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A Combination of Receptor-Binding Domain and N-Terminal Domain Neutralizing Antibodies Limits the Generation of SARS-CoV-2 Spike Neutralization-Escape Mutants

by Rappazzo, C. Garrett , Tong, Karen , Daily, Johanna P. , Dieterle, M. Eugenia , Walker, Laura M. , O’Brien, Cecilia M. , Wang, Nianshuang , Wrapp, Daniel , Florez, Catalina , Wirchnianski, Ariel S. , Barnhill, Jason , Mengotto, Amanda , Chandran, Kartik , Laudermilch, Ethan , Georgiev, George I. , Dye, John M. , Lai, Jonathan R. , Dye, Kathryn E. , Quiroz, Jose A. , Wec, Anna Z. , Bortz, Robert H. , Jangra, Rohit K. , Fels, J. Maximilian , Vergnolle, Olivia , Herbert, Andrew S. , Malonis, Ryan J. , Sakharkar, Mrunal , McLellan, Jason S. , Haslwanter, Denise , Lasso, Gorka

in Antibodies / Antibodies, Neutralizing - immunology / Cloning / COVID-19 / COVID-19 - genetics / COVID-19 - immunology / Disease transmission / Enzymes / Epitopes / Genes / Humans / Immunological memory / Infections / Lymphocytes B / Memory cells / Monoclonal antibodies / Mutants / Mutation / Mutation - immunology / Neutralization Tests / Pandemics / Peptides / Proteins / Research Article / RNA-Binding Motifs - immunology / SARS-CoV-2 - genetics / SARS-CoV-2 - immunology / Severe acute respiratory syndrome coronavirus 2 / Spike protein / Stomatitis / Virology / Viruses

2021

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A Combination of Receptor-Binding Domain and N-Terminal Domain Neutralizing Antibodies Limits the Generation of SARS-CoV-2 Spike Neutralization-Escape Mutants

2021

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A Combination of Receptor-Binding Domain and N-Terminal Domain Neutralizing Antibodies Limits the Generation of SARS-CoV-2 Spike Neutralization-Escape Mutants

2021

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Journal Article

A Combination of Receptor-Binding Domain and N-Terminal Domain Neutralizing Antibodies Limits the Generation of SARS-CoV-2 Spike Neutralization-Escape Mutants

Rappazzo, C. Garrett,

Tong, Karen,

Daily, Johanna P.,

Dieterle, M. Eugenia,

Walker, Laura M.,

O’Brien, Cecilia M.,

Wang, Nianshuang,

Wrapp, Daniel,

Florez, Catalina,

Wirchnianski, Ariel S.,

Barnhill, Jason,

Mengotto, Amanda,

Chandran, Kartik,

Laudermilch, Ethan,

Georgiev, George I.,

Dye, John M.,

Lai, Jonathan R.,

Dye, Kathryn E.,

Quiroz, Jose A.,

Wec, Anna Z.,

Bortz, Robert H.,

Jangra, Rohit K.,

Fels, J. Maximilian,

Vergnolle, Olivia,

Herbert, Andrew S.,

Malonis, Ryan J.,

Sakharkar, Mrunal,

McLellan, Jason S.,

Haslwanter, Denise,

Lasso, Gorka

2021

Overview

The U.S. FDA has issued emergency use authorizations (EUAs) for multiple investigational monoclonal antibody (MAb) therapies for the treatment of mild to moderate COVID-19. Most known SARS-CoV-2 neutralizing antibodies (nAbs), including those approved by the FDA for emergency use, inhibit viral infection by targeting the receptor-binding domain (RBD) of the spike (S) protein. Variants of concern (VOC) carrying mutations in the RBD or other regions of S reduce the effectiveness of many nAbs and vaccines by evading neutralization. Therefore, therapies that are less susceptible to resistance are urgently needed. Here, we characterized the memory B-cell repertoire of COVID-19 convalescent donors and analyzed their RBD and non-RBD nAbs. We found that many of the non-RBD-targeting nAbs were specific to the N-terminal domain (NTD). Using neutralization assays with authentic SARS-CoV-2 and a recombinant vesicular stomatitis virus carrying SARS-CoV-2 S protein (rVSV-SARS2), we defined a panel of potent RBD and NTD nAbs. Next, we used a combination of neutralization-escape rVSV-SARS2 mutants and a yeast display library of RBD mutants to map their epitopes. The most potent RBD nAb competed with hACE2 binding and targeted an epitope that includes residue F490. The most potent NTD nAb epitope included Y145, K150, and W152. As seen with some of the natural VOC, the neutralization potencies of COVID-19 convalescent-phase sera were reduced by 4- to 16-fold against rVSV-SARS2 bearing Y145D, K150E, or W152R spike mutations. Moreover, we found that combining RBD and NTD nAbs did not enhance their neutralization potential. Notably, the same combination of RBD and NTD nAbs limited the development of neutralization-escape mutants in vitro , suggesting such a strategy may have higher efficacy and utility for mitigating the emergence of VOC. IMPORTANCE The U.S. FDA has issued emergency use authorizations (EUAs) for multiple investigational monoclonal antibody (MAb) therapies for the treatment of mild to moderate COVID-19. These MAb therapeutics are solely targeting the receptor-binding domain of the SARS-CoV-2 spike protein. However, the N-terminal domain of the spike protein also carries crucial neutralizing epitopes. Here, we show that key mutations in the N-terminal domain can reduce the neutralizing capacity of convalescent-phase COVID-19 sera. We report that a combination of two neutralizing antibodies targeting the receptor-binding and N-terminal domains may be beneficial to combat the emergence of virus variants.

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Publisher

American Society for Microbiology

Subject

Antibodies

/ Antibodies, Neutralizing - immunology

/ Cloning

/ COVID-19

/ COVID-19 - genetics

/ COVID-19 - immunology

/ Disease transmission