EASL2019 PS-073 HBV核心蛋白抑制剂ABI-H3733的临床前概

StephenW

PS-073
Preclinical profile of HBV core protein inhibitor, ABI-H3733, a
potent inhibitor of cccDNA generation in HBV infected cells
Qi Huang1, Simon Haydar1, Yi Zhou1, Dawei Cai1, Xiang Xu1, Ran Yan1,
Lida Guo1, Esteban Carabajal1, Xuman Tang1, Michael Walker1,
Roopa Rai1, Mark Bures1, Leping Li1, Richard Colonno1. 1Assembly
Biosciences, San Francisco, United States
Email: [email protected]
Background and aims: Clinical cure remains elusive in chronic HBV
(CHB) patients, despite prolonged treatment with current therapies.
Core protein Inhibitors (CPIs) represent a novel class of direct acting
antivirals that target multiple aspects of the viral life cycle. Here we
characterize a newly identified CPI with enhanced potency in
blocking cccDNA establishment.
Method: Antiviral activities were determined using the induced
HepAD38 cell line (Gt D), and infection of HepG2-NTCP cells
and Primary Human Hepatocytes (PHH). Pan-genotypic activity was
established using transient transfection assays or HBV stable cell
lines. Combination studies were performed using a range of
inhibitory concentrations in HepAD38 cells. HBV DNAwas quantified
by Taqman PCR (qPCR) using primers and a probe specific to the HBV
core gene. HBeAg and HBsAg were quantified by ELISA. HBV total
RNA/encapsidated pgRNA, capsids and capsid-associated core DNA
were detected by either RT-qPCR, Northern Blot or b-DNA, Western
Blot, Enzyme Immunoassay (EIA) and Southern Blot, respectively, as
previously described.
Results: ABI-H3733 exhibited potent inhibition of viral DNA replication
in HepAD38 cells and PHH (EC50 5 and 12 nM, respectively),
and reductions in HBeAg, HBsAg and pgRNA in infected HepG2-NTCP
cells and PHH (EC50 43 and 61 nM, respectively). ABI-H3733
antiviral activity was pan-genotypic and activity was retained
against a panel of known CPI resistant variants. No significant activitywas observed against other viruses (EC50s > 10 μM) or in cytotoxicity
assays (CC50s > 10 μM). Combination studies predict additive to
synergistic inhibition when combined with Nuc therapy. ABI-H3733
possesses promising physical properties, low drug-drug interaction
potential and favorable PK profiles in multiple species. Mechanism of
action studies suggest enhanced potency in blocking encapsidation
of pgRNA, and disruption of pre-formed capsids (EC50 133 nM),
leading to premature disassembly during trafficking of rcDNA
containing capsids to the nucleus during infection. Using Southern
blot analysis, ABI-H3733 inhibited cccDNA formation with an EC50 of
125 nM.
Conclusion: ABI-H3733 is a novel CPI, derived from a new chemical
scaffold. It possesses potent inhibitory activity against multiple steps
in the HBV infectious cycle, particularly those related to cccDNA
generation. The enhanced potency and favorable preclinical profile
support advancement of this next generation CPI into clinical
development.

StephenW

PS-073
HBV核心蛋白抑制剂ABI-H3733的临床前概况
HBV感染细胞中cccDNA生成的有效抑制剂
齐黄1，西蒙海达尔1，易周1，蔡大伟1，向旭1，冉燕1，
Lida Guo1，Esteban Carabajal1，Xuman Tang1，Michael Walker1，
Roopa Rai1，Mark Bures1，Leping Li1，Richard Colonno1。 1Assembly
Biosciences，旧金山，美国
电子邮件：[email protected]
背景和目的：慢性HBV的临床治愈仍然难以捉摸
（CHB）患者，尽管使用现有疗法长期治疗。
核心蛋白抑制剂（CPI）代表了一类新的直接作用
抗病毒药物，针对病毒生命周期的多个方面。在这里，我们
表征新发现的具有增强效力的CPI
阻断cccDNA的建立。
方法：用诱导的方法测定抗病毒活性
HepAD38细胞系（Gt D）和HepG2-NTCP细胞的感染
和原代人肝细胞（PHH）。泛基因型活动是
使用瞬时转染试验或HBV稳定细胞建立
线。使用一系列的组合研究进行
HepAD38细胞中的抑制浓度。 HBV DNA被量化
通过Taqman PCR（qPCR）使用引物和特异于HBV的探针
核心基因。通过ELISA定量HBeAg和HBsAg。 HBV总数
RNA /衣壳化的pgRNA，衣壳和衣壳相关的核心DNA
通过RT-qPCR，Northern印迹或b-DNA，Western检测
印迹，酶免疫测定（EIA）和Southern印迹分别为
先前描述过。
结果：ABI-H3733显示出对病毒DNA复制的有效抑制
在HepAD38细胞和PHH（分别为EC50 5和12 nM）中，
感染的HepG2-NTCP中HBeAg，HBsAg和pgRNA的降低
细胞和PHH（分别为EC50 43和61nM）。 ABI-H3733
抗病毒活性是泛基因型的，并且保留了活性
针对一组已知的CPI抗性变体。没有观察到针对其他病毒（EC50>10μM）或细胞毒性的显着活性
测定（CC50>10μM）。组合研究预测添加剂
与Nuc疗法结合时的协同抑制作用。 ABI-H3733
具有良好的物理性质，药物相互作用低
多种物种的潜在和有利的PK谱。的机制
行动研究表明阻断衣壳化的效力增强
pgRNA和预先形成的衣壳的破坏（EC50 133 nM），
导致rcDNA运输过程中的过早拆卸
在感染期间含有衣壳的衣壳。使用南方
印迹分析，ABI-H3733抑制cccDNA形成，EC50为
125 nM。
结论：ABI-H3733是一种新型CPI，衍生自一种新化学物质
脚手架。它具有针对多个步骤的强效抑制活性
在HBV感染周期中，特别是与cccDNA有关的那些
代。增强的效力和有利的临床前特征
支持将下一代CPI推进临床
发展。