人参皂苷Rg3可恢复丙型肝炎病毒诱导的线粒体动力学异常并抑制病毒增殖。
Ginsenoside Rg3 restores hepatitis C virus-induced aberrant mitochondrial dynamics and inhibits virus propagation.
作者信息
Kim Seong-Jun, Jang Jae Young, Kim Eun-Jung, Cho Eun Kyung, Ahn Dae-Gyun, Kim Chonsaeng, Park Han Seul, Jeong Soung Won, Lee Sae Hwan, Kim Sang Gyune, Kim Young Seok, Kim Hong Soo, Kim Boo Sung, Lee Jihyung, Siddiqui Aleem
机构信息
Center for Convergent Research of Emerging Virus Infection, Korea Research Institute of Chemical Technology, Yuseong, Daejeon, South Korea.
Institute for Digestive Research, Digestive Disease Center, Department of Internal Medicine, Soonchunhyang University College of Medicine, Seoul, South Korea.
出版信息
Hepatology. 2017 Sep;66(3):758-771. doi: 10.1002/hep.29177. Epub 2017 Aug 1.
UNLABELLED
Hepatitis C virus (HCV) alters mitochondrial dynamics associated with persistent viral infection and suppression of innate immunity. Mitochondrial dysfunction is also a pathologic feature of direct-acting antiviral (DAA) treatment. Despite the high efficacy of DAAs, their use in treating patients with chronic hepatitis C in interferon-sparing regimens occasionally produces undesirable side effects such as fatigue, migraine, and other conditions, which may be linked to mitochondrial dysfunction. Here, we show that clinically prescribed DAAs, including sofosbuvir, affect mitochondrial dynamics. To counter these adverse effects, we examined HCV-induced and DAA-induced aberrant mitochondrial dynamics modulated by ginsenoside, which is known to support healthy mitochondrial physiology and the innate immune system. We screened several ginsenoside compounds showing antiviral activity using a robust HCV cell culture system. We investigated the role of ginsenosides in antiviral efficacy, alteration of mitochondrial transmembrane potential, abnormal mitochondrial fission, its upstream signaling, and mitophagic process caused by HCV infection or DAA treatment. Only one of the compounds, ginsenoside Rg3 (G-Rg3), exhibited notable and promising anti-HCV potential. Treatment of HCV-infected cells with G-Rg3 increased HCV core protein-mediated reduction in the expression level of cytosolic p21, required for increasing cyclin-dependent kinase 1 activity, which catalyzes Ser616 phosphorylation of dynamin-related protein 1. The HCV-induced mitophagy, which follows mitochondrial fission, was also rescued by G-Rg3 treatment.
CONCLUSION
G-Rg3 inhibits HCV propagation. Its antiviral mechanism involves restoring the HCV-induced dynamin-related protein 1-mediated aberrant mitochondrial fission process, thereby resulting in suppression of persistent HCV infection. (Hepatology 2017;66:758-771).
未标记
丙型肝炎病毒(HCV)会改变与持续性病毒感染和先天免疫抑制相关的线粒体动力学。线粒体功能障碍也是直接作用抗病毒药物(DAA)治疗的病理特征。尽管DAA具有高效性,但在不使用干扰素的方案中用于治疗慢性丙型肝炎患者时,偶尔会产生不良副作用,如疲劳、偏头痛和其他状况,这些可能与线粒体功能障碍有关。在此,我们表明临床处方的DAA,包括索磷布韦,会影响线粒体动力学。为了对抗这些不良反应,我们研究了由人参皂苷调节的HCV诱导和DAA诱导的异常线粒体动力学,已知人参皂苷可支持健康的线粒体生理学和先天免疫系统。我们使用强大的HCV细胞培养系统筛选了几种显示抗病毒活性的人参皂苷化合物。我们研究了人参皂苷在抗病毒功效、线粒体跨膜电位改变、异常线粒体分裂、其上游信号传导以及由HCV感染或DAA治疗引起的线粒体自噬过程中的作用。只有一种化合物,人参皂苷Rg3(G-Rg3),表现出显著且有前景的抗HCV潜力。用G-Rg3处理HCV感染的细胞可增加HCV核心蛋白介导的细胞溶质p21表达水平的降低,这是增加细胞周期蛋白依赖性激酶1活性所必需的,该激酶催化动力相关蛋白1的Ser616磷酸化。G-Rg3处理也挽救了HCV诱导的线粒体自噬,该自噬发生在线粒体分裂之后。
结论
G-Rg3抑制HCV传播。其抗病毒机制涉及恢复HCV诱导的动力相关蛋白1介导的异常线粒体分裂过程,从而导致持续性HCV感染受到抑制。(《肝脏病学》2017年;66:758 - 771)
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