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在体外对全长 HBV 基因型 A-H 临床分离株和核心定点突变体进行衣壳组装调节剂 BAY41-4109 的抗病毒谱分析。

Antiviral profiling of the capsid assembly modulator BAY41-4109 on full-length HBV genotype A-H clinical isolates and core site-directed mutants in vitro.

机构信息

Janssen Research and Development, Turnhoutseweg 30, 2340 Beerse, Belgium.

Janssen China Research & Development Center, 5F North Building #1 Jinchuang Mansion, 4560 Jinke Road, Shanghai 201210, China.

出版信息

Antiviral Res. 2017 Aug;144:205-215. doi: 10.1016/j.antiviral.2017.06.016. Epub 2017 Jun 21.

DOI:10.1016/j.antiviral.2017.06.016
PMID:28647474
Abstract

The HBV core protein represents an attractive target for new antiviral therapies due to its multiple functions within the viral life-cycle. Here, we report the antiviral activity of the capsid assembly modulator (CAM) BAY41-4109 and two nucleos(t)ide analogues (NAs) on a diverse panel of 54 HBV clinical isolates from genotype (GT) A-H and assessed the impact of core amino acid (aa) substitutions using site-directed mutants (SDMs). The median EC values of BAY41-4109 across genotypes ranged from 26 nM in GT G to 215 nM in GT F irrespective of the presence of NA resistance mutations compared to 43 nM for the GT D reference construct. Combined analyses of clinical isolates and SDMs identified aa changes at positions 29, 33 and 118 led to reduced antiviral activity of BAY41-4109 with fold changes in EC values of 6, 46, and 9 for D29G, T33N, and Y118F, respectively. These aa substitutions are located within the CAM binding pocket, and are expected to have an effect on CAM binding based on structural modeling. Importantly aa variations at these positions were rarely (<0.3%) observed as naturally occurring in public sequence databases. NA's remained fully active against these variants. Our study demonstrated that BAY41-4109 generally remained fully active across GT A-H clinical isolates. In addition, core aa substitutions within the CAM-binding pocket replicated in vitro and variants at positions 29, 33, and 118 were identified to reduce antiviral activity.

摘要

HBV 核心蛋白因其在病毒生命周期中的多种功能而成为新抗病毒疗法的有吸引力的靶标。在这里,我们报告了衣壳组装调节剂 (CAM) BAY41-4109 和两种核苷(酸)类似物 (NA) 在来自基因型 (GT) A-H 的 54 种不同 HBV 临床分离株中的抗病毒活性,并使用定点突变 (SDM) 评估了核心氨基酸 (aa) 取代的影响。BAY41-4109 在不同基因型中的中位 EC 值范围从 GT G 的 26 nM 到 GT F 的 215 nM,无论是否存在 NA 耐药突变,与 GT D 参考构建体的 43 nM 相比。对临床分离株和 SDM 的联合分析确定了位置 29、33 和 118 的 aa 变化导致 BAY41-4109 的抗病毒活性降低,EC 值的折叠变化分别为 D29G、T33N 和 Y118F 的 6、46 和 9。这些 aa 取代位于 CAM 结合口袋内,预计根据结构建模对 CAM 结合有影响。重要的是,这些位置的 aa 变异很少(<0.3%)在公共序列数据库中自然发生。NA 对这些变体仍然完全有效。我们的研究表明,BAY41-4109 通常在 GT A-H 临床分离株中保持完全活性。此外,CAM 结合口袋内的核心 aa 取代在体外复制,并且在位置 29、33 和 118 发现变体降低了抗病毒活性。

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