乙型肝炎病毒基因组回收和从头二次感染事件维持稳定的cccDNA 水平。

Hepatitis B virus genome recycling and de novo secondary infection events maintain stable cccDNA levels.

机构信息

Institute of Virology, Technische Universität München/Helmholtz Zentrum München, Munich, Germany.

Institute of Virology, Technische Universität München/Helmholtz Zentrum München, Munich, Germany; Technische Universität München, Institute for Advanced Study, Munich, Germany.

出版信息

J Hepatol. 2018 Dec;69(6):1231-1241. doi: 10.1016/j.jhep.2018.08.012. Epub 2018 Aug 22.

DOI:10.1016/j.jhep.2018.08.012

PMID:30142426

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7611400/

Abstract

BACKGROUND & AIMS: Several steps in the HBV life cycle remain obscure because of a lack of robust in vitro infection models. These steps include particle entry, formation and maintenance of covalently closed circular (ccc) DNA, kinetics of gene expression and viral transmission routes. This study aimed to investigate infection kinetics and cccDNA dynamics during long-term culture.

METHODS

We selected a highly permissive HepG2-NTCP-K7 cell clone engineered to express sodium taurocholate co-transporting polypeptide (NTCP) that supports the full HBV life cycle. We characterized the replication kinetics and dynamics of HBV over six weeks of infection.

RESULTS

HBV infection kinetics showed a slow infection process. Nuclear cccDNA was only detected 24 h post-infection and increased until 3 days post-infection (dpi). Viral RNAs increased from 3 dpi reaching a plateau at 6 dpi. HBV protein levels followed similar kinetics with HBx levels reaching a plateau first. cccDNA levels modestly increased throughout the 45-day study period with 5-12 copies per infected cell. Newly produced relaxed circular DNA within capsids was reimported into the nucleus and replenished the cccDNA pool. In addition to intracellular recycling of HBV genomes, secondary de novo infection events resulted in cccDNA formation. Inhibition of relaxed circular DNA formation by nucleoside analogue treatment of infected cells enabled us to measure cccDNA dynamics. HBV cccDNA decayed slowly with a half-life of about 40 days.

CONCLUSIONS

After a slow infection process, HBV maintains a stable cccDNA pool by intracellular recycling of HBV genomes and via secondary infection. Our results provide important insights into the dynamics of HBV infection and support the future design and evaluation of new antiviral agents.

LAY SUMMARY

Using a unique hepatocellular model system designed to support viral growth, we demonstrate that hepatitis B virus (HBV) has remarkably slow infection kinetics. Establishment of the episomal transcription template and the persistent form of the virus, so called covalently closed circular DNA, as well as viral transcription and protein expression all take a long time. Once established, HBV maintains a stable pool of covalently closed circular DNA via intracellular recycling of HBV genomes and through infection of naïve cells by newly formed virions.

摘要

背景与目的

由于缺乏稳健的体外感染模型，HBV 生命周期的多个步骤仍然不清楚。这些步骤包括颗粒进入、共价闭合环状（ccc）DNA 的形成和维持、基因表达动力学和病毒传播途径。本研究旨在调查长期培养过程中的感染动力学和 cccDNA 动态。

方法

我们选择了一个高度允许的 HepG2-NTCP-K7 细胞克隆，该克隆经过工程改造表达牛磺胆酸钠共转运多肽（NTCP），支持完整的 HBV 生命周期。我们在感染后六周内对 HBV 的复制动力学和动力学进行了特征描述。

结果

HBV 感染动力学显示出缓慢的感染过程。核 cccDNA 仅在感染后 24 小时检测到，并在感染后 3 天增加。病毒 RNA 从 3 dpi 增加，在 6 dpi 时达到平台期。HBV 蛋白水平也遵循类似的动力学，HBx 水平首先达到平台期。cccDNA 水平在整个 45 天的研究期间略有增加，每个感染细胞有 5-12 个拷贝。衣壳内新产生的松弛环状 DNA 被重新导入细胞核并补充 cccDNA 池。除了 HBV 基因组的细胞内循环外，次级从头感染事件导致 cccDNA 的形成。用核苷类似物处理感染细胞抑制松弛环状 DNA 的形成，使我们能够测量 cccDNA 的动态。HBV cccDNA 缓慢衰减，半衰期约为 40 天。

结论

在缓慢的感染过程之后，HBV 通过 HBV 基因组的细胞内循环和通过二次感染来维持稳定的 cccDNA 池。我们的结果提供了对 HBV 感染动力学的重要见解，并支持新抗病毒药物的未来设计和评估。

概述

使用一种独特的肝细胞模型系统来支持病毒生长，我们证明乙型肝炎病毒（HBV）的感染动力学非常缓慢。游离转录模板和病毒的持续性形式，即共价闭合环状 DNA 的建立，以及病毒转录和蛋白表达都需要很长时间。一旦建立，HBV 通过 HBV 基因组的细胞内循环以及通过新形成的病毒感染幼稚细胞来维持稳定的 cccDNA 池。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5868/7611400/bd2aed245a69/EMS117832-f007.jpg

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乙型肝炎病毒基因组回收和从头二次感染事件维持稳定的cccDNA 水平。

Hepatitis B virus genome recycling and de novo secondary infection events maintain stable cccDNA levels.

机构信息

出版信息

METHODS

RESULTS

CONCLUSIONS

LAY SUMMARY

背景与目的

方法

结果

结论

概述

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