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Prevalent, protective, and convergent IgG recognition of SARS-CoV-2 non-RBD spike epitopes

2021; American Association for the Advancement of Science; Volume: 372; Issue: 6546 Linguagem: Inglês

10.1126/science.abg5268

1095-9203

William N. Voss, Yixuan J. Hou, Nicole V. Johnson, George Delidakis, Jin Eyun Kim, Kamyab Javanmardi, Andrew P. Horton, Foteini Bartzoka, Chelsea Paresi, Yuri Tanno, Chia‐Wei Chou, Shawn A. Abbasi, Whitney Pickens, Katia George, Daniel R. Boutz, Dalton M. Towers, Jonathan R. McDaniel, Daniel Billick, Jule Goike, Lori A. Rowe, Dhwani Batra, Jan Pohl, Justin Lee, Shivaprakash Gangappa, Suryaprakash Sambhara, Michelle Gadush, Nianshuang Wang, Maria D. Person, Brent L. Iverson, Jimmy Gollihar, John M. Dye, Andrew S. Herbert, Ilya J. Finkelstein, Ralph S. Baric, Jason S. McLellan, George Georgiou, Jason J. Lavinder, Gregory C. Ippolito,

Complement system in diseases

The molecular composition and binding epitopes of the immunoglobulin G (IgG) antibodies that circulate in blood plasma after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection are unknown. Proteomic deconvolution of the IgG repertoire to the spike glycoprotein in convalescent subjects revealed that the response is directed predominantly (>80%) against epitopes residing outside the receptor binding domain (RBD). In one subject, just four IgG lineages accounted for 93.5% of the response, including an amino (N)-terminal domain (NTD)-directed antibody that was protective against lethal viral challenge. Genetic, structural, and functional characterization of a multidonor class of "public" antibodies revealed an NTD epitope that is recurrently mutated among emerging SARS-CoV-2 variants of concern. These data show that "public" NTD-directed and other non-RBD plasma antibodies are prevalent and have implications for SARS-CoV-2 protection and antibody escape.