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BNT162b vaccines protect rhesus macaques from SARS-CoV-2

Author

Listed:
  • Annette B. Vogel

    (BioNTech)

  • Isis Kanevsky

    (Pfizer)

  • Ye Che

    (Pfizer)

  • Kena A. Swanson

    (Pfizer)

  • Alexander Muik

    (BioNTech)

  • Mathias Vormehr

    (BioNTech)

  • Lena M. Kranz

    (BioNTech)

  • Kerstin C. Walzer

    (BioNTech)

  • Stephanie Hein

    (BioNTech)

  • Alptekin Güler

    (BioNTech)

  • Jakob Loschko

    (Pfizer)

  • Mohan S. Maddur

    (Pfizer)

  • Ayuko Ota-Setlik

    (Pfizer)

  • Kristin Tompkins

    (Pfizer)

  • Journey Cole

    (Texas Biomedical Research Institute)

  • Bonny G. Lui

    (BioNTech)

  • Thomas Ziegenhals

    (BioNTech)

  • Arianne Plaschke

    (BioNTech)

  • David Eisel

    (BioNTech)

  • Sarah C. Dany

    (BioNTech)

  • Stephanie Fesser

    (BioNTech)

  • Stephanie Erbar

    (BioNTech)

  • Ferdia Bates

    (BioNTech)

  • Diana Schneider

    (BioNTech)

  • Bernadette Jesionek

    (BioNTech)

  • Bianca Sänger

    (BioNTech)

  • Ann-Kathrin Wallisch

    (BioNTech)

  • Yvonne Feuchter

    (BioNTech)

  • Hanna Junginger

    (BioNTech)

  • Stefanie A. Krumm

    (BioNTech)

  • André P. Heinen

    (BioNTech)

  • Petra Adams-Quack

    (BioNTech)

  • Julia Schlereth

    (BioNTech)

  • Stefan Schille

    (BioNTech)

  • Christoph Kröner

    (BioNTech)

  • Ramón Caridad Güimil Garcia

    (BioNTech)

  • Thomas Hiller

    (BioNTech)

  • Leyla Fischer

    (BioNTech)

  • Rani S. Sellers

    (Pfizer)

  • Shambhunath Choudhary

    (Pfizer)

  • Olga Gonzalez

    (Texas Biomedical Research Institute)

  • Fulvia Vascotto

    (TRON–Translational Oncology at the University Medical Centre of the Johannes Gutenberg University)

  • Matthew R. Gutman

    (VCA SouthPaws Veterinary Specialists and Emergency Center)

  • Jane A. Fontenot

    (New Iberia Research Center)

  • Shannan Hall-Ursone

    (Texas Biomedical Research Institute)

  • Kathleen Brasky

    (Texas Biomedical Research Institute)

  • Matthew C. Griffor

    (Pfizer)

  • Seungil Han

    (Pfizer)

  • Andreas A. H. Su

    (BioNTech)

  • Joshua A. Lees

    (Pfizer)

  • Nicole L. Nedoma

    (Pfizer)

  • Ellene H. Mashalidis

    (Pfizer)

  • Parag V. Sahasrabudhe

    (Pfizer)

  • Charles Y. Tan

    (Pfizer)

  • Danka Pavliakova

    (Pfizer)

  • Guy Singh

    (Pfizer)

  • Camila Fontes-Garfias

    (University of Texas Medical Branch)

  • Michael Pride

    (Pfizer)

  • Ingrid L. Scully

    (Pfizer)

  • Tara Ciolino

    (Pfizer)

  • Jennifer Obregon

    (Pfizer)

  • Michal Gazi

    (Texas Biomedical Research Institute)

  • Ricardo Carrion

    (Texas Biomedical Research Institute)

  • Kendra J. Alfson

    (Texas Biomedical Research Institute)

  • Warren V. Kalina

    (Pfizer)

  • Deepak Kaushal

    (Texas Biomedical Research Institute)

  • Pei-Yong Shi

    (University of Texas Medical Branch)

  • Thorsten Klamp

    (BioNTech)

  • Corinna Rosenbaum

    (BioNTech)

  • Andreas N. Kuhn

    (BioNTech)

  • Özlem Türeci

    (BioNTech)

  • Philip R. Dormitzer

    (Pfizer)

  • Kathrin U. Jansen

    (Pfizer)

  • Ugur Sahin

    (BioNTech
    TRON–Translational Oncology at the University Medical Centre of the Johannes Gutenberg University)

Abstract

A safe and effective vaccine against COVID-19 is urgently needed in quantities that are sufficient to immunize large populations. Here we report the preclinical development of two vaccine candidates (BNT162b1 and BNT162b2) that contain nucleoside-modified messenger RNA that encodes immunogens derived from the spike glycoprotein (S) of SARS-CoV-2, formulated in lipid nanoparticles. BNT162b1 encodes a soluble, secreted trimerized receptor-binding domain (known as the RBD–foldon). BNT162b2 encodes the full-length transmembrane S glycoprotein, locked in its prefusion conformation by the substitution of two residues with proline (S(K986P/V987P); hereafter, S(P2) (also known as P2 S)). The flexibly tethered RBDs of the RBD–foldon bind to human ACE2 with high avidity. Approximately 20% of the S(P2) trimers are in the two-RBD ‘down’, one-RBD ‘up’ state. In mice, one intramuscular dose of either candidate vaccine elicits a dose-dependent antibody response with high virus-entry inhibition titres and strong T-helper-1 CD4+ and IFNγ+CD8+ T cell responses. Prime–boost vaccination of rhesus macaques (Macaca mulatta) with the BNT162b candidates elicits SARS-CoV-2-neutralizing geometric mean titres that are 8.2–18.2× that of a panel of SARS-CoV-2-convalescent human sera. The vaccine candidates protect macaques against challenge with SARS-CoV-2; in particular, BNT162b2 protects the lower respiratory tract against the presence of viral RNA and shows no evidence of disease enhancement. Both candidates are being evaluated in phase I trials in Germany and the USA1–3, and BNT162b2 is being evaluated in an ongoing global phase II/III trial (NCT04380701 and NCT04368728).

Suggested Citation

  • Annette B. Vogel & Isis Kanevsky & Ye Che & Kena A. Swanson & Alexander Muik & Mathias Vormehr & Lena M. Kranz & Kerstin C. Walzer & Stephanie Hein & Alptekin Güler & Jakob Loschko & Mohan S. Maddur &, 2021. "BNT162b vaccines protect rhesus macaques from SARS-CoV-2," Nature, Nature, vol. 592(7853), pages 283-289, April.
    • Handle: RePEc:nat:nature:v:592:y:2021:i:7853:d:10.1038_s41586-021-03275-y
    DOI: 10.1038/s41586-021-03275-y
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    Citations

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    Cited by:

    1. Amy R. Rappaport & Sue-Jean Hong & Ciaran D. Scallan & Leonid Gitlin & Arvin Akoopie & Gregory R. Boucher & Milana Egorova & J. Aaron Espinosa & Mario Fidanza & Melissa A. Kachura & Annie Shen & Glori, 2022. "Low-dose self-amplifying mRNA COVID-19 vaccine drives strong protective immunity in non-human primates against SARS-CoV-2 infection," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    2. Dennis Lapuente & Jana Fuchs & Jonas Willar & Ana Vieira Antão & Valentina Eberlein & Nadja Uhlig & Leila Issmail & Anna Schmidt & Friederike Oltmanns & Antonia Sophia Peter & Sandra Mueller-Schmucker, 2021. "Protective mucosal immunity against SARS-CoV-2 after heterologous systemic prime-mucosal boost immunization," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    3. Wanbo Tai & Shengyong Feng & Benjie Chai & Shuaiyao Lu & Guangyu Zhao & Dong Chen & Wenhai Yu & Liting Ren & Huicheng Shi & Jing Lu & Zhuming Cai & Mujia Pang & Xu Tan & Penghua Wang & Jinzhong Lin & , 2023. "An mRNA-based T-cell-inducing antigen strengthens COVID-19 vaccine against SARS-CoV-2 variants," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    4. Miwa Haranaka & James Baber & Yoichiro Ogama & Masako Yamaji & Masakazu Aizawa & Osamu Kogawara & Ingrid Scully & Eleni Lagkadinou & Ӧzlem Türeci & Uğur Şahin & Philip R. Dormitzer & William C. Gruber, 2021. "A randomized study to evaluate safety and immunogenicity of the BNT162b2 COVID-19 vaccine in healthy Japanese adults," Nature Communications, Nature, vol. 12(1), pages 1-7, December.
    5. Christine D. Palmer & Ciaran D. Scallan & Lauren D. Kraemer Tardif & Melissa A. Kachura & Amy R. Rappaport & Daniel O. Koralek & Alison Uriel & Leonid Gitlin & Joshua Klein & Matthew J. Davis & Harshn, 2023. "GRT-R910: a self-amplifying mRNA SARS-CoV-2 vaccine boosts immunity for ≥6 months in previously-vaccinated older adults," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    6. David Chmielewski & Eric A. Wilson & Grigore Pintilie & Peng Zhao & Muyuan Chen & Michael F. Schmid & Graham Simmons & Lance Wells & Jing Jin & Abhishek Singharoy & Wah Chiu, 2023. "Structural insights into the modulation of coronavirus spike tilting and infectivity by hinge glycans," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    7. Kun Sun & Tian-Fang Zhao & Xiao-Kun Wu & Kai-Sheng Lai & Wei-Neng Chen & Jin-Sheng Zhang, 2022. "Incorporating Fuzzy Cognitive Inference for Vaccine Hesitancy Measuring," Sustainability, MDPI, vol. 14(14), pages 1-18, July.
    8. Mária Brunderová & Vojtěch Havlíček & Ján Matyašovský & Radek Pohl & Lenka Poštová Slavětínská & Matouš Krömer & Michal Hocek, 2024. "Expedient production of site specifically nucleobase-labelled or hypermodified RNA with engineered thermophilic DNA polymerases," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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