Structural characterization of human monoclonal antibodies targeting uncommon antigenic sites on spike glycoprotein of SARS-CoV
Naveenchandra Suryadevara, … , Ralph S. Baric, James E. Crowe Jr
Naveenchandra Suryadevara, … , Ralph S. Baric, James E. Crowe Jr
Published November 26, 2024
Citation Information: J Clin Invest. 2025;135(3):e178880. https://doi.org/10.1172/JCI178880.
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Research Article Immunology Virology

Structural characterization of human monoclonal antibodies targeting uncommon antigenic sites on spike glycoprotein of SARS-CoV

Abstract

The function of the spike protein N terminal domain (NTD) in coronavirus (CoV) infections is poorly understood. However, some rare antibodies that target the SARS-CoV-2 NTD potently neutralize the virus. This finding suggests the NTD may contribute, in part, to protective immunity. Pansarbecovirus antibodies are desirable for broad protection, but the NTD region of SARS-CoV and SARS-CoV-2 exhibit a high level of sequence divergence; therefore, cross-reactive NTD-specific antibodies are unexpected, and there is no structure of a SARS-CoV NTD-specific antibody in complex with NTD. Here, we report a monoclonal antibody COV1-65, encoded by the IGHV1-69 gene, that recognizes the NTD of SARS-CoV S protein. A prophylaxis study showed the mAb COV1-65 prevented disease when administered before SARS-CoV challenge of BALB/c mice, an effect that requires intact fragment crystallizable region (Fc) effector functions for optimal protection in vivo. The footprint on the S protein of COV1-65 is near to functional components of the S2 fusion machinery, and the selection of COV1-65 escape mutant viruses identified critical residues Y886H and Q974H, which likely affect the epitope through allosteric effects. Structural features of the mAb COV1-65–SARS-CoV antigen interaction suggest critical antigenic determinants that should be considered in the rational design of sarbecovirus vaccine candidates.

Authors

Naveenchandra Suryadevara, Nurgun Kose, Sandhya Bangaru, Elad Binshtein, Jennifer Munt, David R. Martinez, Alexandra Schäfer, Luke Myers, Trevor D. Scobey, Robert H. Carnahan, Andrew B. Ward, Ralph S. Baric, James E. Crowe Jr

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Figure 4

Cryo-EM analysis of SARS-CoV S2Pecto spike complexed with COV1-65 Fab.

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Cryo-EM analysis of SARS-CoV S2Pecto spike complexed with COV1-65 Fab. (...
(A) High-resolution (3.2 Å) cryo-EM reconstruction of CoV1-65–spike complex with C3 symmetry. The density corresponding to the spike, glycans, antibody heavy chain (HC) and light chain (LC) are colored grey, yellow, rosy-brown, and pink respectively. (B) Atomic model of the spike protomer in surface representation bound to Fabs shown as a licorice model. The residues flanking the S1/S2 cleavage site are colored in coral indicating proximity to the Fab. (C) Ribbon representation of the spike S1 subunit bound to Fab. The NTD, NTD-RBD connector region, SD1, and SD2 are colored grey, white, cyan, and green, respectively. The epitope-paratope interface between spike and HC or LC are outlined in a grey box and shown in more detail in D. (D) The top and bottom panels display zoomed-in views of the spike contacts with the HC and the LC. (E) Ribbon representation of the spike S1 showing the salt bridge interaction between COV1-65 HC framework residue R62 and E294 situated at the C-terminal of NTD. (F) Alignment of amino-acid sequences of the heavy-chain CDRs of representative IGHV1-69–encoded antibodies to viral antigens. The sequence logo shows the amino-acid composition at each position in HCDR1 and HCDR2.