Broad neutralization of SARS-related viruses by human monoclonal antibodies

Anna Z. Wec; Daniel Wrapp; Andrew S. Herbert; Daniel P. Maurer; Denise Haslwanter; Mrunal Sakharkar; Rohit K. Jangra; M. Eugenia Dieterle; Asparouh Lilov; Deli Huang; Longping V. Tse; Nicole V. Johnson; Ching‐Lin Hsieh; Nianshuang Wang; Juergen H. Nett; Elizabeth Champney; Irina Burnina; Michael E. Brown; Shu Lin; Melanie Sinclair; Carl Johnson; Sarat Pudi; Robert H. Bortz; Ariel S. Wirchnianski; Ethan Laudermilch; Catalina Florez; J. Maximilian Fels; Cecilia M. O’Brien; Barney S. Graham; David Nemazee; Dennis R. Burton; Ralph S. Baric; James E. Voss; Kartik Chandran; John M. Dye; Jason S. McLellan; Laura M. Walker

doi:10.1126/science.abc7424

Broad neutralization of SARS-related viruses by human monoclonal antibodies

Anna Z. Wec(Adimab (United States)), Daniel Wrapp(The University of Texas at Austin), Andrew S. Herbert(United States Army Medical Research Institute of Infectious Diseases), Daniel P. Maurer(Adimab (United States)), Denise Haslwanter(Albert Einstein College of Medicine), Mrunal Sakharkar(Adimab (United States)), Rohit K. Jangra(Albert Einstein College of Medicine), M. Eugenia Dieterle(Albert Einstein College of Medicine), Asparouh Lilov(Adimab (United States)), Deli Huang(Scripps Research Institute), Longping V. Tse(University of North Carolina at Chapel Hill), Nicole V. Johnson(The University of Texas at Austin), Ching‐Lin Hsieh(The University of Texas at Austin), Nianshuang Wang(The University of Texas at Austin), Juergen H. Nett(Adimab (United States)), Elizabeth Champney(Adimab (United States)), Irina Burnina(Adimab (United States)), Michael E. Brown(Adimab (United States)), Shu Lin(Adimab (United States)), Melanie Sinclair(Adimab (United States)), Carl Johnson(Adimab (United States)), Sarat Pudi(Adimab (United States)), Robert H. Bortz(Albert Einstein College of Medicine), Ariel S. Wirchnianski(Albert Einstein College of Medicine), Ethan Laudermilch(Albert Einstein College of Medicine), Catalina Florez(Albert Einstein College of Medicine), J. Maximilian Fels(Albert Einstein College of Medicine), Cecilia M. O’Brien(United States Army Medical Research Institute of Infectious Diseases), Barney S. Graham(National Institutes of Health), David Nemazee(Scripps Research Institute), Dennis R. Burton(Scripps Research Institute), Ralph S. Baric(University of North Carolina at Chapel Hill), James E. Voss(Scripps Research Institute), Kartik Chandran(Albert Einstein College of Medicine), John M. Dye(United States Army Medical Research Institute of Infectious Diseases), Jason S. McLellan(The University of Texas at Austin), Laura M. Walker(Adimab (United States))

Science

June 15, 2020

10.1126/science.abc7424

Cited by 640Open Access

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Abstract

Broadly protective vaccines against known and preemergent human coronaviruses (HCoVs) are urgently needed. To gain a deeper understanding of cross-neutralizing antibody responses, we mined the memory B cell repertoire of a convalescent severe acute respiratory syndrome (SARS) donor and identified 200 SARS coronavirus 2 (SARS-CoV-2) binding antibodies that target multiple conserved sites on the spike (S) protein. A large proportion of the non-neutralizing antibodies display high levels of somatic hypermutation and cross-react with circulating HCoVs, suggesting recall of preexisting memory B cells elicited by prior HCoV infections. Several antibodies potently cross-neutralize SARS-CoV, SARS-CoV-2, and the bat SARS-like virus WIV1 by blocking receptor attachment and inducing S1 shedding. These antibodies represent promising candidates for therapeutic intervention and reveal a target for the rational design of pan-sarbecovirus vaccines.

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