- Main
Bi-paratopic and multivalent VH domains block ACE2 binding and neutralize SARS-CoV-2
- Azumaya, Caleigh M;
- Braxton, Julian R;
- Brilot, Axel F;
- Gupta, Meghna;
- Li, Fei;
- Lopez, Kyle E;
- Melo, Arthur;
- Merz, Gregory E;
- Moss, Frank;
- Paulino, Joana;
- Pospiech, Thomas H;
- Pourmal, Sergei;
- Puchades, Cristina;
- Rizo, Alexandrea N;
- Smith, Amber M;
- Sun, Ming;
- Thomas, Paul V;
- Wang, Feng;
- Yu, Zanlin;
- Asarnow, Daniel;
- Braxton, Julian R;
- Campbell, Melody G;
- Chio, Cynthia M;
- Chio, Un Seng;
- Dickinson, Miles Sasha;
- Diwanji, Devan;
- Faust, Bryan;
- Gupta, Meghna;
- Hoppe, Nick;
- Jin, Mingliang;
- Li, Fei;
- Li, Junrui;
- Liu, Yanxin;
- Merz, Gregory E;
- Nguyen, Henry C;
- Paulino, Joana;
- Pospiech, Thomas H;
- Pourmal, Sergei;
- Sangwan, Smriti;
- Trenker, Raphael;
- Trinidad, Donovan;
- Tse, Eric;
- Zhang, Kaihua;
- Zhou, Fengbo;
- Azumaya, Caleigh M;
- Billesboelle, Christian;
- Bowen, Alisa;
- Campbell, Melody G;
- Diwanji, Devan;
- Hoppe, Nick;
- Li, Yen-Li;
- Nguyen, Phuong;
- Nowotny, Carlos;
- Puchades, Cristina;
- Safari, Mali;
- Sangwan, Smriti;
- Schaefer, Kaitlin;
- Smith, Amber M;
- Trenker, Raphael;
- Tsui, Tsz Kin Martin;
- Whitis, Natalie;
- Zhao, Jianhua;
- Asarnow, Daniel;
- Azumaya, Caleigh M;
- Chio, Cynthia M;
- Faust, Bryan;
- Gupta, Meghna;
- Kim, Kate;
- Moritz, Michelle;
- Owens, Tristan W;
- Paulino, Joana;
- Peters, Jessica K;
- Pourmal, Sergei;
- Schaefer, Kaitlin;
- Tsui, Tsz Kin Martin;
- Biel, Justin;
- Deshpande, Ishan;
- Herrera, Nadia;
- Kratochvil, Huong T;
- Liu, Xi;
- Schulze-Gahmen, Ursula;
- Young, Iris D;
- Chen, Jen;
- Diallo, Amy;
- Doan, Loan;
- Flores, Sebastian;
- Gupta, Meghna;
- Jin, Mingliang;
- Kratochvil, Huong T;
- Lam, Victor L;
- Li, Yang;
- Lo, Megan;
- Merz, Gregory E;
- Paulino, Joana;
- Thwin, Aye C;
- Titus, Erron W;
- Yu, Zanlin;
- Zhou, Fengbo;
- Zhang, Yang;
- Bulkley, David;
- Joves, Arceli;
- Joves, Almarie;
- McKay, Liam;
- Tabios, Mariano;
- Tse, Eric;
- Agard, David A;
- Cheng, Yifan;
- Fraser, James S;
- Frost, Adam;
- Jura, Natalia;
- Kortemme, Tanja;
- Krogan, Nevan J;
- Manglik, Aashish;
- Rosenberg, Oren S;
- Southworth, Daniel R;
- Stroud, Robert M;
- Verba, Kliment A
- et al.
Published Web Location
https://doi.org/10.1038/s41589-020-00679-1Abstract
Neutralizing agents against SARS-CoV-2 are urgently needed for the treatment and prophylaxis of COVID-19. Here, we present a strategy to rapidly identify and assemble synthetic human variable heavy (VH) domains toward neutralizing epitopes. We constructed a VH-phage library and targeted the angiotensin-converting enzyme 2 (ACE2) binding interface of the SARS-CoV-2 Spike receptor-binding domain (Spike-RBD). Using a masked selection approach, we identified VH binders to two non-overlapping epitopes and further assembled these into multivalent and bi-paratopic formats. These VH constructs showed increased affinity to Spike (up to 600-fold) and neutralization potency (up to 1,400-fold) on pseudotyped SARS-CoV-2 virus when compared to standalone VH domains. The most potent binder, a trivalent VH, neutralized authentic SARS-CoV-2 with a half-maximal inhibitory concentration (IC50) of 4.0 nM (180 ng ml-1). A cryo-EM structure of the trivalent VH bound to Spike shows each VH domain engaging an RBD at the ACE2 binding site, confirming our original design strategy.
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