siRNA Combinations Mediate Greater Suppression of Hepatitis B virus Replication in Mice

Hepatitis B virus (HBV) infection is a major world-wide health problem. The major obstacles for current anti-HBV therapy are the low efficacy and the occurrence of drug resistant HBV mutations. Recent studies have demonstrated that combination therapy can enhance antiviral efficacy and overcome shortcomings of established drugs. In this study, the inhibitory effect mediated by combination of siRNAs targeting different sites of HBV in transgenic mice was analyzed. HBsAg and HBeAg in the sera of the mice were analyzed by enzyme-linked immunoadsorbent assay, HBV DNA by real-time PCR and HBV mRNA by RT-PCR. Our data demonstrated that all the three siRNAs employed showed marked anti-HBV effects. The expression of HBsAg and the replication of HBV DNA could be specifically inhibited in a dose-dependent manner by siRNAs. Furthermore, combination of siRNAs compared with individual use of each siRNA, exerted a stronger inhibition on antigen expression and viral replication, even though the final concentration of siRNA used for therapy was the same. Secreted HBsAg and HBeAg in the serum of mice treated with siRNA combination were reduced by 96.7 and 96.6 %, respectively. Immunohistochemical detection of liver tissue revealed 91 % reduction of HBsAg-positive cells in the combination therapy group. The combination of siRNAs caused a greater inhibition in the levels of viral mRNA and DNA (90 and 87.7 %) relative to the control group. It was noted that the siRNA3 showed stronger inhibition of cccDNA (78.6 %). Our results revealed that combination of siRNAs mediated a stronger inhibition of viral replication and antigen expression in transgenic mice than single siRNAs.     

Roles of the envelope proteins in the amplification of covalently closed circular DNA and completion of synthesis of the plus-strand DNA in hepatitis B virus

Covalently closed circular DNA (cccDNA), the nuclear form of hepatitis B virus (HBV), is synthesized by repair of the relaxed circular (RC) DNA genome. Initially, cccDNA is derived from RC DNA from the infecting virion, but additional copies of cccDNA are derived from newly synthesized RC DNA molecules in a process termed intracellular amplification. It has been shown that the large viral envelope protein limits the intracellular amplification of cccDNA for duck hepatitis B virus. The role of the envelope proteins in regulating the amplification of cccDNA in HBV is not well characterized. The present report demonstrates regulation of synthesis of cccDNA by the envelope proteins of HBV. Ablation of expression of the envelope proteins led to an increase (>6-fold) in the level of cccDNA. Subsequent restoration of envelope protein expression led to a decrease (>50%) in the level of cccDNA, which inversely correlated with the level of the envelope proteins. We found that the expression of L protein alone or in combination with M and/or S proteins led to a decrease in cccDNA levels, indicating that L contributes to the regulation of cccDNA. Coexpression of L and M led to greater regulation than either L alone or L and S. Coexpression of all three envelope proteins was also found to limit completion of plus-strand DNA synthesis, and the degree of this effect correlated with the level of the proteins and virion secretion.     

Generation of Covalently Closed Circular DNA of Hepatitis B Viruses via Intracellular Recycling Is Regulated in a Virus Specific Manner

Persistence of hepatitis B virus (HBV) infection requires covalently closed circular (ccc)DNA formation and amplification, which can occur via intracellular recycling of the viral polymerase-linked relaxed circular (rc) DNA genomes present in virions. Here we reveal a fundamental difference between HBV and the related duck hepatitis B virus (DHBV) in the recycling mechanism. Direct comparison of HBV and DHBV cccDNA amplification in cross-species transfection experiments showed that, in the same human cell background, DHBV but not HBV rcDNA converts efficiently into cccDNA. By characterizing the distinct forms of HBV and DHBV rcDNA accumulating in the cells we find that nuclear import, complete versus partial release from the capsid and complete versus partial removal of the covalently bound polymerase contribute to limiting HBV cccDNA formation; particularly, we identify genome region-selectively opened nuclear capsids as a putative novel HBV uncoating intermediate. However, the presence in the nucleus of around 40% of completely uncoated rcDNA that lacks most if not all of the covalently bound protein strongly suggests a major block further downstream that operates in the HBV but not DHBV recycling pathway. In summary, our results uncover an unexpected contribution of the virus to cccDNA formation that might help to better understand the persistence of HBV infection. Moreover, efficient DHBV cccDNA formation in human hepatoma cells should greatly facilitate experimental identification, and possibly inhibition, of the human cell factors involved in the process.     

应用微环DNA技术体外诱导和制备重组的乙型肝炎病毒共价闭合环状DNA

乙型肝炎病毒(hepatitis B virus,HBV)共价闭合环状DNA(covalently closed circular DNA,cccDNA)是病毒慢性感染的分子基础。本课题组前期研究通过Cre/loxP介导的位点特异性DNA重组策略,在细胞核内由前体质粒诱导重组cccDNA(rcccDNA^loxP)产生,首次建立了HBV cccDNA的体外培养细胞和小鼠实验模型。本研究基于大肠埃希菌ZYCY10P3S2T PhiC31重组酶诱导表达系统,建立了一种体外诱导HBV rcccDNA(rcccDNA^attR)微环产生和纯化的策略。纯化的rcccDNA^attR微环具有超螺旋结构,细胞培养实验证实其能支持功能性的HBV复制和抗原表达。与普通的线性HBV复制子编码质粒相比,rcccDNA^attR尾静脉高压注射小鼠模型能诱导显著延长的病毒抗原血症。因此,本研究在原核表达系统和实验小鼠水平提供了一种更为简化的HBV cccDNA实验模型系统,并再次显示rcccDNA具有显著的稳定性,能作为一种基本策略在小鼠模型中诱导病毒持续感染。     

Prostaglandin F(2alpha) stimulates tyrosine phosphorylation of phospholipase C-gamma1

The persistence of covalently closed circular (ccc) DNA of Hepatitis B virus (HBV) in liver cells is believed to be the major reason for relapse after completion of HBV antiviral therapy. Up to now, there is no sensitive method to quantify cccDNA in infected liver cells. We designed a set of primers to specifically amplify DNA fragments from HBV cccDNA but not from viral genomic DNA. A good linear range was obtained when 100-10(7) copies of HBV cccDNA were used as template in the quantitative real-time PCR. Not only is this method rapid, economical, highly sensitive, it can be used to monitor HBV cccDNA in infected human liver biopsies and to guide patients undergoing long-term anti-HBV therapy.     

Duck Hepatitis B Virus cccDNA Amplification Efficiency in Natural Infection Is Regulated by Virus Secretion Efficiency

Previous mutation based studies showed that ablating synthesis of viral envelope proteins led to elevated hepadnaviral covalently closed circular DNA (cccDNA) amplification, but it remains unknown how cccDNA amplification is regulated in natural hepadnaviral infection because of a lack of research system. In this study we report a simple procedure to prepare two identical duck hepatitis B virus inocula, but they possess 10-100-fold difference in cccDNA amplification in infected cell culture. We demonstrate that the infected cells with higher cccDNA amplification significantly reduce the virus secretion efficiency that results in higher accumulation of relaxed circular DNA (rcDNA) and DHBsAg in the cells. The infected cells with lower cccDNA amplification significantly increase the virus secretion efficiency that leads to lower intracellular rcDNA and DHBsAg accumulation. In contrast with the findings generated in the mutation based experimental system, the regulation of cccDNA amplification in natural hepadnaviral infection bypasses direct regulation of the cellular envelope proteins concentration, instead it modulates virus secretion efficiency that ultimately impacts the intracellular rcDNA concentration, an important factor determining the destination of the synthesized rcDNA in infected cells.     

双表达小干扰RNA抑制小鼠体内HBV感染

目的运用水压法复制HBV小鼠急性模型,用于研究双表达siRNA在小鼠体内对HBV复制的抑制作用。方法使用HBV质粒DNA对BALB/c小鼠进行尾静脉大剂量快速推注,获得急性HBV体内表达模型。同时使用相同方法对推注后的小鼠进行RNAi干预。对不同处理组动物的HBsAg、HBeAg、HBcAg和HBV DNA进行ELISA、免疫组织化学和实时定量RT-PCR检测。结果水压法复制HBV小鼠急性模型与HBV DNA感染剂量无明显相关。与单表达siRNA相比较,双表达siRNA对HBV抗原表达抑制较为明显。结论双表达siRNA不失为一种体内抑制HBV感染的一种策略。     

乙型肝炎病毒共价键闭环DNA的表观遗传调控研究进展

乙型肝炎病毒(hepatitis B virus,HBV)感染仍然是威胁全球人类生命与健康的重要危险因素。虽然目前的抗病毒治疗药物在控制乙型肝炎进展有显著疗效,但却始终无法达到根治HBV感染的目标。HBV共价闭合环状DNA(HBV cccDNA)是HBV转录复制的原始模板,也是HBV持续感染的关键因素。但由于缺少有效的完全清除HBV cccDNA的治疗方法,慢性乙型肝炎患者需长期服药以防治疗后停药复发。研究证实HBV cccDNA的转录受表观遗传机制调控,其中cccDNA甲基化、组蛋白修饰、miRNA、染色质重塑等均影响HBV cccDNA的功能。本文就HBV表观遗传调控的最新研究进展进行综述。