Antibody evasion by the P.1 strain of SARS-CoV-2

Wanwisa Dejnirattisai(Centre for Human Genetics), Daming Zhou(Centre for Human Genetics), Piyada Supasa(Centre for Human Genetics), Chang Liu(Centre for Human Genetics), Alexander J. Mentzer(Centre for Human Genetics), Helen M. Ginn(Diamond Light Source), Yuguang Zhao(Centre for Human Genetics), Helen M. E. Duyvesteyn(Centre for Human Genetics), Aekkachai Tuekprakhon(Centre for Human Genetics), Rungtiwa Nutalai(Centre for Human Genetics), Beibei Wang(Centre for Human Genetics), César López‐Camacho(Centre for Human Genetics), Jose Slon-Campos(Centre for Human Genetics), Thomas S. Walter(Centre for Human Genetics), Donal Skelly(University of Oxford), Sue Ann Costa Clemens(University of Siena), Felipe Gomes Naveca(Fundação Oswaldo Cruz), Valdinete Alves do Nascimento(Fundação Oswaldo Cruz), Fernanda Nascimento(Fundação Oswaldo Cruz), Cristiano Fernandes da Costa(Fundação de Medicina Tropical), Paola Cristina Resende(Fundação Oswaldo Cruz), Alex Pauvolid‐Corrêa(Fundação Oswaldo Cruz), Marilda Mendonça Siqueira(Fundação Oswaldo Cruz), Christina Dold(University of Oxford), Robert H. Levin(Worthing Hospital), Tao Dong(University of Oxford), Andrew J. Pollard(University of Oxford), Julian C. Knight(Centre for Human Genetics), Derrick W. Crook(University of Oxford), Teresa Lambe(University of Oxford), Elizabeth Clutterbuck(University of Oxford), Sagida Bibi(University of Oxford), Amy Flaxman(University of Oxford), Mustapha Bittaye(University of Oxford), Sandra Belij‐Rammerstorfer(University of Oxford), Sarah C. Gilbert(University of Oxford), Miles W. Carroll(Centre for Human Genetics), Paul Klenerman(University of Oxford), Eleanor Barnes(University of Oxford), Susanna Dunachie(Angkor Hospital for Children), Neil G. Paterson(Diamond Light Source), Mark A. Williams(Diamond Light Source), David R. Hall(Diamond Light Source), Ruben J. G. Hulswit(Centre for Human Genetics), Thomas A. Bowden(Centre for Human Genetics), Elizabeth E. Fry(Centre for Human Genetics), Juthathip Mongkolsapaya(Siriraj Hospital), Jingshan Ren(Centre for Human Genetics), David I. Stuart(Centre for Human Genetics), Gavin Screaton(Centre for Human Genetics)
Cell
March 30, 2021
10.1016/j.cell.2021.03.055
Cited by 657Open Access
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Abstract

Terminating the SARS-CoV-2 pandemic relies upon pan-global vaccination. Current vaccines elicit neutralizing antibody responses to the virus spike derived from early isolates. However, new strains have emerged with multiple mutations, including P.1 from Brazil, B.1.351 from South Africa, and B.1.1.7 from the UK (12, 10, and 9 changes in the spike, respectively). All have mutations in the ACE2 binding site, with P.1 and B.1.351 having a virtually identical triplet (E484K, K417N/T, and N501Y), which we show confer similar increased affinity for ACE2. We show that, surprisingly, P.1 is significantly less resistant to naturally acquired or vaccine-induced antibody responses than B.1.351, suggesting that changes outside the receptor-binding domain (RBD) impact neutralization. Monoclonal antibody (mAb) 222 neutralizes all three variants despite interacting with two of the ACE2-binding site mutations. We explain this through structural analysis and use the 222 light chain to largely restore neutralization potency to a major class of public antibodies.

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