In Vivo Evolution of Monoclonal Antibody CR3022 to Achieve Cross-Neutralization of SARS-CoV-2 and Implications for Vaccine Strategies Against SARS-Related Viruses
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The epitope that monoclonal CR3022 binds to represents a promising target for broad protection against a wide range of human and zoonotic coronaviruses. We developed a powerful model to evaluate antibody affinity maturation in vivo using immunoglobulin (Ig)-humanized mice that express the predicted germline heavy chain of antibody CR3022. SARS-CoV/SARS-CoV-2 sequential immunization led to the convergent evolution of the germline CR3022 through somatic hypermutation (SHM) that resembled the affinity-matured CR3022 from a human, but now also adapted to key variants and divergent sarbecoviruses. While simple prime-boost strategies drove CR3022-epitope targeting, an intensive vaccination protocol elicited dominant responses to other epitopes. X-ray crystal structures revealed that SARS-CoV-2-neutralizing CR3022-like antibodies exhibit enhanced affinity by increasing polar and electrostatic interactions. Overall, these findings show CR3022-like clones can be readily adapted through SHM to increase breadth and potency to sarbecoviruses by relatively minor shifts in affinity with appropriate vaccination strategies.
