Rous sarcoma virus (RSV)/ALV was the first retrovirus to be discovered, which was really the first hint that cancer, or a tumor, could be transmitted by a virus. The specific mechanisms that regulate ALV replication during infection remain poorly understood.
Swine acute diarrhea syndrome coronavirus (SADS-CoV) is a newly discovered batorigin coronavirus with fatal pathogenicity for neonatal piglets. There is no vaccine to prevent SADS-CoV infection or clinically approved drugs targeting SADS-CoV.Therefore, unraveling cellular factors that regulate SADS-CoV for cell entry is critical to understanding the viral transmission mechanism and provides a potential therapeutic target for SADS-CoV cure. Here, we showed that Type I interferon (IFN-I) pretreatment potently blocks SADS-CoV entry into cells using lentiviral pseudovirions as targets whose entry is driven by the SADS-CoV Spike glycoprotein.IFN-I-mediated inhibition of SADS-CoV entry and replication was dramatically impaired in the absence of TET2. These results suggest TET2 is found to serve as a checkpoint of IFN-I-meditated inhibition on the cell entry of SADS-CoV, and our discovery might constitute a novel treatment option to combat against SADS-CoV.
SADS-CoV is the first documented spillover of a bat coronavirus that causes severe diseases in domestic animals. Our study is an in-depth annotation of the newly discovered swine coronavirus SADS-CoV genome and viral protein expression.
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