Shared N417-dependent epitope on the SARS-CoV-2 Omicron, Beta and Delta-plus variants

ABSTRACT

As SARS-CoV-2 continues to evolve, several variants of concern (VOCs) have arisen which are defined by multiple mutations in their spike proteins. These VOCs have shown variable escape from antibody responses, and have been shown to trigger qualitatively different antibody responses during infection. By studying plasma from individuals infected with either the original D614G, Beta or Delta variants, we show that the Beta and Delta variants elicit antibody responses that are overall more cross-reactive than those triggered by D614G. Patterns of cross-reactivity varied, and the Beta and Delta variants did not elicit cross-reactive responses to each other. However, Beta-elicited plasma was highly cross-reactive against Delta plus (Delta+) which differs from Delta by a single K417N mutation in the receptor binding domain, suggesting the plasma response targets the N417 residue. To probe this further, we isolated monoclonal antibodies from a Beta-infected individual with plasma responses against Beta, Delta+ and Omicron, which all possess the N417 residue. We isolated a N417-dependent antibody, 084-7D, which showed similar neutralization breadth to the plasma. The 084-7D mAb utilized the IGHV3-23*01 germline gene and had similar somatic hypermutations compared to previously described public antibodies which target the 417 residue. Thus, we have identified a novel antibody which targets a shared epitope found on three distinct VOCs, enabling their cross-neutralization. Understanding antibodies targetting escape mutations such as K417N, which repeatedly emerge through convergent evolution in SARS-CoV-2 variants, may aid in the development of next-generation antibody therapeutics and vaccines. ImportanceThe evolution of SARS-CoV-2 has resulted in variants of concern (VOCs) with distinct spike mutations conferring varying immune escape profiles. These variable mutations also influence the cross-reactivity of the antibody response mounted by individuals infected with each of these variants. This study sought to understand the antibody responses elicited by different SARS-CoV-2 variants, and to define shared epitopes. We show that Beta and Delta infection resulted in antibody responses that were more cross-reactive compared to the original D614G variant, but each with differing patterns of cross-reactivity. We further isolated an antibody from Beta infection, which targeted the N417 site, enabling cross-neutralization of Beta, Delta+ and Omicron, all of which possess this residue. The discovery of antibodies which target escape mutations common to multiple variants highlights conserved epitopes to target in future vaccines and therapeutics.