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Circulating SARS-CoV-2 spike N439K variants maintain fitness while evading antibody-mediated immunity

Circulating SARS-CoV-2 spike N439K variants maintain fitness while evading antibody-mediated immunity
Circulating SARS-CoV-2 spike N439K variants maintain fitness while evading antibody-mediated immunity
SARS-CoV-2 can mutate and evade immunity, with consequences for efficacy of emerging vaccines and antibody therapeutics. Here, we demonstrate that the immunodominant SARS-CoV-2 spike (S) receptor binding motif (RBM) is a highly variable region of S and provide epidemiological, clinical, and molecular characterization of a prevalent, sentinel RBM mutation, N439K. We demonstrate N439K S protein has enhanced binding affinity to the hACE2 receptor, and N439K viruses have similar in vitro replication fitness and cause infections with similar clinical outcomes as compared to wild type. We show the N439K mutation confers resistance against several neutralizing monoclonal antibodies, including one authorized for emergency use by the US Food and Drug Administration (FDA), and reduces the activity of some polyclonal sera from persons recovered from infection. Immune evasion mutations that maintain virulence and fitness such as N439K can emerge within SARS-CoV-2 S, highlighting the need for ongoing molecular surveillance to guide development and usage of vaccines and therapeutics. Epidemiological, clinical, molecular, and structural characterization of the N439K mutation in the SARS-CoV-2 spike receptor binding motif demonstrates that it results in similar viral fitness compared to wild-type while conferring resistance against some neutralizing monoclonal antibodies and reducing the activity of some polyclonal antibody responses.
COVID-19, monoclonal antibody escape, mutation, N439K, protein structure, receptor binding motif, SARS-CoV-2, Spike, variant
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Thomson, Emma C.
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the COVID-19 Genomics UK (COG-UK) Consortium
The ISARIC4C Investigators
Thomson, Emma C.
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Rosen, Laura E.
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Shepherd, James G.
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Spreafico, Roberto
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da Silva Filipe, Ana
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Davis, Chris
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Piccoli, Luca
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Pascall, David J.
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Fadda, Elisa
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Thomson, Emma C., Rosen, Laura E. and Shepherd, James G. , the COVID-19 Genomics UK (COG-UK) Consortium and The ISARIC4C Investigators (2021) Circulating SARS-CoV-2 spike N439K variants maintain fitness while evading antibody-mediated immunity. Cell, 184 (5), 1171-1187, [e20]. (doi:10.1016/j.cell.2021.01.037).

Record type: Article

Abstract

SARS-CoV-2 can mutate and evade immunity, with consequences for efficacy of emerging vaccines and antibody therapeutics. Here, we demonstrate that the immunodominant SARS-CoV-2 spike (S) receptor binding motif (RBM) is a highly variable region of S and provide epidemiological, clinical, and molecular characterization of a prevalent, sentinel RBM mutation, N439K. We demonstrate N439K S protein has enhanced binding affinity to the hACE2 receptor, and N439K viruses have similar in vitro replication fitness and cause infections with similar clinical outcomes as compared to wild type. We show the N439K mutation confers resistance against several neutralizing monoclonal antibodies, including one authorized for emergency use by the US Food and Drug Administration (FDA), and reduces the activity of some polyclonal sera from persons recovered from infection. Immune evasion mutations that maintain virulence and fitness such as N439K can emerge within SARS-CoV-2 S, highlighting the need for ongoing molecular surveillance to guide development and usage of vaccines and therapeutics. Epidemiological, clinical, molecular, and structural characterization of the N439K mutation in the SARS-CoV-2 spike receptor binding motif demonstrates that it results in similar viral fitness compared to wild-type while conferring resistance against some neutralizing monoclonal antibodies and reducing the activity of some polyclonal antibody responses.

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Accepted/In Press date: 22 January 2021
e-pub ahead of print date: 28 January 2021
Published date: 4 March 2021
Keywords: COVID-19, monoclonal antibody escape, mutation, N439K, protein structure, receptor binding motif, SARS-CoV-2, Spike, variant

Identifiers

Local EPrints ID: 500251
URI: http://eprints.soton.ac.uk/id/eprint/500251
DOI: doi:10.1016/j.cell.2021.01.037
ISSN: 0092-8674
PURE UUID: ff6c7631-1a1f-44da-aef2-2b10e5a3ab9b
ORCID for Elisa Fadda: ORCID iD orcid.org/0000-0002-2898-7770

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Date deposited: 23 Apr 2025 16:43
Last modified: 22 Aug 2025 02:42

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Contributors

Author: Emma C. Thomson
Author: Laura E. Rosen
Author: James G. Shepherd
Author: Roberto Spreafico
Author: Ana da Silva Filipe
Author: Jason A. Wojcechowskyj
Author: Chris Davis
Author: Luca Piccoli
Author: David J. Pascall
Author: Josh Dillen
Author: Spyros Lytras
Author: Nadine Czudnochowski
Author: Rajiv Shah
Author: Marcel Meury
Author: Natasha Jesudason
Author: Anna De Marco
Author: Kathy Li
Author: Jessica Bassi
Author: Aine O’Toole
Author: Dora Pinto
Author: Rachel M. Colquhoun
Author: Katja Culap
Author: Ben Jackson
Author: Fabrizia Zatta
Author: Andrew Rambaut
Author: Stefano Jaconi
Author: Vattipally B. Sreenu
Author: Jay Nix
Author: Ivy Zhang
Author: Ruth F. Jarrett
Author: William G. Glass
Author: Martina Beltramello
Author: Kyriaki Nomikou
Author: Matteo Pizzuto
Author: Lily Tong
Author: Elisabetta Cameroni
Author: Tristan I. Croll
Author: Natasha Johnson
Author: Julia Di Iulio
Author: Arthur Wickenhagen
Author: Alessandro Ceschi
Author: Aoife M. Harbison
Author: Daniel Mair
Author: Paolo Ferrari
Author: Katherine Smollett
Author: Federica Sallusto
Author: Stephen Carmichael
Author: Christian Garzoni
Author: Jenna Nichols
Author: Elisa Fadda ORCID iD
Corporate Author: the COVID-19 Genomics UK (COG-UK) Consortium
Corporate Author: The ISARIC4C Investigators

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