A synthetic nanobody targeting RBD protects

Abstract

SARS-CoV-2, the causative agent of COVID-19¹, features a receptor-binding domain (RBD) for binding to the host cell ACE2 protein^1–6. Neutralizing antibodies that block RBD-ACE2 interaction are candidates for the development of targeted therapeutics^7–17. Llama-derived single-domain antibodies (nanobodies, ~15 kDa) offer advantages in bioavailability, amenability, and production and storage owing to their small sizes and high stability. Here, we report the rapid selection of 99 synthetic nanobodies (sybodies) against RBD by in vitro selection using three libraries. The best sybody, MR3 binds to RBD with high affinity (K_D = 1.0 nM) and displays high neutralization activity against SARS-CoV-2 pseudoviruses (IC₅₀ = 0.42 μg mL⁻¹). Structural, biochemical, and biological characterization suggests a common neutralizing mechanism, in which the RBD-ACE2 interaction is competitively inhibited by sybodies. Various forms of sybodies with improved potency have been generated by structure-based design, biparatopic construction, and divalent engineering. Two divalent forms of MR3 protect hamsters from clinical signs after live virus challenge and a single dose of the Fc-fusion construct of MR3 reduces viral RNA load by 6 Log₁₀. Our results pave the way for the development of therapeutic nanobodies against COVID-19 and present a strategy for rapid development of targeted medical interventions during an outbreak.

Here, the authors report the engineering, structural and biological characterization of synthetic nanobodies (sybodies) that display potent therapeutic activity against SARS-CoV-2 infection in animal models via targeting the virus receptor-binding domain.

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Title

A synthetic nanobody targeting RBD protects hamsters from SARS-CoV-2 infection

Author

Li, Tingting¹

; Cai, Hongmin¹

; Yao, Hebang¹

; Zhou, Bingjie²

; Zhang, Ning³; van Vlissingen, Martje Fentener⁴

; Kuiken, Thijs⁵

; Han, Wenyu⁶; GeurtsvanKessel, Corine H.⁵

; Gong, Yuhuan⁷; Zhao, Yapei²

; Shen, Quan³; Qin, Wenming⁸; Tian, Xiao-Xu⁸; Peng, Chao⁸

; Lai, Yanling⁶; Wang, Yanxing¹; Hutter, Cedric A. J.⁹

; Kuo, Shu-Ming¹⁰

; Bao, Juan¹; Liu, Caixuan⁶; Wang, Yifan⁶; Richard, Audrey S.¹¹

; Raoul, Hervé¹¹

; Lan, Jiaming¹⁰; Seeger, Markus A.⁹

; Cong, Yao¹

; Rockx, Barry⁵

; Wong, Gary¹²

; Bi, Yuhai⁷

; Lavillette, Dimitri¹³

; Li, Dianfan¹

¹ Chinese Academy of Sciences (CAS), State Key Laboratory of Molecular Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Shanghai, China (GRID:grid.9227.e) (ISNI:0000000119573309)
² University of CAS, Beijing, China (GRID:grid.410726.6) (ISNI:0000 0004 1797 8419); Institut Pasteur of Shanghai CAS, CAS Key Laboratory of Molecular Virology & Immunology, Shanghai, China (GRID:grid.429007.8) (ISNI:0000 0004 0627 2381)
³ CAS-TWAS Center of Excellence for Emerging Infectious Diseases (CEEID), CAS, CAS Key Laboratory of Pathogenic Microbiology and Immunology, Institute of Microbiology, Center for Influenza Research and Early-warning (CASCIRE), Beijing, China (GRID:grid.9227.e) (ISNI:0000000119573309)
⁴ Erasmus University Medical Center, Erasmus Laboratory Animal Science Center, Rotterdam, Netherlands (GRID:grid.5645.2) (ISNI:000000040459992X); European Research Infrastructure on Highly Pathogenic Agents (ERINHA-AISBL), Paris, France (GRID:grid.509588.9)
⁵ European Research Infrastructure on Highly Pathogenic Agents (ERINHA-AISBL), Paris, France (GRID:grid.509588.9); Erasmus University Medical Center, Department of Viroscience, Rotterdam, Netherlands (GRID:grid.5645.2) (ISNI:000000040459992X)
⁶ Chinese Academy of Sciences (CAS), State Key Laboratory of Molecular Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Shanghai, China (GRID:grid.9227.e) (ISNI:0000000119573309); University of CAS, Beijing, China (GRID:grid.410726.6) (ISNI:0000 0004 1797 8419)
⁷ University of CAS, Beijing, China (GRID:grid.410726.6) (ISNI:0000 0004 1797 8419); CAS-TWAS Center of Excellence for Emerging Infectious Diseases (CEEID), CAS, CAS Key Laboratory of Pathogenic Microbiology and Immunology, Institute of Microbiology, Center for Influenza Research and Early-warning (CASCIRE), Beijing, China (GRID:grid.9227.e) (ISNI:0000000119573309)
⁸ Shanghai Advanced Research Institute (Zhangjiang Laboratory), CAS, National Facility for Protein Science in Shanghai, Shanghai, China (GRID:grid.458506.a) (ISNI:0000 0004 0497 0637)
⁹ University of Zurich, Institute of Medical Microbiology, Zurich, Switzerland (GRID:grid.7400.3) (ISNI:0000 0004 1937 0650)
¹⁰ Institut Pasteur of Shanghai CAS, CAS Key Laboratory of Molecular Virology & Immunology, Shanghai, China (GRID:grid.429007.8) (ISNI:0000 0004 0627 2381)
¹¹ European Research Infrastructure on Highly Pathogenic Agents (ERINHA-AISBL), Paris, France (GRID:grid.509588.9)
¹² Institut Pasteur of Shanghai CAS, CAS Key Laboratory of Molecular Virology & Immunology, Shanghai, China (GRID:grid.429007.8) (ISNI:0000 0004 0627 2381); Université Laval, Département de microbiologie-infectiologie et d’immunologie, Québec, Canada (GRID:grid.23856.3a) (ISNI:0000 0004 1936 8390)
¹³ Institut Pasteur of Shanghai CAS, CAS Key Laboratory of Molecular Virology & Immunology, Shanghai, China (GRID:grid.429007.8) (ISNI:0000 0004 0627 2381); Soochow University, Pasteurien College, Jiangsu, China (GRID:grid.263761.7) (ISNI:0000 0001 0198 0694)

Publication year

2021

Publication date

2021

Publisher

Nature Publishing Group

e-ISSN

20411723

Source type

Scholarly Journal

Language of publication

English

DOI

https://doi.org/10.1038/s41467-021-24905-z

ProQuest document ID

2556540656

© The Author(s) 2021. corrected publication 2022. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.

A synthetic nanobody targeting RBD protects hamsters from SARS-CoV-2 infection

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