Vausselin Thibaut, Séron Karin, Lavie Muriel, Mesalam Ahmed Atef, Lemasson Matthieu, Belouzard Sandrine, Fénéant Lucie, Danneels Adeline, Rouillé Yves, Cocquerel Laurence, Foquet Lander, Rosenberg Arielle R, Wychowski Czeslaw, Meuleman Philip, Melnyk Patricia, Dubuisson Jean
Université Lille, CNRS, Inserm, CHU Lille, Institut Pasteur de Lille, U1019-UMR 8204-Centre d'Infection et d'Immunité de Lille, Lille, France.
Department of Clinical Chemistry, Microbiology and Immunology, Ghent University, Ghent, Belgium.
J Virol. 2016 Sep 12;90(19):8422-34. doi: 10.1128/JVI.00404-16. Print 2016 Oct 1.
Aminoquinolines and piperazines, linked or not, have been used successfully to treat malaria, and some molecules of this family also exhibit antiviral properties. Here we tested several derivatives of 4-aminoquinolines and piperazines for their activity against hepatitis C virus (HCV). We screened 11 molecules from three different families of compounds, and we identified anti-HCV activity in cell culture for six of them. Of these, we selected a compound (B5) that is currently ending clinical phase I evaluation for neurodegenerative diseases. In hepatoma cells, B5 inhibited HCV infection in a pangenotypic and dose-dependent manner, and its antiviral activity was confirmed in primary hepatocytes. B5 also inhibited infection by pseudoparticles expressing HCV envelope glycoproteins E1 and E2, and we demonstrated that it affects a postattachment stage of the entry step. Virus with resistance to B5 was selected by sequential passage in the presence of the drug, and reverse genetics experiments indicated that resistance was conferred mainly by a single mutation in the putative fusion peptide of E1 envelope glycoprotein (F291I). Furthermore, analyses of the effects of other closely related compounds on the B5-resistant mutant suggest that B5 shares a mode of action with other 4-aminoquinoline-based molecules. Finally, mice with humanized liver that were treated with B5 showed a delay in the kinetics of the viral infection. In conclusion, B5 is a novel interesting anti-HCV molecule that could be used to decipher the early steps of the HCV life cycle.
In the last 4 years, HCV therapy has been profoundly improved with the approval of direct-acting antivirals in clinical practice. Nevertheless, the high costs of these drugs limit access to therapy in most countries. The present study reports the identification and characterization of a compound (B5) that inhibits HCV propagation in cell culture and is currently ending clinical phase I evaluation for neurodegenerative diseases. This molecule inhibits the HCV life cycle by blocking virus entry. Interestingly, after selection of drug-resistant virus, a resistance mutation in the putative fusion peptide of E1 envelope glycoprotein was identified, indicating that B5 could be used to further investigate the fusion mechanism. Furthermore, mice with humanized liver treated with B5 showed a delay in the kinetics of the viral infection. In conclusion, B5 is a novel interesting anti-HCV molecule that could be used to decipher the early steps of the HCV life cycle.
氨基喹啉和哌嗪,无论是否相连,已成功用于治疗疟疾,并且该家族的一些分子还具有抗病毒特性。在此,我们测试了几种4-氨基喹啉和哌嗪衍生物对丙型肝炎病毒(HCV)的活性。我们从三个不同的化合物家族中筛选了11种分子,并在细胞培养中鉴定出其中6种具有抗HCV活性。其中,我们选择了一种化合物(B5),该化合物目前正在结束针对神经退行性疾病的I期临床试验。在肝癌细胞中,B5以泛基因型和剂量依赖性方式抑制HCV感染,并且其抗病毒活性在原代肝细胞中得到证实。B5还抑制表达HCV包膜糖蛋白E1和E2的假病毒颗粒的感染,并且我们证明它影响进入步骤的附着后阶段。通过在药物存在下连续传代选择对B5耐药的病毒,反向遗传学实验表明耐药性主要由E1包膜糖蛋白假定融合肽中的单个突变(F291I)赋予。此外,对其他密切相关化合物对B5耐药突变体影响的分析表明,B5与其他基于4-氨基喹啉的分子具有共同的作用模式。最后,用B5治疗的人源化肝脏小鼠的病毒感染动力学出现延迟。总之,B5是一种新型的有趣抗HCV分子,可用于解析HCV生命周期的早期步骤。
在过去4年中,随着直接作用抗病毒药物在临床实践中的获批,HCV治疗有了显著改善。然而,这些药物的高成本限制了大多数国家的治疗可及性。本研究报告了一种化合物(B5)的鉴定和特性,该化合物在细胞培养中抑制HCV传播,目前正在结束针对神经退行性疾病的I期临床试验。该分子通过阻断病毒进入来抑制HCV生命周期。有趣的是,在选择耐药病毒后,在E1包膜糖蛋白的假定融合肽中鉴定出一个耐药突变,表明B5可用于进一步研究融合机制。此外,用B5治疗的人源化肝脏小鼠的病毒感染动力学出现延迟。总之,B5是一种新型的有趣抗HCV分子,可用于解析HCV生命周期的早期步骤。
