丙型肝炎病毒的中和抗性可以被重组人源单克隆抗体所克服。
Neutralization resistance of hepatitis C virus can be overcome by recombinant human monoclonal antibodies.
机构信息
Copenhagen Hepatitis C Program (CO-HEP), Department of Infectious Diseases and Clinical Research Centre, Copenhagen University Hospital, Hvidovre, and Department of International Health, Immunology, and Microbiology, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.
出版信息
Hepatology. 2013 Nov;58(5):1587-97. doi: 10.1002/hep.26524. Epub 2013 Aug 7.
UNLABELLED
Immunotherapy and vaccine development for hepatitis C virus (HCV) will depend on broadly reactive neutralizing antibodies (NAbs). However, studies in infectious strain JFH1-based culture systems expressing patient-derived Core-NS2 proteins have suggested neutralization resistance for specific HCV strains, in particular, of genotype 2. To further examine this phenomenon, we developed a panel of HCV genotype 2 recombinants for testing of sensitivity to neutralization by chronic-phase patient sera and lead human monoclonal antibodies (HMAbs). The novel Core-NS2 recombinants, with patient-derived genotype 2a (strain T9), 2b (strains DH8 and DH10), and 2c (strain S83) consensus sequences, were viable in Huh7.5 hepatoma cells without requirement for adaptive mutations, reaching HCV infectivity titers of 3.9-4.5 log10 focus-forming units per milliliter. In in vitro neutralization assays, we demonstrated that the novel genotype 2 viruses as well as prototype strains J6/JFH1(2a) and J8/JFH1(2b), all with authentic envelope proteins, were resistant to neutralization by genotype 2a, 2b, 2c, 2j, 2i, and 2q patient sera. However, these patient sera had high titers of HCV-specific NAbs, because they efficiently reduced the infectivity of J6(2a) and J8(2b) with deleted hypervariable region 1. The genotype 2a, 2b, and 2c viruses, found resistant to polyclonal patient sera neutralization, were efficiently neutralized by two lead HMAbs (AR4A and HC84.26).
CONCLUSION
Using novel 2a, 2b, and 2c cell-culture systems, expressing authentic envelope proteins, we demonstrated resistance of HCV to patient-derived polyclonal high-titer NAbs. However, the same genotype 2 culture viruses were all sensitive to HMAbs recognizing conformational epitopes, indicating that neutralization resistance of HCV can be overcome by applying recombinant antibodies. These findings have important implications for HCV immunotherapy and vaccine development.
未加标签
丙型肝炎病毒(HCV)的免疫疗法和疫苗开发将依赖于广泛反应性的中和抗体(NAbs)。然而,在基于传染性 JFH1 株的培养系统中研究表达患者衍生的核心-NS2 蛋白的研究表明,某些 HCV 株存在中和抗性,特别是基因型 2。为了进一步研究这种现象,我们开发了一组 HCV 基因型 2 重组体,用于检测慢性期患者血清和先导人源单克隆抗体(HMAb)对其的敏感性。新型的核心-NS2 重组体具有患者衍生的基因型 2a(株 T9)、2b(株 DH8 和 DH10)和 2c(株 S83)的共识序列,在 Huh7.5 肝癌细胞中无需适应性突变即可存活,达到 3.9-4.5 log10 焦点形成单位/毫升的 HCV 感染力滴度。在体外中和测定中,我们证明新型基因型 2 病毒以及具有真实包膜蛋白的原型株 J6/JFH1(2a)和 J8/JFH1(2b)均对基因型 2a、2b、2c、2j、2i 和 2q 患者血清的中和具有抗性。然而,这些患者血清具有高滴度的 HCV 特异性 NAbs,因为它们有效地降低了缺失高变区 1 的 J6(2a)和 J8(2b)的感染力。对多克隆患者血清中和具有抗性的基因型 2a、2b 和 2c 病毒被两种先导 HMAb(AR4A 和 HC84.26)有效地中和。
结论
使用新型的 2a、2b 和 2c 细胞培养系统,表达真实的包膜蛋白,我们证明了 HCV 对患者衍生的多克隆高滴度 NAbs 的抗性。然而,相同基因型 2 的培养病毒均对识别构象表位的 HMAb 敏感,表明 HCV 的中和抗性可以通过应用重组抗体来克服。这些发现对 HCV 免疫疗法和疫苗开发具有重要意义。
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