The feasibility of establishing a hamster model for HBV infection: in vitro evidence.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY
mBio Pub Date : 2024-11-13 Epub Date: 2024-09-27 DOI:10.1128/mbio.02615-24
Hu Zhang, Yanan Liu, Cheng-Der Liu, Zhongde Wang, Haitao Guo
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引用次数: 0

Abstract

Chronic hepatitis B virus (HBV) infection remains a significant public health burden with no cure currently available. The research to cure HBV has long been hampered by the lack of immunocompetent small animal models capable of supporting HBV infection. Here, we set out to explore the feasibility of the golden Syrian hamster as an immunocompetent small rodent model for HBV infection. We first started with in vitro assessments of the HBV replication cycle in primary hamster hepatocytes (PHaHs) by adenoviral HBV (Ad-HBV) transduction. Our results demonstrated that PHaHs support HBV reverse transcription and subsequent cccDNA formation via the intracellular recycling pathway. Next, with luciferase reporter assays, we confirmed that PHaHs support the activities of all HBV major promoters. Then, we transduced PHaHs with an adenoviral vector expressing HBV receptor human Na+/taurocholate cotransporting polypeptide NTCP (Ad-huNTCP), followed by HBV inoculation. While the untransduced PHaHs did not support HBV infection, Ad-huNTCP-transduced PHaHs supported de novo cccDNA formation, viral mRNA transcription, and expression of viral antigens. We then humanized the amino acid (aa) residues of hamster NTCP (haNTCP) critical for HBV entry, aa84-87 and aa157-165, and transfected HepG2 cells with constructs expressing wild-type haNTCP and humanized-haNTCP, H84R/P87N and H84R/P87N/G157K/M160V/M165L, respectively, followed by HBV inoculation. The results showed that the humanization of H84R/P87N alone was sufficient to support HBV infection at a level comparable to that supported by huNTCP. Taken together, the above in vitro evidence supports the future direction of humanizing haNTCP for HBV infection in vivo.IMPORTANCEOne of the biggest challenges in developing an HBV cure is the lack of immunocompetent animal models susceptible to HBV infection. Developing such models in mice has been unsuccessful due to the absence of a functional HBV receptor, human NTCP (huNTCP), and the defect in supporting viral cccDNA formation. In search of alternative models, we report herein multiple lines of in vitro evidence for developing a golden Syrian hamster model for HBV infection. We demonstrate that the primary hamster hepatocytes (PHaHs) support HBV replication, transcription, and cccDNA formation, and PHaHs are susceptible to de novo HBV infection in the presence of huNTCP. Furthermore, expressing hamster NTCP with two humanized residues critical for HBV entry renders HepG2 cells permissive to HBV infection. Thus, our work lays a solid foundation for establishing a gene-edited hamster model that expresses humanized NTCP for HBV infection in vivo.

建立仓鼠 HBV 感染模型的可行性:体外证据。
慢性乙型肝炎病毒(HBV)感染仍然是公共卫生的一大负担,目前尚无治愈方法。长期以来,由于缺乏能够支持 HBV 感染的免疫功能健全的小型动物模型,治愈 HBV 的研究一直受到阻碍。在此,我们开始探索将金色叙利亚仓鼠作为一种免疫功能健全的小型啮齿类动物模型用于 HBV 感染的可行性。我们首先通过腺病毒 HBV(Ad-HBV)转导对原代仓鼠肝细胞(PHaHs)的 HBV 复制周期进行体外评估。我们的结果表明,PHaHs 支持 HBV 反转录,并通过细胞内循环途径形成 cccDNA。接着,通过荧光素酶报告实验,我们证实 PHaHs 支持所有 HBV 主要启动子的活动。然后,我们用表达 HBV 受体人 Na+/taurocholate 共转运多肽 NTCP(Ad-huNTCP)的腺病毒载体转导 PHaHs,然后接种 HBV。未转导的 PHaHs 不支持 HBV 感染,而 Ad-huNTCP 转导的 PHaHs 支持新的 cccDNA 形成、病毒 mRNA 转录和病毒抗原的表达。然后,我们将仓鼠NTCP(haNTCP)中对HBV进入至关重要的氨基酸残基(aa84-87和aa157-165)人源化,并用分别表达野生型haNTCP和人源化haNTCP(H84R/P87N和H84R/P87N/G157K/M160V/M165L)的构建体转染HepG2细胞,然后接种HBV。结果表明,仅 H84R/P87N 的人源化就足以支持 HBV 感染,其水平与 huNTCP 所支持的水平相当。综上所述,上述体外证据支持了人源化 haNTCP 用于体内 HBV 感染的未来方向。由于缺乏功能性 HBV 受体--人 NTCP(huNTCP)以及支持病毒 cccDNA 形成的缺陷,在小鼠中开发此类模型一直没有成功。为了寻找替代模型,我们在此报告了建立金色叙利亚仓鼠 HBV 感染模型的多种体外证据。我们证明,原代仓鼠肝细胞(PHaHs)支持 HBV 复制、转录和cccDNA 的形成,并且 PHaHs 在 huNTCP 存在的情况下易受新的 HBV 感染。此外,表达具有两个对 HBV 进入至关重要的人源化残基的仓鼠 NTCP 会使 HepG2 细胞允许 HBV 感染。因此,我们的工作为建立基因编辑仓鼠模型奠定了坚实的基础,该模型可表达人源化的 NTCP,用于体内 HBV 感染。
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来源期刊
mBio
mBio MICROBIOLOGY-
CiteScore
10.50
自引率
3.10%
发文量
762
审稿时长
1 months
期刊介绍: mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.
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