Emetine inhibits Zika and Ebola virus infections through two molecular mechanisms: inhibiting viral replication and decreasing viral entry.
Shu YangMiao XuEmily M LeeKirill GorshkovSergey A ShiryaevShihua HeWei SunYu-Shan ChengXin HuAnil Mathew TharappelBilly LuAntonella PintoChen FarhyChun-Teng HuangZirui ZhangWenjun ZhuYuying WuYi ZhouGuang SongHeng ZhuKhalida ShamimCarles Martínez-RomeroAdolfo García-SastreRichard A PrestonDushyantha T JayaweeraRuili HuangWenwei HuangMenghang XiaAnton SimeonovGuo-Li MingXiangguo QiuAlexey V TerskikhHengli TangHongjun SongWei ZhengPublished in: Cell discovery (2018)
The re-emergence of Zika virus (ZIKV) and Ebola virus (EBOV) poses serious and continued threats to the global public health. Effective therapeutics for these maladies is an unmet need. Here, we show that emetine, an anti-protozoal agent, potently inhibits ZIKV and EBOV infection with a low nanomolar half maximal inhibitory concentration (IC50) in vitro and potent activity in vivo. Two mechanisms of action for emetine are identified: the inhibition of ZIKV NS5 polymerase activity and disruption of lysosomal function. Emetine also inhibits EBOV entry. Cephaeline, a desmethyl analog of emetine, which may be better tolerated in patients than emetine, exhibits a similar efficacy against both ZIKV and EBOV infections. Hence, emetine and cephaeline offer pharmaceutical therapies against both ZIKV and EBOV infection.