Literature DB >> 35322239

Serum neutralization of SARS-CoV-2 Omicron sublineages BA.1 and BA.2 in patients receiving monoclonal antibodies.

Timothée Bruel1,2, Jérôme Hadjadj3, Piet Maes4, Delphine Planas5,6, Aymeric Seve7, Isabelle Staropoli5, Florence Guivel-Benhassine5, Françoise Porrot5, William-Henry Bolland5,8, Yann Nguyen3, Marion Casadevall3, Caroline Charre9,10,11, Hélène Péré12,13, David Veyer12,13, Matthieu Prot14, Artem Baidaliuk14, Lize Cuypers15, Cyril Planchais16, Hugo Mouquet16, Guy Baele4, Luc Mouthon3, Laurent Hocqueloux7, Etienne Simon-Loriere14, Emmanuel André15,17, Benjamin Terrier3, Thierry Prazuck7, Olivier Schwartz18,19.   

Abstract

The severe acute respiratory syndrome coronavirus 2 Omicron BA.1 sublineage has been supplanted in many countries by the BA.2 sublineage. BA.2 differs from BA.1 by about 21 mutations in its spike. In this study, we first compared the sensitivity of BA.1 and BA.2 to neutralization by nine therapeutic monoclonal antibodies (mAbs). In contrast to BA.1, BA.2 was sensitive to cilgavimab, partly inhibited by imdevimab and resistant to adintrevimab and sotrovimab. We then analyzed sera from 29 immunocompromised individuals up to 1 month after administration of Ronapreve (casirivimab and imdevimab) and/or Evusheld (cilgavimab and tixagevimab) antibody cocktails. All treated individuals displayed elevated antibody levels in their sera, which efficiently neutralized the Delta variant. Sera from Ronapreve recipients did not neutralize BA.1 and weakly inhibited BA.2. Neutralization of BA.1 and BA.2 was detected in 19 and 29 out of 29 Evusheld recipients, respectively. As compared to the Delta variant, neutralizing titers were more markedly decreased against BA.1 (344-fold) than BA.2 (nine-fold). We further report four breakthrough Omicron infections among the 29 individuals, indicating that antibody treatment did not fully prevent infection. Collectively, BA.1 and BA.2 exhibit noticeable differences in their sensitivity to therapeutic mAbs. Anti-Omicron neutralizing activity of Ronapreve and, to a lesser extent, that of Evusheld is reduced in patients' sera.
© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.

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Year:  2022        PMID: 35322239     DOI: 10.1038/s41591-022-01792-5

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   87.241


  63 in total

1.  Impact of COVID-19 on the liver and on the care of patients with chronic liver disease, hepatobiliary cancer, and liver transplantation: An updated EASL position paper.

Authors:  Thomas Marjot; Christiane S Eberhardt; Tobias Boettler; Luca S Belli; Marina Berenguer; Maria Buti; Rajiv Jalan; Mario U Mondelli; Richard Moreau; Daniel Shouval; Thomas Berg; Markus Cornberg
Journal:  J Hepatol       Date:  2022-07-20       Impact factor: 30.083

2.  Isolation of an escape-resistant SARS-CoV-2 neutralizing nanobody from a novel synthetic nanobody library.

Authors:  Dmitri Dormeshkin; Michail Shapira; Simon Dubovik; Anton Kavaleuski; Mikalai Katsin; Alexandr Migas; Alexander Meleshko; Sergei Semyonov
Journal:  Front Immunol       Date:  2022-09-16       Impact factor: 8.786

Review 3.  SARS-CoV-2-neutralising monoclonal antibodies to prevent COVID-19.

Authors:  Caroline Hirsch; Yun Soo Park; Vanessa Piechotta; Khai Li Chai; Lise J Estcourt; Ina Monsef; Susanne Salomon; Erica M Wood; Cynthia So-Osman; Zoe McQuilten; Christoph D Spinner; Jakob J Malin; Miriam Stegemann; Nicole Skoetz; Nina Kreuzberger
Journal:  Cochrane Database Syst Rev       Date:  2022-06-17

4.  Imprinted antibody responses against SARS-CoV-2 Omicron sublineages.

Authors:  Young-Jun Park; Dora Pinto; Alexandra C Walls; Zhuoming Liu; Anna De Marco; Fabio Benigni; Fabrizia Zatta; Chiara Silacci-Fregni; Jessica Bassi; Kaitlin R Sprouse; Amin Addetia; John E Bowen; Cameron Stewart; Martina Giurdanella; Christian Saliba; Barbara Guarino; Michael A Schmid; Nicholas Franko; Jennifer Logue; Ha V Dang; Kevin Hauser; Julia di Iulio; William Rivera; Gretja Schnell; Florian A Lempp; Javier Janer; Rana Abdelnabi; Piet Maes; Paolo Ferrari; Alessandro Ceschi; Olivier Giannini; Guilherme Dias de Melo; Lauriane Kergoat; Hervé Bourhy; Johan Neyts; Leah Soriaga; Lisa A Purcell; Gyorgy Snell; Sean P J Whelan; Antonio Lanzavecchia; Herbert W Virgin; Luca Piccoli; Helen Chu; Matteo Samuele Pizzuto; Davide Corti; David Veesler
Journal:  bioRxiv       Date:  2022-06-02

5.  Potent human broadly SARS-CoV-2-neutralizing IgA and IgG antibodies effective against Omicron BA.1 and BA.2.

Authors:  Timothée Bruel; Guilherme Dias de Melo; Matthieu Prot; Etienne Simon-Lorière; Hervé Bourhy; Xavier Montagutelli; Félix A Rey; Olivier Schwartz; Cyril Planchais; Ignacio Fernández; Maxime Beretta; Pablo Guardado-Calvo; Jérémy Dufloo; Luis M Molinos-Albert; Marija Backovic; Jeanne Chiaravalli; Emilie Giraud; Benjamin Vesin; Laurine Conquet; Ludivine Grzelak; Delphine Planas; Isabelle Staropoli; Florence Guivel-Benhassine; Thierry Hieu; Mikaël Boullé; Minerva Cervantes-Gonzalez; Marie-Noëlle Ungeheuer; Pierre Charneau; Sylvie van der Werf; Fabrice Agou; Jordan D Dimitrov; Hugo Mouquet
Journal:  J Exp Med       Date:  2022-06-15       Impact factor: 17.579

Review 6.  Origin, virological features, immune evasion and intervention of SARS-CoV-2 Omicron sublineages.

Authors:  Shuai Xia; Lijue Wang; Yun Zhu; Lu Lu; Shibo Jiang
Journal:  Signal Transduct Target Ther       Date:  2022-07-19

7.  Activity of AZD7442 (tixagevimab-cilgavimab) against Omicron SARS-CoV-2 in patients with hematologic malignancies.

Authors:  Robert Stuver; Gunjan L Shah; Neha S Korde; Lindsey E Roeker; Anthony R Mato; Connie L Batlevi; David J Chung; Sital Doddi; Lorenzo Falchi; Boglarka Gyurkocza; Audrey Hamilton; Ya-Hui Lin; Ann A Jakubowski; Erel Joffe; Heather L Landau; Richard J Lin; Sham Mailankody; M Lia Palomba; Jae H Park; Miguel-Angel Perales; Doris M Ponce; Lakshmi V Ramanathan; Gilles A Salles; Michael Scordo; Susan K Seo; Urvi A Shah; Eytan M Stein; David Straus; Saad Z Usmani; James W Young; Andrew D Zelenetz; Ariela Noy; Santosha A Vardhana
Journal:  Cancer Cell       Date:  2022-05-16       Impact factor: 38.585

8.  Anatomy of Omicron BA.1 and BA.2 neutralizing antibodies in COVID-19 mRNA vaccinees.

Authors:  Emanuele Andreano; Ida Paciello; Silvia Marchese; Lorena Donnici; Giulio Pierleoni; Giulia Piccini; Noemi Manganaro; Elisa Pantano; Valentina Abbiento; Piero Pileri; Linda Benincasa; Ginevra Giglioli; Margherita Leonardi; Piet Maes; Concetta De Santi; Claudia Sala; Emanuele Montomoli; Raffaele De Francesco; Rino Rappuoli
Journal:  Nat Commun       Date:  2022-06-13       Impact factor: 17.694

9.  Structural and biochemical mechanism for increased infectivity and immune evasion of Omicron BA.2 variant compared to BA.1 and their possible mouse origins.

Authors:  Youwei Xu; Canrong Wu; Xiaodan Cao; Chunyin Gu; Heng Liu; Mengting Jiang; Xiaoxi Wang; Qingning Yuan; Kai Wu; Jia Liu; Deyi Wang; Xianqing He; Xueping Wang; Su-Jun Deng; H Eric Xu; Wanchao Yin
Journal:  Cell Res       Date:  2022-05-31       Impact factor: 46.297

10.  Neutralizing antibodies and their cocktails against SARS-CoV-2 Omicron and other circulating variants.

Authors:  Yang Yang; Lanying Du
Journal:  Cell Mol Immunol       Date:  2022-06-24       Impact factor: 22.096
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