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肝胆相照论坛 论坛 学术讨论& HBV English 乙型肝炎病毒衣壳磷酸化在核衣壳解体和共价闭合环状DNA ...
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乙型肝炎病毒衣壳磷酸化在核衣壳解体和共价闭合环状DNA形 [复制链接]

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发表于 2020-4-3 19:42 |只看该作者 |倒序浏览 |打印
Role of Hepatitis B Virus Capsid Phosphorylation in Nucleocapsid Disassembly and Covalently Closed Circular DNA Formation
  •    [url=]Jun Luo,[/url]
  •    [url=]Ji Xi,[/url]
  •    [url=]Lu Gao,[/url]
  •    [url=]Jianming Hu
    [/url]
            Role of Hepatitis B Virus Capsid Phosphorylation in Nucleocapsid Disassembly and Covalently Closed Circular DNA Formation
   
  

            
  
   This is an uncorrected proof.
                  Abstract
Hepatitis B virus (HBV) delivers a partially double-stranded, relaxed circular (RC) DNA genome in complete virions to the host cell nucleus for conversion to the covalently closed circular (CCC) DNA, which establishes and sustains viral infection. An overlength pregenomic RNA (pgRNA) is then transcribed from CCC DNA and packaged into immature nucleocapsids (NCs) by the viral core (HBc) protein. pgRNA is reverse transcribed to produce RC DNA in mature NCs, which are then enveloped and secreted as complete virions, or delivered to the nucleus to replenish the nuclear CCC DNA pool. RC DNA, whether originating from extracellular virions or intracellular mature NCs, must be released upon NC disassembly (uncoating) for CCC DNA formation. HBc is known to undergo dynamic phosphorylation and dephosphorylation at its C-terminal domain (CTD) to facilitate pgRNA packaging and reverse transcription. Here, two putative phosphorylation sites in the HBc N-terminal domain (NTD), S44 and S49, were targeted for genetic and biochemical analysis to assess their potential roles in viral replication. The NTD mutant that mimics the non-phosphorylated state (N2A) was competent in all steps of viral replication tested from capsid assembly, pgRNA packaging, reverse transcription, to virion secretion, except for a decrease in CCC DNA formation. On the other hand, the phosphor-mimetic mutant N2E showed a defect in the early step of pgRNA packaging but enhanced the late step of mature NC uncoating and consequently, increased CCC DNA formation. N2E also enhanced phosphorylation in CTD and possibly elsewhere in HBc. Furthermore, inhibition of the cyclin-dependent kinase 2 (CDK2), which is packaged into viral capsids, could block CCC DNA formation. These results prompted us to propose a model whereby rephosphorylation of HBc at both NTD and CTD by the packaged CDK2, following CTD dephosphorylation during NC maturation, facilitates uncoating and CCC DNA formation by destabilizing mature NCs.

Author summary
Hepatitis B virus (HBV) persistently infects hundreds of millions of people worldwide, causing viral hepatitis, cirrhosis and liver cancer. The basis of HBV persistence is the viral covalently closed circular (CCC) DNA, a nuclear episome, that drives all viral gene expression to sustain viral replication. CCC DNA is derived from the relaxed circular (RC) DNA, which is formed inside a proteinaceous shell, the viral capsid, but has to be released from the capsid in order to be converted to CCC DNA by host cell factors. We report here that the phosphorylation state of the capsid protein, regulated by host cell enzymes including one that is packaged inside the viral capsid, plays a critical role in regulating the release of RC DNA and thus controlling CCC DNA formation. Intense ongoing efforts are being directed at developing novel antiviral strategies to eliminate the HBV CCC DNA for curing persistence HBV infection, including those targeting the capsid protein. Our results should inspire novel approaches to targeting the HBV capsid and CCC DNA. Furthermore, uncoating is an essential step in the infection process for virtually all viruses that remains ill-understood. Thus, our results have broad implications for understanding viral infection in general.




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发表于 2020-4-3 19:43 |只看该作者
乙型肝炎病毒衣壳磷酸化在核衣壳解体和共价闭合环状DNA形成中的作用

罗军
纪熙
陆高
胡建明



PLOS x

发布时间:2020年3月30日
https://doi.org/10.1371/journal.ppat.1008459


这是未经纠正的证明。
抽象

乙型肝炎病毒(HBV)将完整病毒粒子中的部分双链,松弛环状(RC)DNA基因组传递到宿主细胞核,以转化为共价闭合环状(CCC)DNA,从而建立并维持病毒感染。然后从CCC DNA转录一个超长的基因组RNA(pgRNA),并通过病毒核心(HBc)蛋白包装成未成熟的核衣壳(NCs)。 PgRNA被反转录以在成熟的NC中产生RC DNA,然后将其包裹并以完整的病毒体的形式分泌,或递送至细胞核以补充核CCC DNA库。 RC DNA,无论是源自细胞外病毒体还是细胞内成熟的NC,都必须在NC拆卸(脱膜)后释放,以形成CCC DNA。已知HBc在其C末端结构域(CTD)处经历动态磷酸化和去磷酸化,以促进pgRNA包装和逆转录。在此,将HBc N末端结构域(NTD)中的两个假定的磷酸化位点S44和S49进行了遗传和生化分析,以评估它们在病毒复制中的潜在作用。模仿非磷酸化状态(N2A)的NTD突变体在病毒复制的所有步骤中均能胜任,从衣壳装配,pgRNA包装,逆转录到病毒体分泌,除CCC DNA形成减少外。另一方面,模拟磷的突变体N2E在pgRNA包装的早期显示出缺陷,但增强了成熟NC脱膜的晚期,因此增加了CCC DNA的形成。 N2E还增强了CTD和HBc其他地方的磷酸化。此外,抑制包装在病毒衣壳中的细胞周期蛋白依赖性激酶2(CDK2)可能会阻止CCC DNA的形成。这些结果促使我们提出了一个模型,其中在NC成熟过程中CTD去磷酸化后,包装的CDK2在NTD和CTD处对HBc进行再磷酸化,从而通过破坏稳定的NC来促进脱膜和CCC DNA的形成。
作者摘要

乙型肝炎病毒(HBV)持续感染全球数亿人,导致病毒性肝炎,肝硬化和肝癌。 HBV持久性的基础是病毒共价闭合环状(CCC)DNA,一种核附加体,驱动所有病毒基因表达以维持病毒复制。 CCC DNA来源于松弛的环状(RC)DNA,它是在蛋白质壳(病毒衣壳)内部形成的,但必须从衣壳中释放出来才能通过宿主细胞因子转化为CCC DNA。我们在这里报告说,衣壳蛋白的磷酸化状态受宿主细胞酶的调节,其中包括包装在病毒衣壳内部的一种,在调节RC DNA的释放从而控制CCC DNA的形成中起着关键作用。持续不断的努力致力于开发新颖的抗病毒策略,以消除用于治愈持久性HBV感染的HBV CCC DNA,包括靶向衣壳蛋白的病毒。我们的结果应启发针对HBV衣壳和CCC DNA的新颖方法。此外,对于几乎所有仍然不被理解的病毒,脱壳是感染过程中必不可少的步骤。因此

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发表于 2020-4-3 19:44 |只看该作者
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