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标题: 开发一种细胞高含量免疫荧光HBV核心检测方法,以鉴定诱导 [打印本页]

作者: StephenW    时间: 2021-4-12 20:45     标题: 开发一种细胞高含量免疫荧光HBV核心检测方法,以鉴定诱导

Development of a cellular high-content, immunofluorescent HBV core assay to identify novel capsid assembly modulators that induce the formation of aberrant HBV core structures
Sarah Sauviller  1 , Karen Vergauwen  1 , Steffen Jaensch  1 , Emmanuel Gustin  1 , Danielle Peeters  1 , Peter Vermeulen  1 , Dirk Wuyts  1 , Koen Vandyck  1 , Frederik Pauwels  1 , Jan Martin Berke  2
Affiliations
Affiliations

    1
    Janssen Research and Development, Turnhoutseweg 30, 2340 Beerse, Belgium.
    2
    Janssen Research and Development, Turnhoutseweg 30, 2340 Beerse, Belgium. Electronic address: [email protected].

    PMID: 33839187 DOI: 10.1016/j.jviromet.2021.114150

Abstract

Hepatitis B Virus (HBV) core protein has multiple functions in the viral life cycle and is an attractive target for new anti-viral therapies. Capsid assembly modulators (CAMs) target the core protein and induce the formation of either morphologically normal (CAM-N) or aberrant structures (CAM-A), both devoid of genomic material. To date a diverse family of CAM-N chemotypes has been identified, but in contrast, described CAM-As are based on the heteroaryldihydropyrimidine (HAP) scaffold. We used the HBV-inducible HepG2.117 cell line with immunofluorescent labeling of HBV core to develop and validate a cellular high-content image-based assay where aggregated core structures are identified using image analysis spot texture features. Treatment with HAPs led to a dose- and time-dependent formation of aggregated core appearing as dot-like structures in the cytoplasm and nucleus. By combining a biochemical and cellular screening approach, a compound was identified as a novel non-HAP scaffold able to induce dose-dependent formation of aberrant core structures, which was confirmed by electron microscopy and native gel electrophoresis. This compound displayed anti-HBV activity in HepG2.117 cells, providing proof-of-concept for our screening approach. We believe our combined biochemical and cellular high-content screening method will aid in expanding the range of CAM-A chemotypes.

Keywords: HBV core; aberrant core structures; capsid assembly modulator; hepatitis B; high-content; non-HAP scaffold.

Copyright © 2021. Published by Elsevier B.V.
作者: StephenW    时间: 2021-4-12 20:45

开发一种细胞高含量免疫荧光HBV核心检测方法,以鉴定诱导异常HBV核心结构形成的新型衣壳装配调节剂
莎拉·索维尔(Sarah Sauviller)1,卡伦·韦高(Karen Vergauwen)1,斯特芬·詹斯(Steffen Jaensch)1,伊曼纽尔·古斯汀(Emmanuel Gustin)1,丹妮尔·皮特斯(Danielle Peeters)1,彼得·维米尔(Peter Vermeulen)1,德克·伍兹(Dirk Wuyts)1,科恩·范迪克(Koen Vandyck)1,弗雷德里克·鲍威尔(Frederik Pauwels)1,扬·马丁·伯克(Jan Martin Berke)2
隶属关系
隶属关系

    1个
    Janssen Research and Development,Turnhoutseweg 30,比利时比尔塞2340。
    2个
    Janssen Research and Development,Turnhoutseweg 30,比利时比尔塞2340。电子地址:[email protected]

    PMID:33839187 DOI:10.1016 / j.jviromet.2021.114150

抽象的

乙型肝炎病毒(HBV)核心蛋白在病毒生命周期中具有多种功能,是新的抗病毒治疗的有吸引力的靶标。衣壳装配调节剂(CAM)靶向核心蛋白并诱导形态正常的(CAM-N)或异常结构(CAM-A)的形成,两者均不含基因组物质。迄今为止,已经鉴定出多种多样的CAM-N化学型家族,但是相反,所描述的CAM-A基于杂芳基二氢嘧啶(HAP)支架。我们使用具有HBV核心免疫荧光标记功能的HBV诱导性HepG2.117细胞系来开发和验证基于细胞高含量图像的检测方法,其中使用图像分析点纹理特征来识别聚集的核心结构。用HAPs治疗导致聚集核的剂量和时间依赖性形成,其在细胞质和细胞核中以点状结构出现。通过结合生物化学和细胞筛选方法,该化合物被鉴定为能够诱导剂量依赖性异常核心结构形成的新型非HAP支架,这已通过电子显微镜和天然凝胶电泳得以证实。该化合物在HepG2.117细胞中显示抗HBV活性,为我们的筛选方法提供了概念验证。我们相信,将生化和细胞高含量筛选相结合的方法将有助于扩大CAM-A化学型的范围。

关键字:HBV核心;异常的核心结构;衣壳装配调节剂;乙型肝炎;高含量非HAP支架。

版权所有©2021,由Elsevier B.V.发布。




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