Ho Jin-Yuan, Chern Jyh-Haur, Hsieh Chung-Fan, Liu Szu-Ting, Liu Chien-Jou, Wang Ya-Sian, Kuo Ta-Wei, Hsu Sheng-Ju, Yeh Teng-Kuang, Shih Shin-Ru, Hsieh Pei-Wen, Chiu Cheng-Hsun, Horng Jim-Tong
Department of Biochemistry and Molecular Biology, College of Medicine, Chang Gung University, Kweishan, Taoyuan, Taiwan.
Institute of Biotechnology and Pharmaceutical Research, National Health Research Institutes, Zhunan, Taiwan.
J Antimicrob Chemother. 2016 Jul;71(7):1922-32. doi: 10.1093/jac/dkw101. Epub 2016 Apr 19.
Enterovirus 71 (EV-A71) is an important pathogen that can cause severe neurological symptoms and even death. Our aim was to identify potent anti-EV-A71 compounds and study their underlying mechanisms and in vivo activity.
We identified a potent imidazolidinone derivative (abbreviated to PR66) as an inhibitor of EV-A71 infection from the screening of compounds and subsequent structure-based modification. Time-course treatments and resistant virus selection of PR66 were employed to study the mode of mechanism of PR66. In vivo activity of PR66 was tested in the ICR strain of new-born mice challenged with EV-A71/4643/MP4.
PR66 could impede the uncoating process during viral infection via interaction with capsid protein VP1, as shown by a resistant virus selection assay. Using site-directed mutagenesis, we confirmed that a change from valine to phenylalanine in the 179th amino acid residue of the cDNA-derived resistant virus resulted in resistance to PR66. PR66 increased the virion stability of WT viruses, but not the PR66-resistant mutant, in a particle stability thermal release assay. We further showed that PR66 had excellent anti-EV-A71 activity in an in vivo mouse model of disease, with a dose-dependent increase in survival rate and in protection against virus-induced hind-limb paralysis following oral or intraperitoneal administration. This was associated with reductions of viral titres in brain and muscle tissues.
We demonstrated here for the first time that an imidazolidinone derivative (PR66) could protect against EV-A71-induced neurological symptoms in vivo by suppressing EV-A71 replication. This involved binding to and restricting viral uncoating.
肠道病毒71型(EV - A71)是一种重要病原体,可引发严重神经症状甚至导致死亡。我们的目标是鉴定有效的抗EV - A71化合物,并研究其潜在机制及体内活性。
通过化合物筛选及后续基于结构的修饰,我们鉴定出一种有效的咪唑烷酮衍生物(简称为PR66)作为EV - A71感染的抑制剂。采用PR66的时间进程处理和抗性病毒筛选来研究其作用机制模式。在新生ICR小鼠感染EV - A71/4643/MP4的模型中测试PR66的体内活性。
抗性病毒筛选试验表明,PR66可通过与衣壳蛋白VP1相互作用,在病毒感染期间阻碍脱壳过程。通过定点诱变,我们证实cDNA衍生的抗性病毒第179位氨基酸残基由缬氨酸变为苯丙氨酸导致对PR66产生抗性。在颗粒稳定性热释放试验中,PR66增加了野生型病毒的病毒体稳定性,但对PR66抗性突变体无效。我们进一步表明,在疾病的体内小鼠模型中,PR66具有出色的抗EV - A71活性,口服或腹腔注射后,存活率呈剂量依赖性增加,且能预防病毒诱导的后肢麻痹。这与脑和肌肉组织中病毒滴度的降低相关。
我们首次证明咪唑烷酮衍生物(PR66)可通过抑制EV - A71复制在体内预防EV - A71诱导的神经症状。这涉及与病毒结合并限制病毒脱壳。
