Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain | Zendy

Katherine Nabel Smith | Zendy; Sarah A. Clark | Zendy; Sundaresh Shankar | Zendy; Junhua Pan | Zendy; Lars E. Clark | Zendy; Pan Yang | Zendy; Adrian Coscia | Zendy; Lindsay G. A. McKay | Zendy; Haley Varnum | Zendy; Vesna Brusic | Zendy; Nicole V. Tolan | Zendy; Guohai Zhou | Zendy; Michaël Desjardins | Zendy; Sarah E. Turbett | Zendy; Sanjat Kanjilal | Zendy; Amy C Sherman | Zendy; Anand S. Dighe | Zendy; Regina C. LaRocque | Zendy; Edward T. Ryan | Zendy; Casey Tylek | Zendy; Joël F.G. Cohen-Solal | Zendy; Anhdao T. Darcy | Zendy; Davide Tavella | Zendy; Anca Clabbers | Zendy; Yao Fan | Zendy; Anthony Griffiths | Zendy; Ivan Correia | Zendy; Jane Seagal | Zendy; Lindsey R. Baden | Zendy; Richelle C. Charles | Zendy; Jonathan Abraham | Zendy

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Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain

Author(s) -

Katherine Nabel Smith,

Sarah A. Clark,

Sundaresh Shankar,

Junhua Pan,

Lars E. Clark,

Pan Yang,

Adrian Coscia,

Lindsay G. A. McKay,

Haley Varnum,

Vesna Brusic,

Nicole V. Tolan,

Guohai Zhou,

Michaël Desjardins,

Sarah E. Turbett,

Sanjat Kanjilal,

Amy C Sherman,

Anand S. Dighe,

Regina C. LaRocque,

Edward T. Ryan,

Casey Tylek,

Joël F.G. Cohen-Solal,

Anhdao T. Darcy,

Davide Tavella,

Anca Clabbers,

Yao Fan,

Anthony Griffiths,

Ivan Correia,

Jane Seagal,

Lindsey R. Baden,

Richelle C. Charles,

Jonathan Abraham

Publication year - 2022

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abl6251

Subject(s) - neutralization , antibody , virology , immune escape , covid-19 , biology , receptor , neutralizing antibody , glycan , mutation , immunology , gene , genetics , glycoprotein , medicine , immune system , disease , pathology , infectious disease (medical specialty) , outbreak

Many studies have examined the impact of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants on neutralizing antibody activity after they have become dominant strains. Here, we evaluate the consequences of further viral evolution. We demonstrate mechanisms through which the SARS-CoV-2 receptor binding domain (RBD) can tolerate large numbers of simultaneous antibody escape mutations and show that pseudotypes containing up to seven mutations, as opposed to the one to three found in previously studied variants of concern, are more resistant to neutralization by therapeutic antibodies and serum from vaccine recipients. We identify an antibody that binds the RBD core to neutralize pseudotypes for all tested variants but show that the RBD can acquire an N-linked glycan to escape neutralization. Our findings portend continued emergence of escape variants as SARS-CoV-2 adapts to humans.

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