衣壳
乙型肝炎病毒
基因型
突变体
HBeAg
病毒学
氨基酸
分子生物学
生物
EC50型
突变
体外
病毒
遗传学
基因
乙型肝炎表面抗原
作者
Thierry Verbinnen,Ying Tan,Gengyan Wang,Pascale Dehertogh,Karen Vergauwen,Jean‐Marc Neefs,Edgar Jacoby,Oliver Lenz,Jan Martin Berke
摘要
To characterize antiviral activity of the capsid assembly modulator (CAM-N) JNJ-56136379 against HBV genotypes and variants carrying amino acid substitutions in the core protein.Anti-HBV activity of JNJ-56136379 was investigated against a diverse panel of 53 HBV clinical isolates (genotypes A-H). The impact of core amino acid substitutions using site-directed mutants (SDMs) was assessed in a transient replication assay.JNJ-56136379 median 50% effective concentration (EC50) values across all genotypes were 10-33 nM versus 17 nM (genotype D reference). JNJ-56136379 remained active against isolates carrying nucleos(t)ide analogue resistance mutations (median EC50 2-25 nM) or basal core promoter (BCP) ± precore (PC) mutations (median EC50 13-20 nM) or PC mutations (median EC50 11 nM), representing activity against isolates from HBeAg-positive and -negative hepatitis B patients. Core amino acid substitutions in the CAM-binding pocket, when tested as SDMs at positions 23, 25, 30, 33, 37, 106, 110, 118, 124, 127 and 128, reduced JNJ-56136379 anti-HBV activity; EC50 fold increases ranged from 3.0 (S106T) to 85 (T33N). All substitutions were rare in a public database of >7600 HBV core sequences (frequencies 0.01%-0.3%). Nucleos(t)ide analogues retained full activity against these core SDMs.JNJ-56136379, a potent HBV CAM-N, currently in Phase 2 clinical development, was generally fully active against an extensive panel of genotype A-H clinical isolates, regardless of the presence of nucleos(t)ide analogue resistance or BCP/PC mutations. JNJ-56136379 activity was reduced by some core amino acid substitutions in the CAM-binding pocket.
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