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Monoclonal antibodies targeting two immunodominant epitopes on the Spike protein neutralize emerging SARS-CoV-2 variants of concern.
Kovacech, Branislav; Fialova, Lubica; Filipcik, Peter; Skrabana, Rostislav; Zilkova, Monika; Paulenka-Ivanovova, Natalia; Kovac, Andrej; Palova, Denisa; Rolkova, Gabriela Paulikova; Tomkova, Katarina; Csokova, Natalia Turic; Markova, Karina; Skrabanova, Michaela; Sinska, Kristina; Basheer, Neha; Majerova, Petra; Hanes, Jozef; Parrak, Vojtech; Prcina, Michal; Cehlar, Ondrej; Cente, Martin; Piestansky, Juraj; Fresser, Michal; Novak, Michal; Slavikova, Monika; Borsova, Kristina; Cabanova, Viktoria; Brejova, Bronislava; Vinar, Tomas; Nosek, Jozef; Klempa, Boris; Eyer, Ludek; Hönig, Vaclav; Palus, Martin; Ruzek, Daniel; Vyhlidalova, Tereza; Strakova, Petra; Mrazkova, Blanka; Zudova, Dagmar; Koubkova, Gizela; Novosadova, Vendula; Prochazka, Jan; Sedlacek, Radislav; Zilka, Norbert; Kontsekova, Eva.
  • Kovacech B; AXON COVIDAX a. s.; Bratislava, 811 02, Slovakia; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia. Electronic address: kovacech@axon-neuroscience.eu.
  • Fialova L; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Filipcik P; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Skrabana R; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Zilkova M; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Paulenka-Ivanovova N; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Kovac A; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Palova D; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Rolkova GP; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Tomkova K; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Csokova NT; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Markova K; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Skrabanova M; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Sinska K; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Basheer N; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Majerova P; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Hanes J; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Parrak V; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Prcina M; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Cehlar O; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Cente M; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
  • Piestansky J; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Fresser M; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia.
  • Novak M; AXON NEUROSCIENCE SE; Larnaca, 6016, Cyprus.
  • Slavikova M; Biomedical Research Center, Institute of Virology, Slovak Academy of Sciences; Bratislava, 845 05, Slovakia.
  • Borsova K; Biomedical Research Center, Institute of Virology, Slovak Academy of Sciences; Bratislava, 845 05, Slovakia; Department of Microbiology and Virology, Faculty of Natural Sciences, Comenius University in Bratislava; Bratislava, 842 15, Slovakia.
  • Cabanova V; Biomedical Research Center, Institute of Virology, Slovak Academy of Sciences; Bratislava, 845 05, Slovakia.
  • Brejova B; Department of Computer Science, Faculty of Mathematics, Physics and Informatics, Comenius University in Bratislava; Bratislava, 842 48, Slovakia.
  • Vinar T; Department of Applied Informatics, Faculty of Mathematics, Physics and Informatics, Comenius University in Bratislava; Bratislava, 842 48, Slovakia.
  • Nosek J; Department of Biochemistry, Faculty of Natural Sciences, Comenius University in Bratislava; Bratislava, 842 15, Slovakia.
  • Klempa B; Biomedical Research Center, Institute of Virology, Slovak Academy of Sciences; Bratislava, 845 05, Slovakia.
  • Eyer L; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic; Veterinary Research Institute, Hudcova 70, CZ-62100 Brno, Czech Republic.
  • Hönig V; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic; Veterinary Research Institute, Hudcova 70, CZ-62100 Brno, Czech Republic.
  • Palus M; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic; Veterinary Research Institute, Hudcova 70, CZ-62100 Brno, Czech Republic.
  • Ruzek D; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic; Veterinary Research Institute, Hudcova 70, CZ-62100 Brno, Czech Republic; Department of Experimental Biology, Faculty of Science, Masaryk University, Kamenice 753/5,
  • Vyhlidalova T; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic.
  • Strakova P; Institute of Parasitology, Biology Centre of the Czech Academy of Sciences, Branisovska 31, CZ-37005 Ceske Budejovice, Czech Republic; Veterinary Research Institute, Hudcova 70, CZ-62100 Brno, Czech Republic.
  • Mrazkova B; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Zudova D; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Koubkova G; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Novosadova V; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Prochazka J; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Sedlacek R; Czech Centre of Phenogenomics, Institute of Molecular Genetics, ASCR v.v.i, Prumyslova 595, 252 50, Vestec, Czech Republic.
  • Zilka N; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia. Electronic address: zilka@axon-neuroscience.eu.
  • Kontsekova E; AXON Neuroscience R&D Services SE; Bratislava, 811 02, Slovakia; Institute of Neuroimmunology, Slovak Academy of Sciences; Bratislava, 845 10, Slovakia.
EBioMedicine ; 76: 103818, 2022 Feb.
Article in English | MEDLINE | ID: covidwho-1634218
ABSTRACT

BACKGROUND:

The emergence of new SARS-CoV-2 variants of concern B.1.1.7 (Alpha), B.1.351 (Beta), P.1 (Gamma) and B.1.617.2 (Delta) that harbor mutations in the viral S protein raised concern about activity of current vaccines and therapeutic antibodies. Independent studies have shown that mutant variants are partially or completely resistant against some of the therapeutic antibodies authorized for emergency use.

METHODS:

We employed hybridoma technology, ELISA-based and cell-based S-ACE2 interaction assays combined with authentic virus neutralization assays to develop second-generation antibodies, which were specifically selected for their ability to neutralize the new variants of SARS-CoV-2.

FINDINGS:

AX290 and AX677, two monoclonal antibodies with non-overlapping epitopes, exhibit subnanomolar or nanomolar affinities to the receptor binding domain of the viral Spike protein carrying amino acid substitutions N501Y, N439K, E484K, K417N, and a combination N501Y/E484K/K417N found in the circulating virus variants. The antibodies showed excellent neutralization of an authentic SARS-CoV-2 virus representing strains circulating in Europe in spring 2020 and also the variants of concern B.1.1.7 (Alpha), B.1.351 (Beta) and B.1.617.2 (Delta). In addition, AX677 is able to bind Omicron Spike protein just like the wild type Spike. The combination of the two antibodies prevented the appearance of escape mutations of the authentic SARS-CoV-2 virus. Prophylactic administration of AX290 and AX677, either individually or in combination, effectively reduced viral burden and inflammation in the lungs, and prevented disease in a mouse model of SARS-CoV-2 infection.

INTERPRETATION:

The virus-neutralizing properties were fully reproduced in chimeric mouse-human versions of the antibodies, which may represent a promising tool for COVID-19 therapy.

FUNDING:

The study was funded by AXON Neuroscience SE and AXON COVIDAX a.s.
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Full text: Available Collection: International databases Database: MEDLINE Main subject: Immunodominant Epitopes / Spike Glycoprotein, Coronavirus / Antineoplastic Agents, Immunological / SARS-CoV-2 / Antibodies, Monoclonal Topics: Vaccines / Variants Limits: Animals / Humans Language: English Journal: EBioMedicine Year: 2022 Document Type: Article

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Full text: Available Collection: International databases Database: MEDLINE Main subject: Immunodominant Epitopes / Spike Glycoprotein, Coronavirus / Antineoplastic Agents, Immunological / SARS-CoV-2 / Antibodies, Monoclonal Topics: Vaccines / Variants Limits: Animals / Humans Language: English Journal: EBioMedicine Year: 2022 Document Type: Article