severity of hepatitis flares in the immune clearance or reactivation phase predict disease progression in HBV carriers, and early HBeAg seroconversion typically confers a favorable outcome. In contrast, late or absent HBeAg seroconversion after multiple hepatitis flares accelerates the progression of chronic hepatitis to cirrhosis. Recently, several hepatitis B viral factors predictive of clinical outcomes have been identified. For example, serum HBV DNA level at enrollment is the best predictor of adverse outcomes (cirrhosis, HCC and death from liver disease) in adults with chronic HBV infection. In addition, HBV genotype C, basal core promoter (BCP) mutant and pre-S deletion mutant are associated with increased risk of HCC development. In conclusion, hepatitis B viral factors such as serum HBV DNA level, genotype and mutants have already been clarified to influence disease progression of chronic hepatitis B. Further studies are needed to investigate the pathogenic mechanism of each viral factor.     

Antibody Responses during Hepatitis B Viral Infection

Hepatitis B is a DNA virus that infects liver cells and can cause both acute and chronic disease. It is believed that both viral and host factors are responsible for determining whether the infection is cleared or becomes chronic. Here we investigate the mechanism of protection by developing a mathematical model of the antibody response following hepatitis B virus (HBV) infection. We fitted the model to data from seven infected adults identified during acute infection and determined the ability of the virus to escape neutralization through overproduction of non-infectious subviral particles, which have HBs proteins on their surface, but do not contain nucleocapsid protein and viral nucleic acids. We showed that viral clearance can be achieved for high anti-HBV antibody levels, as in vaccinated individuals, when: (1) the rate of synthesis of hepatitis B subviral particles is slow; (2) the rate of synthesis of hepatitis B subviral particles is high but either anti-HBV antibody production is fast, the antibody affinity is high, or the levels of pre-existent HBV-specific antibody at the time of infection are high, as could be attained by vaccination. We further showed that viral clearance can be achieved for low equilibrium anti-HBV antibody levels, as in unvaccinated individuals, when a strong cellular immune response controls early infection.     

In vitro investigation of HBV clinical isolates from Chinese patients reveals that genotype C isolates possess higher infectivity than genotype B isolates

Hepatitis B virus (HBV) genotype B and C are two major genotypes that are prevalent in Asia and differ in natural history and disease progression. The impact of HBV genotypes on viral replication and protein expression has been explored by the transfection of hepatoma cells with replication-competent HBV DNA, which mimics the later stages of the viral life cycle. However, the influence of HBV genotypes on the early events of viral infection remains undetermined, mainly due to the difficulties in obtaining sufficient infectious viral particles for infection assays. Here, we report that a high-titer HBV inoculum can be generated from the transient transfection-based cell model after optimizing transfection conditions and modifying the HBV-expressing construct. By performing in vitro infection assays using transiently transfected derived viruses, we found that clinical genotype C isolates possessed higher infectivity than genotype B isolates. Moreover, we identified a naturally occurring mutation sL21S in small hepatitis B surface protein, which markedly decreased the infectivity of HBV genotype C isolates, but not that of genotype B isolates. In summary, using infectious viral particles provided by the optimized transient transfection-based cell model, we have been able to investigate a wide range of HBV variants on viral infectivity, which may contribute to our understanding of the reasons for different clinical outcomes in HBV infections and the development of therapeutic drugs targeting the early stages of HBV life cycle.     

A molecularly cloned hepatitis B virus produced in vitro is infectious in a chimpanzee.

The infectivity of hepatitis B virus (HBV) produced in vitro by HepG2 cells transfected with HBV DNA (HepG2T14) has been assayed in a chimpanzee. Following inoculation, the chimpanzee underwent a typical course of type B hepatitis infection, characterized by elevation of serum aminotransferases and by histological identification of hepatic damage. Hepatitis B surface antigen and core-related antigen appeared in the serum at weeks 5 and 7, respectively, after infection. HBV DNA was detected in serum samples, and replicative forms of the HBV genome were identified in liver biopsies. Subtype identification of hepatitis B surface antigen and restriction enzyme analysis of HBV DNA in both the inoculum and the serum of the infected chimpanzee confirmed that the hepatitis B infection observed in this animal was caused by viral particles produced by HepG2T14 cells. These findings indicate that, although HepG2 cells do not seem to be susceptible to infection by HBV in vitro, they can produce biologically active infectious virions after transfection with cloned HBV DNA.     

siRNA抑制乙肝病毒的研究进展

乙型肝炎作为一种发病率高、死亡率高的传染性疾病,已严重威胁人类健康,乙肝病毒（hepatitis B virus,HBV）是诱发乙型肝炎的重要病因。目前,最主要的治疗方法是运用抗病毒药物控制病情,但这些药物都不能完全治愈乙型肝炎且复发率高。近年来,RNA干扰技术（RNA interference, RNAi）逐渐成为有效、快速治疗乙型肝炎的新疗法。利用RNA干扰技术体外合成针对HBV基因的siRNA,选择适当的载体将其运送至靶细胞,使HBV基因沉默,从而抑制病毒复制,可有效达到治疗乙肝的效果。本文围绕siRNA沉默HBV基因的设计原理、递送载体、靶向策略、以及治疗效果与应用前景等方面进行了系统综述,为今后siRNA治疗乙肝的临床应用提供参考。     

从动物模型看乙型病毒性肝炎致病机制的研究进展

乙型肝炎病毒(Hepatitis B virus,HBV)是通过血液和体液传播的嗜肝DNA病毒,尽管有有效的预防疫苗,乙型病毒性肝炎仍是我国乃至全球人类健康的重大威胁。HBV的易感宿主只局限于人以及黑猩猩等灵长类动物,HBV感染性疾病的研究遇到很大困难。多种小动物研究模型的建立,使我们对HBV感染致病机制的认识有了很大进步,包括:分子病毒学特征、在感染细胞中生命周期、机体的抗病毒免疫反应、肝脏病变的免疫病理机制等。但是,由于已有动物模型的种种限制,我们对HBV感染及乙型肝炎发生和发展的认识还远远不够,目前除了抗病毒治疗外,还没有有效地治疗慢性乙肝的方法。建立能够真实反映临床HBV感染、乙肝发生和进展过程的纯系小鼠模型,对于我们全面深入地理解HBV感染的侵入机制、宿主和病毒之间相互作用,以及发展预防和治疗HBV感染的新方法都具有非常重要的意义。     

Experimental chronic hepatitis B infection of neonatal tree shrews (Tupaia belangeri chinensis): A model to study molecular causes for susceptibility and disease progression to chronic hepatitis in humans

ABSTRACT: BACKGROUND: Hepatitis B virus (HBV) infection continues to be an escalating global health problem. Feasible and effective animal models for HBV infection are the prerequisite for developing novel therapies for this disease. The tree shrew (Tupaia) is a small animal species evolutionary closely related to humans, and thus is permissive to certain human viral pathogens. Whether tree shrews could be chronically infected with HBV in vivo has been controversial for decades. Most published research has been reported on adult tree shrews, and only small numbers of HBV infected newborn tree shrews had been observed over short time periods. We investigated susceptibility of newborn tree shrews to experimental HBV infection as well as viral clearance over a protracted time period. RESULTS: Forty-six newborn tree shrews were inoculated with the sera from HBV-infected patients or tree shrews. Serum and liver samples of the inoculated animals were periodically collected and analyzed using fluorescence quantitative polymerase chain reaction, enzyme-linked immunosorbent assay, Southern blot, and immunohistochemistry. Six tree shrews were confirmed and four were suspected as chronically HBV-infected for more than 48 (up to 228) weeks after inoculation, including three that had been inoculated with serum from a confirmed HBV-infected tree shrew. CONCLUSIONS: Outbred neonatal tree shrews can be long-term chronically infected with HBV at a frequency comparable to humans. The model resembles human disease where also a smaller proportion of infected individuals develop chronic HBV related disease. This model might enable genetic and immunologic investigations which would allow determination of underlying molecular causes favoring susceptibility for chronic HBV infection and disease establishment vs. viral clearance.     

Inhibition of Hepatitis B Virus cccDNA by siRNA in Transgenic Mice

The elimination of viral covalently closed circular DNA (cccDNA) from the nucleus of infected hepatocytes is an obstacle to achieving sustained viral clearance during antiviral therapy of chronic hepatitis B virus (HBV) infection. The aim of our study was to determine whether treatment with siRNA is able to suppress viral cccDNA amplification using a HBV-transgenic mice model. The experimental results revealed that siRNAs can serve as efficient alternative anti-HBV agents, because they showed better inhibitory effect on viral replication and antigen expression in transgenic mice. More importantly, the siRNA markedly inhibited HBV cccDNA amplification.     

Analysis of a cellular model to account for the natural history of infection by the hepatitis B virus and its role in the development of primary hepatocellular carcinoma.

Infection with the hepatitis B virus (HBV) can have many different outcomes. Transient infection may result in acute hepatitis or may remain subclinical. Persistent infection may also be subclinical, or may involve chronic active hepatitis, and can finally lead to the development of primary hepatocellular carcinoma. A mathematical model is given to account for the many different outcomes of HBV pathogenesis. The model is based on the assumption that the liver contains two cell populations with differing abilities to support active HBV replication and/or viral integration into the genome. The model helps account for the relationship of the different clinical courses of HBV infection to the age when the disease is acquired, together with the state of the immune system of the patient.     

乙型肝炎病毒特异性细胞毒性T淋巴细胞在病毒清除过程中的作用

在乙型肝炎病毒(HBV)感染过程中,适应性免疫与病毒的致病和清除密切相关。一般认为,体液免疫产生的抗体可以清除外周循环的病毒颗粒,从而阻止病毒在宿主体内的传播,细胞免疫主要清除被感染细胞中的病毒。HBV特异性的细胞毒性T淋巴细胞(CTL)在抑制HBV复制过程中发挥着重要的作用。CTL在肝内主要通过分泌γ干扰素抑制病毒,同时,当CTL识别HBV抗原后,HBV特异性CTL募集抗原非特异性炎症细胞对肝组织浸润,造成肝细胞的损伤。对CTL抗病毒作用进行深入研究,将为乙型肝炎的治疗开辟新的途径。     

A new unconventional HLA-A2-restricted epitope from HBV core protein elicits antiviral cytotoxic T lymphocytes

Cytotoxic T cells (CTLs) play a key role in the control of Hepatitis B virus (HBV) infection and viral clearance. However, most of identified CTL epitopes are derived from HBV of genotypes A and D, and few have been defined in virus of genotypes B and C which are more prevalent in Asia. As HBV core protein (HBc) is the most conservative and immunogenic component, in this study we used an overlapping 9-mer peptide pool covering HBc to screen and identify specific CTL epitopes. An unconventional HLA-A2-restricted epitope HBc141–149 was discovered and structurally characterized by crystallization analysis. The immunogenicity and anti-HBV activity were further determined in HBV and HLAA2 transgenic mice. Finally, we show that mutations in HBc141–149 epitope are associated with viral parameters and disease progression in HBV infected patients. Our data therefore provide insights into the structure characteristics of this unconventional epitope binding to MHC-I molecules, as well as epitope specific CTL activity that orchestrate T cell response and immune evasion in HBV infected patients.     

Hepatitis B virus X protein modulates upregulation of DHX9 to promote viral DNA replication

Hepatitis B virus (HBV) infection is a major cause of acute and chronic liver diseases. During the HBV life cycle, HBV hijacks various host factors to assist viral replication. In this research, we find that the HBV regulatory protein X (HBx) can induce the upregulation of DExH‐box RNA helicase 9 (DHX9) expression by repressing proteasome‐dependent degradation mediated by MDM2. Furthermore, we demonstrate that DHX9 contributes to viral DNA replication in dependence on its helicase activity and nuclear localization. In addition, the promotion of viral DNA replication by DHX9 is dependent on its interaction with Nup98. Our findings reveal that HBx‐mediated DHX9 upregulation is essential for HBV DNA replication.     

Hepatitis B virus (HBV)-specific cytotoxic T-cell (CTL) response in humans: characterization of HLA class II-restricted CTLs that recognize endogenously synthesized HBV envelope antigens.

In this study, we show that CD4+, hepatitis B virus (HBV) envelope-specific T-cell clones produced by stimulation with a particulate antigen preparation are able to recognize and kill not only autologous antigen-presenting cells incubated with exogenous HBV envelope antigens but also autologous HLA class II-positive cells expressing endogenously synthesized HBV envelope antigens following infection with recombinant vaccinia viruses or transfection with recombinant Epstein-Barr virus expression vectors. Experiments with lysosomotropic agents and brefeldin A suggest that the endosomal compartment is likely involved in the processing of endogenously synthesized viral proteins for recognition by CD4+ T cells. Our study indicates that HBV envelope-specific, HLA class II-restricted CD4+ cytotoxic T lymphocytes can potentially participate in the immune clearance of HBV-infected cells and the pathogenesis of hepatocellular injury in hepatitis B.