Author: Barnes, Christopher O.; Jette, Claudia A.; Abernathy, Morgan E.; Dam, Kim-Marie A.; Esswein, Shannon R.; Gristick, Harry B.; Malyutin, Andrey G.; Sharaf, Naima G.; Huey-Tubman, Kathryn E.; Lee, Yu E.; Robbiani, Davide F.; Nussenzweig, Michel C.; West, Anthony P.; Bjorkman, Pamela J.
Title: Structural classification of neutralizing antibodies against the SARS-CoV-2 spike receptor-binding domain suggests vaccine and therapeutic strategies Cord-id: 78lbiytv Document date: 2020_8_30
ID: 78lbiytv
Snippet: The COVID-19 pandemic presents an urgent health crisis. Human neutralizing antibodies (hNAbs) that target the host ACE2 receptor-binding domain (RBD) of the SARS-CoV-2 spike(1–5) show therapeutic promise and are being evaluated clincally(6–8). To determine structural correlates of SARS-CoV-2 neutralization, we solved 8 new structures of distinct COVID-19 hNAbs(5) in complex with SARS-CoV-2 spike trimer or RBD. Structural comparisons allowed classification into categories: (1) VH3–53 hNAbs
Document: The COVID-19 pandemic presents an urgent health crisis. Human neutralizing antibodies (hNAbs) that target the host ACE2 receptor-binding domain (RBD) of the SARS-CoV-2 spike(1–5) show therapeutic promise and are being evaluated clincally(6–8). To determine structural correlates of SARS-CoV-2 neutralization, we solved 8 new structures of distinct COVID-19 hNAbs(5) in complex with SARS-CoV-2 spike trimer or RBD. Structural comparisons allowed classification into categories: (1) VH3–53 hNAbs with short CDRH3s that block ACE2 and bind only to “up†RBDs, (2) ACE2-blocking hNAbs that bind both “up†and “down†RBDs and can contact adjacent RBDs, (3) hNAbs that bind outside the ACE2 site and recognize “up†and “down†RBDs, and (4) Previously-described antibodies that do not block ACE2 and bind only “up†RBDs(9). Class 2 comprised four hNAbs whose epitopes bridged RBDs, including a VH3–53 hNAb that used a long CDRH3 with a hydrophobic tip to bridge between adjacent “down†RBDs, thereby locking spike into a closed conformation. Epitope/paratope mapping revealed few interactions with host-derived N-glycans and minor contributions of antibody somatic hypermutations to epitope contacts. Affinity measurements and mapping of naturally-occurring and in vitro-selected spike mutants in 3D provided insight into the potential for SARS-CoV-2 escape from antibodies elicited during infection or delivered therapeutically. These classifications and structural analyses provide rules for assigning current and future human RBD-targeting antibodies into classes, evaluating avidity effects, suggesting combinations for clinical use, and providing insight into immune responses against SARS-CoV-2.
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