Search Results (2)

Porcine epidemic diarrhea virus (PEDV), a highly infectious alphacoronavirus, has resulted in substantial economic losses within the global swine industry. Existing vaccines and therapeutic agents have proven inadequate in effectively preventing and controlling PEDV. Natural compounds offer distinct advantages in antiviral research due to their abundant availability, diverse biological activities, and low toxicity. In this study, the antiviral properties of the naturally occurring alkaloid 1-deoxynojirimycin (DNJ) against PEDV were examined. The CC₅₀ of DNJ was determined to be 912.5 μM through experimental analysis on Vero-E6 cells. DNJ demonstrated an inhibitory effect on PEDV activity, with a 50% inhibitory concentration (IC₅₀) of 57.76 μM. The compound primarily inhibited PEDV proliferation during the viral life cycle stages of attachment and replication. Moreover, DNJ mitigated the production of reactive oxygen species (ROS) and inflammation associated with PEDV infection. Computational docking predictions suggest that the viral non-structural proteins include Nsp12, Nsp14, and Nsp16 may serve as potential targets for DNJ. Consequently, DNJ represents a promising candidate for the development of novel therapeutic agents against PEDV. Full article

Non-structural protein 1 (nsp1) is only characterized in alphacoronaviruses (α-CoVs) and betacoronaviruses (β-CoVs). There have been extensive researches on how the β-CoVs nsp1 regulates viral virulence by inhibiting host protein synthesis, but the regulatory mechanism of the α-CoVs nsp1 is still unclear. Here, we report the 2.1-Å full-length crystal structure of nsp1 in emerging porcine SADS-CoV and the 1.8-Å full-length crystal structure of nsp1 in the highly lethal cat FIPV. Although they belong to different subtypes of α-CoVs, these viruses all have a bucket-shaped fold composed of six β-sheets, similar to the crystal structure of PEDV and TGEV nsp1. Comparing the above four structures, we found that the structure of α-CoVs nsp1 in the same subtype was more conserved. We then selected mammalian cells that were treated with SADS-CoV and FIPV nsp1 for RNA sequencing analysis and found that nsp1 had a specific inhibitory effect on interferon (IFN) and cell cycle genes. Using the Renilla luciferase (Rluc) assay and Western blotting, we confirmed that seven representative α-CoVs nsp1s could significantly inhibit the phosphorylation of STAT1-S727 and interfere with the effect of IFN-I. Moreover, the cell cycle experiment confirmed that α-CoVs nsp1 could encourage host cells to stay in the G0/G1 phase. Based on these findings, we not only greatly improved the crystal structure data on α-CoVs nsp1, but we also speculated that α-CoVs nsp1 regulated host proliferation and immune evasion-related biological functions by inhibiting the synthesis of host proteins, thus creating an environment conducive to the virus. Full article