Univ. Orléans, CNRS, ICOA, UMR 7311, F-45067, Orléans, France.
Viral Special Pathogens Branch, Centers for Disease Control and Prevention, Atlanta, GA, USA.
Eur J Med Chem. 2021 Mar 15;214:113211. doi: 10.1016/j.ejmech.2021.113211. Epub 2021 Jan 27.
Novel 2-substituted-6-[(4-substituted-1-piperidyl)methyl]-1H-benzimidazoles were designed and synthesized as Ebola virus inhibitors. The proposed structures of the new prepared benzimidazole-piperidine hybrids were confirmed based on their spectral data and CHN analyses. The target compounds were screened in vitro for their anti-Ebola activity. Among tested molecules, compounds 26a (EC0.93 μM, SI = 10) and 25a (EC0.64 μM, SI = 20) were as potent as and more selective than Toremifene reference drug (EC = 0.38 μM, SI = 7) against cell line. Data suggests that the mechanism by which 25a and 26a block EBOV infection is through the inhibition of viral entry at the level of NPC1. Furthermore, a docking study revealed that several of the NPC1 amino acids that participate in binding to GP are involved in the binding of the most active compounds 25a and 26a. Finally, in silico ADME prediction indicates that 26a is an idealy drug-like candidate. Our results could enable the development of small molecule drug capable of inhibiting Ebola virus, especially at the viral entry step.
新型 2-取代-6-[(4-取代-1-哌啶基)甲基]-1H-苯并咪唑类化合物被设计并合成作为埃博拉病毒抑制剂。根据其光谱数据和 CHN 分析,证实了新制备的苯并咪唑-哌啶杂合体的结构。目标化合物在体外进行抗埃博拉病毒活性筛选。在所测试的分子中,化合物 26a(EC0.93 μM,SI = 10)和 25a(EC0.64 μM,SI = 20)与他莫昔芬参考药物(EC = 0.38 μM,SI = 7)一样有效,且对细胞系更具选择性。数据表明,25a 和 26a 阻断 EBOV 感染的机制是通过在 NPC1 水平抑制病毒进入。此外,对接研究表明,参与与 GP 结合的 NPC1 氨基酸中的几个氨基酸参与了最活性化合物 25a 和 26a 的结合。最后,基于计算机的 ADME 预测表明 26a 是一种理想的类药候选物。我们的研究结果可以开发出能够抑制埃博拉病毒的小分子药物,特别是在病毒进入阶段。
