De novo design of potent and resilient hACE2 decoys to neutralize SARS-CoV-2 | Zendy

Thomas W. Linsky | Zendy; Renan Vergara | Zendy; N. Codina-Castillo | Zendy; Jorgen Nelson | Zendy; Matthew J. Walker | Zendy; Wen Su | Zendy; Christopher O. Barnes | Zendy; Tien-Ying Hsiang | Zendy; Katharina EsserNobis | Zendy; Kevin Yu | Zendy; Z. Beau Reneer | Zendy; Yixuan J. Hou | Zendy; Tanu Priya | Zendy; Masaya Mitsumoto | Zendy; Avery Pong | Zendy; Uland Y. Lau | Zendy; Marsha L. Mason | Zendy; Jerry Chen | Zendy; Alex Chen | Zendy; Tania Berrocal | Zendy; Hong Peng | Zendy; Nicole S. Clairmont | Zendy; Javier Castellanos | Zendy; YuRu Lin | Zendy; Anna Josephson-Day | Zendy; Ralph S. Baric | Zendy; Deborah H. Fuller | Zendy; Carl Walkey | Zendy; Ted M. Ross | Zendy; Ryan Swanson | Zendy; Pamela J. Björkman | Zendy; Michael Gale | Zendy; Luis M. BlancasMejía | Zendy; HuiLing Yen | Zendy; DanielAdriano Silva | Zendy

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De novo design of potent and resilient hACE2 decoys to neutralize SARS-CoV-2

Author(s) -

Thomas W. Linsky,

Renan Vergara,

N. Codina-Castillo,

Jorgen Nelson,

Matthew J. Walker,

Wen Su,

Christopher O. Barnes,

Tien-Ying Hsiang,

Katharina EsserNobis,

Kevin Yu,

Z. Beau Reneer,

Yixuan J. Hou,

Tanu Priya,

Masaya Mitsumoto,

Avery Pong,

Uland Y. Lau,

Marsha L. Mason,

Jerry Chen,

Alex Chen,

Tania Berrocal,

Hong Peng,

Nicole S. Clairmont,

Javier Castellanos,

YuRu Lin,

Anna Josephson-Day,

Ralph S. Baric,

Deborah H. Fuller,

Carl Walkey,

Ted M. Ross,

Ryan Swanson,

Pamela J. Björkman,

Michael Gale,

Luis M. BlancasMejía,

HuiLing Yen,

DanielAdriano Silva

Publication year - 2020

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.abe0075

Subject(s) - decoy , biology , coronavirus , virology , recombinant dna , receptor , microbiology and biotechnology , covid-19 , biochemistry , medicine , infectious disease (medical specialty) , gene , disease , pathology

We developed a de novo protein design strategy to swiftly engineer decoys for neutralizing pathogens that exploit extracellular host proteins to infect the cell. Our pipeline allowed the design, validation, and optimization of de novo human angiotensin-converting enzyme 2 (hACE2) decoys to neutralize severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The best monovalent decoy, CTC-445.2, bound with low nanomolar affinity and high specificity to the receptor-binding domain (RBD) of the spike protein. Cryo-electron microscopy (cryo-EM) showed that the design is accurate and can simultaneously bind to all three RBDs of a single spike protein. Because the decoy replicates the spike protein target interface in hACE2, it is intrinsically resilient to viral mutational escape. A bivalent decoy, CTC-445.2d, showed ~10-fold improvement in binding. CTC-445.2d potently neutralized SARS-CoV-2 infection of cells in vitro, and a single intranasal prophylactic dose of decoy protected Syrian hamsters from a subsequent lethal SARS-CoV-2 challenge.

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