SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused the global COVID-19 pandemic infecting more than 106 million people and causing 2.3 million deaths. The rapid deployment of antibody-based countermeasures has provided hope for curtailing disease and ending the pandemic(1). Howe...

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Autores principales: Diamond, Michael, Chen, Rita, Xie, Xuping, Case, James, Zhang, Xianwen, VanBlargan, Laura, Liu, Yang, Liu, Jianying, Errico, John, Winkler, Emma, Suryadevara, Naveenchandra, Tahan, Stephen, Turner, Jackson, Kim, Wooseob, Schmitz, Aaron, Thapa, Mahima, Wang, David, Boon, Andrianus, Pinto, Dora, Presti, Rachel, O’Halloran, Jane, Kim, Alfred, Deepak, Parakkal, Fremont, Daved, Corti, Davide, Virgin, Herbert, Crowe, James, Droit, Lindsay, Ellebedy, Ali, Shi, Pei-Yong, Gilchuk, Pavlo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Journal Experts 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7885928/
https://www.ncbi.nlm.nih.gov/pubmed/33594356
http://dx.doi.org/10.21203/rs.3.rs-228079/v1
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author Diamond, Michael
Chen, Rita
Xie, Xuping
Case, James
Zhang, Xianwen
VanBlargan, Laura
Liu, Yang
Liu, Jianying
Errico, John
Winkler, Emma
Suryadevara, Naveenchandra
Tahan, Stephen
Turner, Jackson
Kim, Wooseob
Schmitz, Aaron
Thapa, Mahima
Wang, David
Boon, Andrianus
Pinto, Dora
Presti, Rachel
O’Halloran, Jane
Kim, Alfred
Deepak, Parakkal
Fremont, Daved
Corti, Davide
Virgin, Herbert
Crowe, James
Droit, Lindsay
Ellebedy, Ali
Shi, Pei-Yong
Gilchuk, Pavlo
author_facet Diamond, Michael
Chen, Rita
Xie, Xuping
Case, James
Zhang, Xianwen
VanBlargan, Laura
Liu, Yang
Liu, Jianying
Errico, John
Winkler, Emma
Suryadevara, Naveenchandra
Tahan, Stephen
Turner, Jackson
Kim, Wooseob
Schmitz, Aaron
Thapa, Mahima
Wang, David
Boon, Andrianus
Pinto, Dora
Presti, Rachel
O’Halloran, Jane
Kim, Alfred
Deepak, Parakkal
Fremont, Daved
Corti, Davide
Virgin, Herbert
Crowe, James
Droit, Lindsay
Ellebedy, Ali
Shi, Pei-Yong
Gilchuk, Pavlo
author_sort Diamond, Michael
collection PubMed
description Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused the global COVID-19 pandemic infecting more than 106 million people and causing 2.3 million deaths. The rapid deployment of antibody-based countermeasures has provided hope for curtailing disease and ending the pandemic(1). However, the emergence of rapidly-spreading SARS-CoV-2 variants in the United Kingdom (B.1.1.7), South Africa (B.1.351), and elsewhere with mutations in the spike protein has raised concern for escape from neutralizing antibody responses and loss of vaccine efficacy based on preliminary data with pseudoviruses(2–4). Here, using monoclonal antibodies (mAbs), animal immune sera, human convalescent sera, and human sera from recipients of the Pfizer-BioNTech (BNT162b2) mRNA vaccine, we report the impact on antibody neutralization of a panel of authentic SARS-CoV-2 variants including a B.1.1.7 isolate, a chimeric Washington strain with a South African spike gene (Wash SA-B.1.351), and isogenic recombinant variants with designed mutations or deletions at positions 69–70, 417, 484, 501, and/or 614 of the spike protein. Several highly neutralizing mAbs engaging the receptor binding domain (RBD) or N-terminal domain (NTD) lost inhibitory activity against Wash SA-B.1.351 or recombinant variants with an E484K spike mutation. Most convalescent sera and virtually all mRNA vaccine-induced immune sera tested showed markedly diminished neutralizing activity against the Wash SA-B.1.351 strain or recombinant viruses containing mutations at position 484 and 501. We also noted that cell line selection used for growth of virus stocks or neutralization assays can impact the potency of antibodies against different SARS-CoV-2 variants, which has implications for assay standardization and congruence of results across laboratories. As several antibodies binding specific regions of the RBD and NTD show loss-of-neutralization potency in vitro against emerging variants, updated mAb cocktails, targeting of highly conserved regions, enhancement of mAb potency, or adjustments to the spike sequences of vaccines may be needed to prevent loss of protection in vivo.
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spelling pubmed-78859282021-02-17 SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies Diamond, Michael Chen, Rita Xie, Xuping Case, James Zhang, Xianwen VanBlargan, Laura Liu, Yang Liu, Jianying Errico, John Winkler, Emma Suryadevara, Naveenchandra Tahan, Stephen Turner, Jackson Kim, Wooseob Schmitz, Aaron Thapa, Mahima Wang, David Boon, Andrianus Pinto, Dora Presti, Rachel O’Halloran, Jane Kim, Alfred Deepak, Parakkal Fremont, Daved Corti, Davide Virgin, Herbert Crowe, James Droit, Lindsay Ellebedy, Ali Shi, Pei-Yong Gilchuk, Pavlo Res Sq Article Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused the global COVID-19 pandemic infecting more than 106 million people and causing 2.3 million deaths. The rapid deployment of antibody-based countermeasures has provided hope for curtailing disease and ending the pandemic(1). However, the emergence of rapidly-spreading SARS-CoV-2 variants in the United Kingdom (B.1.1.7), South Africa (B.1.351), and elsewhere with mutations in the spike protein has raised concern for escape from neutralizing antibody responses and loss of vaccine efficacy based on preliminary data with pseudoviruses(2–4). Here, using monoclonal antibodies (mAbs), animal immune sera, human convalescent sera, and human sera from recipients of the Pfizer-BioNTech (BNT162b2) mRNA vaccine, we report the impact on antibody neutralization of a panel of authentic SARS-CoV-2 variants including a B.1.1.7 isolate, a chimeric Washington strain with a South African spike gene (Wash SA-B.1.351), and isogenic recombinant variants with designed mutations or deletions at positions 69–70, 417, 484, 501, and/or 614 of the spike protein. Several highly neutralizing mAbs engaging the receptor binding domain (RBD) or N-terminal domain (NTD) lost inhibitory activity against Wash SA-B.1.351 or recombinant variants with an E484K spike mutation. Most convalescent sera and virtually all mRNA vaccine-induced immune sera tested showed markedly diminished neutralizing activity against the Wash SA-B.1.351 strain or recombinant viruses containing mutations at position 484 and 501. We also noted that cell line selection used for growth of virus stocks or neutralization assays can impact the potency of antibodies against different SARS-CoV-2 variants, which has implications for assay standardization and congruence of results across laboratories. As several antibodies binding specific regions of the RBD and NTD show loss-of-neutralization potency in vitro against emerging variants, updated mAb cocktails, targeting of highly conserved regions, enhancement of mAb potency, or adjustments to the spike sequences of vaccines may be needed to prevent loss of protection in vivo. American Journal Experts 2021-02-10 /pmc/articles/PMC7885928/ /pubmed/33594356 http://dx.doi.org/10.21203/rs.3.rs-228079/v1 Text en This work is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Diamond, Michael
Chen, Rita
Xie, Xuping
Case, James
Zhang, Xianwen
VanBlargan, Laura
Liu, Yang
Liu, Jianying
Errico, John
Winkler, Emma
Suryadevara, Naveenchandra
Tahan, Stephen
Turner, Jackson
Kim, Wooseob
Schmitz, Aaron
Thapa, Mahima
Wang, David
Boon, Andrianus
Pinto, Dora
Presti, Rachel
O’Halloran, Jane
Kim, Alfred
Deepak, Parakkal
Fremont, Daved
Corti, Davide
Virgin, Herbert
Crowe, James
Droit, Lindsay
Ellebedy, Ali
Shi, Pei-Yong
Gilchuk, Pavlo
SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title_full SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title_fullStr SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title_full_unstemmed SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title_short SARS-CoV-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
title_sort sars-cov-2 variants show resistance to neutralization by many monoclonal and serum-derived polyclonal antibodies
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7885928/
https://www.ncbi.nlm.nih.gov/pubmed/33594356
http://dx.doi.org/10.21203/rs.3.rs-228079/v1
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