An anti-Gn glycoprotein antibody from a convalescent patient potently inhibits the infection of severe fever with thrombocytopenia syndrome virus

Abstract

Severe fever with thrombocytopenia syndrome (SFTS) is an emerging infectious disease localized to China, Japan, and Korea that is characterized by severe hemorrhage and a high fatality rate. Currently, no specific vaccine or treatment has been approved for this disease. To develop a therapeutic agent for SFTS, we isolated antibodies from a phage-displayed antibody library that was constructed from a patient who recovered from SFTS virus (SFTSV) infection. One antibody, designated as Ab10, was reactive to the Gn envelope glycoprotein of SFTSV and protected host cells and A129 mice from infection in both in vitro and in vivo experiments. Notably, Ab10 protected 80% of mice, even when injected 5 days after inoculation with a lethal dose of SFTSV. Using cross-linker assisted mass spectrometry and alanine scanning, we located the non-linear epitope of Ab10 on the Gn glycoprotein domain II and an unstructured stem region, suggesting that Ab10 may inhibit a conformational alteration that is critical for cell membrane fusion between the virus and host cell. Ab10 reacted to recombinant Gn glycoprotein in Gangwon/Korea/2012, HB28, and SD4 strains. Additionally, based on its epitope, we predict that Ab10 binds the Gn glycoprotein in 247 of 272 SFTSV isolates previously reported. Together, these data suggest that Ab10 has potential to be developed into a therapeutic agent that could protect against more than 90% of reported SFTSV isolates. Author summary Severe fever with thrombocytopenia syndrome (SFTS) is an emerging infectious disease localized to China, Japan, and Korea. The tick-borne virus that causes SFTS has infected more than 5,000 humans, with a 6.4% to 20.9% fatality rate. Currently, there are no prophylactic or therapeutic measures against this virus. Historically, antibodies from patients who recovered from viral infection have been used to treat new patients, and commercially available antiviral monoclonal antibodies have been developed. Palivizumab was approved for the prophylaxis of respiratory syncytial virus (RSV) infection, and ibalizumab-uiyk was recently approved for the treatment of human immunodeficiency virus (HIV)-infected patients. To develop an antiviral monoclonal antibody for SFTS patients, we selected 10 antibodies from a patient who recovered from SFTS and found that one antibody potently inhibited SFTS viral infection both in vitro and in animal studies. We mapped the binding site of this antibody on the SFTS virus, which allowed us to predict that this antibody could bind 247 out of the 272 SFTS virus isolates reported to date. We anticipate that this antibody could be developed into a therapeutic treatment against SFTS.