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Distinct evolution of SARS-CoV-2 Omicron XBB and BA.2.86/JN.1 lineages combining increased fitness and antibody evasion

Author

Listed:
  • Delphine Planas

    (Université Paris Cité
    Vaccine Research Institute)

  • Isabelle Staropoli

    (Université Paris Cité)

  • Vincent Michel

    (INSERM)

  • Frederic Lemoine

    (Université Paris Cité
    Bioinformatics and Biostatistics Hub)

  • Flora Donati

    (Université Paris Cité
    Institut Pasteur)

  • Matthieu Prot

    (Université Paris Cité)

  • Francoise Porrot

    (Université Paris Cité)

  • Florence Guivel-Benhassine

    (Université Paris Cité)

  • Banujaa Jeyarajah

    (Institut Pasteur)

  • Angela Brisebarre

    (Institut Pasteur)

  • Océane Dehan

    (Institut Pasteur)

  • Léa Avon

    (Institut Pasteur)

  • William Henry Bolland

    (Université Paris Cité)

  • Mathieu Hubert

    (Université Paris Cité)

  • Julian Buchrieser

    (Université Paris Cité)

  • Thibault Vanhoucke

    (Université Paris Cité)

  • Pierre Rosenbaum

    (Université Paris Cité)

  • David Veyer

    (Hôpital Européen Georges Pompidou
    Sorbonne Université)

  • Hélène Péré

    (Hôpital Européen Georges Pompidou
    Sorbonne Université)

  • Bruno Lina

    (Hospices Civils de Lyon
    CNRS)

  • Sophie Trouillet-Assant

    (Hospices Civils de Lyon
    CNRS)

  • Laurent Hocqueloux

    (Service de Maladies Infectieuses)

  • Thierry Prazuck

    (Service de Maladies Infectieuses)

  • Etienne Simon-Loriere

    (Université Paris Cité
    Institut Pasteur)

  • Olivier Schwartz

    (Université Paris Cité
    Vaccine Research Institute)

Abstract

The unceasing circulation of SARS-CoV-2 leads to the continuous emergence of novel viral sublineages. Here, we isolate and characterize XBB.1, XBB.1.5, XBB.1.9.1, XBB.1.16.1, EG.5.1.1, EG.5.1.3, XBF, BA.2.86.1 and JN.1 variants, representing >80% of circulating variants in January 2024. The XBB subvariants carry few but recurrent mutations in the spike, whereas BA.2.86.1 and JN.1 harbor >30 additional changes. These variants replicate in IGROV-1 but no longer in Vero E6 and are not markedly fusogenic. They potently infect nasal epithelial cells, with EG.5.1.3 exhibiting the highest fitness. Antivirals remain active. Neutralizing antibody (NAb) responses from vaccinees and BA.1/BA.2-infected individuals are markedly lower compared to BA.1, without major differences between variants. An XBB breakthrough infection enhances NAb responses against both XBB and BA.2.86 variants. JN.1 displays lower affinity to ACE2 and higher immune evasion properties compared to BA.2.86.1. Thus, while distinct, the evolutionary trajectory of these variants combines increased fitness and antibody evasion.

Suggested Citation

  • Delphine Planas & Isabelle Staropoli & Vincent Michel & Frederic Lemoine & Flora Donati & Matthieu Prot & Francoise Porrot & Florence Guivel-Benhassine & Banujaa Jeyarajah & Angela Brisebarre & Océane, 2024. "Distinct evolution of SARS-CoV-2 Omicron XBB and BA.2.86/JN.1 lineages combining increased fitness and antibody evasion," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46490-7
    DOI: 10.1038/s41467-024-46490-7
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