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Antigen-selective modulation of AAV immunogenicity with tolerogenic rapamycin nanoparticles enables successful vector re-administration

Author

Listed:
  • Amine Meliani

    (Sorbonne Université and INSERM U974
    EPHE)

  • Florence Boisgerault

    (EPHE)

  • Romain Hardet

    (Sorbonne Université and INSERM U974)

  • Solenne Marmier

    (Sorbonne Université and INSERM U974)

  • Fanny Collaud

    (EPHE)

  • Giuseppe Ronzitti

    (EPHE)

  • Christian Leborgne

    (EPHE)

  • Helena Costa Verdera

    (Sorbonne Université and INSERM U974
    EPHE)

  • Marcelo Simon Sola

    (Sorbonne Université and INSERM U974
    EPHE)

  • Severine Charles

    (EPHE)

  • Alban Vignaud

    (EPHE)

  • Laetitia van Wittenberghe

    (EPHE)

  • Giorgia Manni

    (University of Perugia)

  • Olivier Christophe

    (Université Paris-Sud)

  • Francesca Fallarino

    (University of Perugia)

  • Christopher Roy

    (Selecta Bioscience)

  • Alicia Michaud

    (Selecta Bioscience)

  • Petr Ilyinskii

    (Selecta Bioscience)

  • Takashi Kei Kishimoto

    (Selecta Bioscience)

  • Federico Mingozzi

    (Sorbonne Université and INSERM U974
    EPHE)

Abstract

Gene therapy mediated by recombinant adeno-associated virus (AAV) vectors is a promising treatment for systemic monogenic diseases. However, vector immunogenicity represents a major limitation to gene transfer with AAV vectors, particularly for vector re-administration. Here, we demonstrate that synthetic vaccine particles encapsulating rapamycin (SVP[Rapa]), co-administered with AAV vectors, prevents the induction of anti-capsid humoral and cell-mediated responses. This allows successful vector re-administration in mice and nonhuman primates. SVP[Rapa] dosed with AAV vectors reduces B and T cell activation in an antigen-selective manner, inhibits CD8+ T cell infiltration in the liver, and efficiently blocks memory T cell responses. SVP[Rapa] immunomodulatory effects can be transferred from treated to naive mice by adoptive transfer of splenocytes, and is inhibited by depletion of CD25+ T cells, suggesting a role for regulatory T cells. Co-administration of SVP[Rapa] with AAV vector represents a powerful strategy to modulate vector immunogenicity and enable effective vector re-administration.

Suggested Citation

  • Amine Meliani & Florence Boisgerault & Romain Hardet & Solenne Marmier & Fanny Collaud & Giuseppe Ronzitti & Christian Leborgne & Helena Costa Verdera & Marcelo Simon Sola & Severine Charles & Alban V, 2018. "Antigen-selective modulation of AAV immunogenicity with tolerogenic rapamycin nanoparticles enables successful vector re-administration," Nature Communications, Nature, vol. 9(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06621-3
    DOI: 10.1038/s41467-018-06621-3
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    Cited by:

    1. Clément Pontoizeau & Marcelo Simon-Sola & Clovis Gaborit & Vincent Nguyen & Irina Rotaru & Nolan Tual & Pasqualina Colella & Muriel Girard & Maria-Grazia Biferi & Jean-Baptiste Arnoux & Agnès Rötig & , 2022. "Neonatal gene therapy achieves sustained disease rescue of maple syrup urine disease in mice," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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