- Zhou, Panpan;
- Yuan, Meng;
- Song, Ge;
- Beutler, Nathan;
- Shaabani, Namir;
- Huang, Deli;
- He, Wan-Ting;
- Zhu, Xueyong;
- Callaghan, Sean;
- Yong, Peter;
- Anzanello, Fabio;
- Peng, Linghang;
- Ricketts, James;
- Parren, Mara;
- Garcia, Elijah;
- Rawlings, Stephen A;
- Smith, Davey M;
- Nemazee, David;
- Teijaro, John R;
- Rogers, Thomas F;
- Wilson, Ian A;
- Burton, Dennis R;
- Andrabi, Raiees
Broadly neutralizing antibodies (bnAbs) to coronaviruses (CoVs) are valuable in their own right as prophylactic and therapeutic reagents to treat diverse CoVs and as templates for rational pan-CoV vaccine design. We recently described a bnAb, CC40.8, from a CoV disease 2019 (COVID-19) convalescent donor that exhibits broad reactivity with human β-CoVs. Here, we showed that CC40.8 targets the conserved S2 stem helix region of the CoV spike fusion machinery. We determined a crystal structure of CC40.8 Fab with a SARS-CoV-2 S2 stem peptide at 1.6-Å resolution and found that the peptide adopted a mainly helical structure. Conserved residues in β-CoVs interacted with CC40.8 antibody, thereby providing a molecular basis for its broad reactivity. CC40.8 exhibited in vivo protective efficacy against SARS-CoV-2 challenge in two animal models. In both models, CC40.8-treated animals exhibited less weight loss and reduced lung viral titers compared to controls. Furthermore, we noted that CC40.8-like bnAbs are relatively rare in human COVID-19 infection, and therefore, their elicitation may require rational structure-based vaccine design strategies. Overall, our study describes a target on β-CoV spike proteins for protective antibodies that may facilitate the development of pan-β-CoV vaccines.