Abstract

Development of novel antiviral reagents is of great importance for the control of virus spread. Here, Ag₂S nanoclusters (NCs) were proved for the first time to possess highly efficient antiviral activity by using porcine epidemic diarrhea virus (PEDV) as a model of coronavirus. Analyses of virus titers showed that Ag₂S NCs significantly suppressed the infection of PEDV by about 3 orders of magnitude at the noncytotoxic concentration at 12 h postinfection, which was further confirmed by the expression of viral proteins. Mechanism investigations indicated that Ag₂S NCs treatment inhibits the synthesis of viral negative-strand RNA and viral budding. Ag₂S NCs treatment was also found to positively regulate the generation of IFN-stimulating genes (ISGs) and the expression of proinflammation cytokines, which might prevent PEDV infection. This study suggest the novel underlying of Ag₂S NCs as a promising therapeutic drug for coronavirus.