An ultrapotent synthetic nanobody neutralizes SARS-CoV-2 by stabilizing inactive Spike

Schoof, Michael; Faust, Bryan; Saunders, Reuben A.; Sangwan, Smriti; Rezelj, Veronica; Hoppe, Nick; Boone, Morgane; Billesbølle, Christian B.; Puchades, Cristina; Azumaya, Caleigh M.; Kratochvil, Huong T.; Zimanyi, Marcell; Deshpande, Ishan; Liang, Jiahao; Dickinson, Sasha; Nguyen, Henry C.; Chio, Cynthia M.; Merz, Gregory E.; Diwanji, Devan; Schaefer, Kaitlin; Anand, Aditya A.; Dobzinski, Niv; Zha, Beth Shoshana; Simoneau, Camille R.; Chio, Un Seng; Leon, Kristoffer; White, Kris M.; Gupta, Meghna; Jin, Mingliang; Li, Fei; Liu, Yanxin; Zhang, Kaihua; Bulkley, David; Sun, Ming; Smith, Amber M.; Rizo, Alexandrea N.; Moss, Frank; Gupta, Sayan; Brilot, Axel F.; Pourmal, Sergei; Thompson, Michael C.; Trenker, Raphael; Pospiech, Thomas; Liu, Yuwei; Barsi-Rhyne, Benjamin; Belyy, Vladislav; Barile Hill, Andrew W.; Nock, Silke; Krogan, Nevan J.; Ralston, Corie Y.; Swaney, Danielle L.; García-Sastre, Adolfo; Ott, Melanie; Vignuzzi, Marco; Walter, Peter; Manglik, Aashish; Braxton, Julian R.; Lopez, Kyle E.; Melo, Arthur; Paulino, Joana; Pospiech, Thomas H.; Thomas, Paul V.; Wang, Feng; Yu, Zanlin; Dickinson, Miles Sasha; Asarnow, Daniel; Campbell, Melody G.; Li, Junrui; Tsui, Tsz Kin Martin; Trinidad, Donovan; Tse, Eric; Zhou, Fengbo; Herrera, Nadia; Schulze-Gahmen, Ursula; Young, Iris D.; Biel, Justin; Liu, Xi; Billesbølle, Christian Bache; Nowotny, Carlos; Zhao, Jianhua; Li, Yen-Li; Bowen, Alisa; Nguyen, Phuong; Safari, Mali; Whitis, Natalie; Moritz, Michelle; Owens, Tristan W.; Diallo, Amy; Kim, Kate; Peters, Jessica K.; Titus, Erron W.; Chen, Jenny; Doan, Loan; Flores, Sebastian; Lam, Victor L.; Li, Yang; Lo, Megan; Thwin, Aye C.; Wankowicz, Stephanie; Zhang, Yang; Joves, Arceli; Joves, Almarie; McKay, Liam; Tabios, Mariano; Rosenberg, Oren S.; Verba, Kliment A.; Agard, David A.; Cheng, Yifan; Fraser, James S.; Frost, Adam; Jura, Natalia; Kortemme, Tanja; Southworth, Daniel R.; Stroud, Robert M.

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American Association for the Advancement of Science, Science, 6523(370), p. 1473-1479, 2020

DOI: 10.1126/science.abe3255

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An ultrapotent synthetic nanobody neutralizes SARS-CoV-2 by stabilizing inactive Spike

Journal article published in 2020 by Michael Schoof

, Bryan Faust

, Reuben A. Saunders, Smriti Sangwan, Veronica Rezelj, Nick Hoppe, Morgane Boone, Christian B. Billesbølle, Cristina Puchades, Caleigh M. Azumaya, Huong T. Kratochvil, Marcell Zimanyi, Ishan Deshpande, Jiahao Liang, Sasha Dickinson and other authors.

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Abstract

Nanobodies that neutralize Monoclonal antibodies that bind to the spike protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) show therapeutic promise but must be produced in mammalian cells and need to be delivered intravenously. By contrast, single-domain antibodies called nanobodies can be produced in bacteria or yeast, and their stability may enable aerosol delivery. Two papers now report nanobodies that bind tightly to spike and efficiently neutralize SARS-CoV-2 in cells. Schoof et al. screened a yeast surface display of synthetic nanobodies and Xiang et al. screened anti-spike nanobodies produced by a llama. Both groups identified highly potent nanobodies that lock the spike protein in an inactive conformation. Multivalent constructs of selected nanobodies achieved even more potent neutralization. Science , this issue p. 1473 , p. 1479

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An ultrapotent synthetic nanobody neutralizes SARS-CoV-2 by stabilizing inactive Spike

Abstract