Structural basis for broad coronavirus neutralization

Maximilian M. Sauer; M. Alejandra Tortorici; Young Jun Park; Alexandra C. Walls; Leah Homad; Oliver J. Acton; John E. Bowen; Chunyan Wang; Xiaoli Xiong; Willem de van der Schueren; Joel Quispe; Benjamin G. Hoffstrom; Berend Jan Bosch; Andrew T. McGuire; David Veesler

doi:10.1038/s41594-021-00596-4

Structural basis for broad coronavirus neutralization

Maximilian M. Sauer
, M. Alejandra Tortorici
, Young Jun Park
, Alexandra C. Walls
, Leah Homad
, Oliver J. Acton
, John E. Bowen
, Chunyan Wang
, Xiaoli Xiong
, Willem de van der Schueren
, Joel Quispe
, Benjamin G. Hoffstrom
, Berend Jan Bosch
, Andrew T. McGuire
, David Veesler

University of Washington
Institut Pasteur, Paris
Fred Hutchinson Cancer Research Center
Utrecht University
CAS - Guangzhou Institute of Biomedicine and Health
Bluebird Bio, Inc.

Research output: Contribution to journal › Article › peer-review

146 Scopus citations

Abstract

Three highly pathogenic β-coronaviruses have crossed the animal-to-human species barrier in the past two decades: SARS-CoV, MERS-CoV and SARS-CoV-2. To evaluate the possibility of identifying antibodies with broad neutralizing activity, we isolated a monoclonal antibody, termed B6, that cross-reacts with eight β-coronavirus spike glycoproteins, including all five human-infecting β-coronaviruses. B6 broadly neutralizes entry of pseudotyped viruses from lineages A and C, but not from lineage B, and the latter includes SARS-CoV and SARS-CoV-2. Cryo-EM, X-ray crystallography and membrane fusion assays reveal that B6 binds to a conserved cryptic epitope located in the fusion machinery. The data indicate that antibody binding sterically interferes with the spike conformational changes leading to membrane fusion. Our data provide a structural framework explaining B6 cross-reactivity with β-coronaviruses from three lineages, along with a proof of concept for antibody-mediated broad coronavirus neutralization elicited through vaccination. This study unveils an unexpected target for next-generation structure-guided design of a pan-β-coronavirus vaccine.

Original language	English
Pages (from-to)	478-486
Number of pages	9
Journal	Nature Structural and Molecular Biology
Volume	28
Issue number	6
DOIs	https://doi.org/10.1038/s41594-021-00596-4
State	Published - Jun 2021
Externally published	Yes

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Sauer, M. M., Tortorici, M. A., Park, Y. J., Walls, A. C., Homad, L., Acton, O. J., Bowen, J. E., Wang, C., Xiong, X., de van der Schueren, W., Quispe, J., Hoffstrom, B. G., Bosch, B. J., McGuire, A. T., & Veesler, D. (2021). Structural basis for broad coronavirus neutralization. Nature Structural and Molecular Biology, 28(6), 478-486. https://doi.org/10.1038/s41594-021-00596-4

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abstract = "Three highly pathogenic β-coronaviruses have crossed the animal-to-human species barrier in the past two decades: SARS-CoV, MERS-CoV and SARS-CoV-2. To evaluate the possibility of identifying antibodies with broad neutralizing activity, we isolated a monoclonal antibody, termed B6, that cross-reacts with eight β-coronavirus spike glycoproteins, including all five human-infecting β-coronaviruses. B6 broadly neutralizes entry of pseudotyped viruses from lineages A and C, but not from lineage B, and the latter includes SARS-CoV and SARS-CoV-2. Cryo-EM, X-ray crystallography and membrane fusion assays reveal that B6 binds to a conserved cryptic epitope located in the fusion machinery. The data indicate that antibody binding sterically interferes with the spike conformational changes leading to membrane fusion. Our data provide a structural framework explaining B6 cross-reactivity with β-coronaviruses from three lineages, along with a proof of concept for antibody-mediated broad coronavirus neutralization elicited through vaccination. This study unveils an unexpected target for next-generation structure-guided design of a pan-β-coronavirus vaccine.",

author = "Sauer, \{Maximilian M.\} and Tortorici, \{M. Alejandra\} and Park, \{Young Jun\} and Walls, \{Alexandra C.\} and Leah Homad and Acton, \{Oliver J.\} and Bowen, \{John E.\} and Chunyan Wang and Xiaoli Xiong and \{de van der Schueren\}, Willem and Joel Quispe and Hoffstrom, \{Benjamin G.\} and Bosch, \{Berend Jan\} and McGuire, \{Andrew T.\} and David Veesler",

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doi = "10.1038/s41594-021-00596-4",

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AU - Acton, Oliver J.

AU - Bowen, John E.

AU - Wang, Chunyan

AU - Xiong, Xiaoli

AU - de van der Schueren, Willem

AU - Quispe, Joel

AU - Hoffstrom, Benjamin G.

AU - Bosch, Berend Jan

AU - McGuire, Andrew T.

AU - Veesler, David

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AB - Three highly pathogenic β-coronaviruses have crossed the animal-to-human species barrier in the past two decades: SARS-CoV, MERS-CoV and SARS-CoV-2. To evaluate the possibility of identifying antibodies with broad neutralizing activity, we isolated a monoclonal antibody, termed B6, that cross-reacts with eight β-coronavirus spike glycoproteins, including all five human-infecting β-coronaviruses. B6 broadly neutralizes entry of pseudotyped viruses from lineages A and C, but not from lineage B, and the latter includes SARS-CoV and SARS-CoV-2. Cryo-EM, X-ray crystallography and membrane fusion assays reveal that B6 binds to a conserved cryptic epitope located in the fusion machinery. The data indicate that antibody binding sterically interferes with the spike conformational changes leading to membrane fusion. Our data provide a structural framework explaining B6 cross-reactivity with β-coronaviruses from three lineages, along with a proof of concept for antibody-mediated broad coronavirus neutralization elicited through vaccination. This study unveils an unexpected target for next-generation structure-guided design of a pan-β-coronavirus vaccine.

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Structural basis for broad coronavirus neutralization

Abstract

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