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Ultrapotent SARS coronavirus-neutralizing single-domain antibodies that clamp the spike at its base

Author

Listed:
  • Sieglinde Cae

    (VIB
    Ghent University)

  • Inge Molle

    (VIB
    Vrije Universiteit Brussel)

  • Loes Schie

    (VIB
    Ghent University)

  • Sophie R. Shoemaker

    (University of California)

  • Julie Deckers

    (VIB Center for Inflammation Research
    Ghent University)

  • Nincy Debeuf

    (VIB Center for Inflammation Research
    Ghent University)

  • Sahine Lameire

    (VIB Center for Inflammation Research
    Ghent University)

  • Wim Nerinckx

    (VIB
    Ghent University)

  • Kenny Roose

    (VIB
    Ghent University)

  • Daria Fijalkowska

    (VIB
    Ghent University)

  • Simon Devos

    (VIB
    Ghent University)

  • Anne-Sophie Smet

    (VIB
    Ghent University)

  • Jackeline Cecilia Zavala Marchan

    (VIB
    Ghent University)

  • Toon Venneman

    (ExeVir Bio BV)

  • Koen Sedeyn

    (VIB
    Ghent University)

  • Lejla Mujanovic

    (VIB
    Ghent University)

  • Marlies Ballegeer

    (VIB
    Ghent University)

  • Manon Vanheerswynghels

    (VIB Center for Inflammation Research
    Ghent University)

  • Caroline Wolf

    (VIB Center for Inflammation Research
    Ghent University)

  • Hans Demol

    (VIB
    Ghent University)

  • Jasper Zuallaert

    (VIB
    Ghent University)

  • Pieter Vanhaverbeke

    (VIB
    Ghent University)

  • Gholamreza Hassanzadeh Ghassabeh

    (Vrije Universiteit Brussel)

  • Chiara Lonigro

    (ExeVir Bio BV)

  • Viki Bockstal

    (ExeVir Bio BV)

  • Manuela Rinaldi

    (ExeVir Bio BV)

  • Rana Abdelnabi

    (KU Leuven
    KU Leuven)

  • Johan Neyts

    (KU Leuven
    KU Leuven
    Global Virus Network
    Molecular Vaccinology and Vaccine Discovery Group)

  • Susan Marqusee

    (University of California
    University of California)

  • Bart N. Lambrecht

    (VIB Center for Inflammation Research
    Ghent University
    Erasmus University Medical Center Rotterdam)

  • Nico Callewaert

    (VIB
    Ghent University)

  • Han Remaut

    (VIB
    Vrije Universiteit Brussel)

  • Xavier Saelens

    (VIB
    Ghent University)

  • Bert Schepens

    (VIB
    Ghent University)

Abstract

Therapeutic monoclonal antibodies can prevent severe disease in SARS-CoV-2 exposed individuals. However, currently circulating virus variants have evolved to gain significant resistance to nearly all neutralizing human immune system-derived therapeutic monoclonal antibodies that had previously been emergency-authorized for use in the clinic. Here, we describe the discovery of a panel of single-domain antibodies (VHHs) directed against the spike protein S2 subunit that broadly neutralize SARS-CoV-1 and −2 with unusually high potency. One of these VHHs tightly clamps the spike’s monomers at a highly conserved, quaternary epitope in the membrane proximal part of the trimeric Heptad Repeat 2 (HR2) coiled-coil, thereby locking the HR2 in its prefusion conformation. Low dose systemic administration of a VHH-human IgG1 Fc fusion prevented SARS-CoV-2 infection in two animal models. Pseudovirus escape selection experiments demonstrate that the very rare escape variants are rendered almost non-infectious. This VHH-based antibody with a highly potent mechanism of antiviral action forms the basis for a new class of pan-sarbecovirus neutralizing biologics, which are currently under development. In addition, the unique quaternary binding mode of the VHHs to the prefusion HR2 could be exploited for other class I fusion proteins.

Suggested Citation

  • Sieglinde Cae & Inge Molle & Loes Schie & Sophie R. Shoemaker & Julie Deckers & Nincy Debeuf & Sahine Lameire & Wim Nerinckx & Kenny Roose & Daria Fijalkowska & Simon Devos & Anne-Sophie Smet & Jackel, 2025. "Ultrapotent SARS coronavirus-neutralizing single-domain antibodies that clamp the spike at its base," Nature Communications, Nature, vol. 16(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60250-1
    DOI: 10.1038/s41467-025-60250-1
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