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An intranasal subunit vaccine induces protective systemic and mucosal antibody immunity against respiratory viruses in mouse models

Author

Listed:
  • Aina Karen Anthi

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Anette Kolderup

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Eline Benno Vaage

    (Oslo University Hospital Rikshospitalet
    University of Oslo
    University of Oslo)

  • Malin Bern

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet)

  • Sopisa Benjakul

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Elias Tjärnhage

    (Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Fulgencio Ruso-Julve

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Kjell-Rune Jensen

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Heidrun Elisabeth Lode

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo
    Oslo University Hospital Ullevål and University of Oslo)

  • Marina Vaysburd

    (Laboratory of Molecular Biology)

  • Jeannette Nilsen

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Marie Leangen Herigstad

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Siri Aastedatter Sakya

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Lisa Tietze

    (Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Diego Pilati

    (Aarhus University)

  • Mari Nyquist-Andersen

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Mirjam Dürkoop

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Torleif Tollefsrud Gjølberg

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo
    Oslo University Hospital Ullevål and University of Oslo)

  • Linghang Peng

    (The Scripps Research Institute)

  • Stian Foss

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Morten C. Moe

    (Oslo University Hospital Ullevål and University of Oslo)

  • Benjamin E. Low

    (The Jackson Laboratory)

  • Michael V. Wiles

    (The Jackson Laboratory)

  • David Nemazee

    (The Scripps Research Institute)

  • Frode L. Jahnsen

    (University of Oslo
    Oslo University Hospital Rikshospitalet)

  • John Torgils Vaage

    (Oslo University Hospital Rikshospitalet)

  • Kenneth A. Howard

    (Aarhus University)

  • Inger Sandlie

    (University of Oslo)

  • Leo C. James

    (Laboratory of Molecular Biology)

  • Gunnveig Grødeland

    (Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Fridtjof Lund-Johansen

    (Oslo University Hospital Rikshospitalet
    University of Oslo)

  • Jan Terje Andersen

    (Oslo University Hospital Rikshospitalet
    University of Oslo and Oslo University Hospital Rikshospitalet
    University of Oslo)

Abstract

Although vaccines are usually given intramuscularly, the intranasal delivery route may lead to better mucosal protection and limit the spread of respiratory virus while easing administration and improving vaccine acceptance. The challenge, however, is to achieve delivery across the selective epithelial cell barrier. Here we report on a subunit vaccine platform, in which the antigen is genetically fused to albumin to facilitate FcRn-mediated transport across the mucosal barrier in the presence of adjuvant. Intranasal delivery in conventional and transgenic mouse models induces both systemic and mucosal antigen-specific antibody responses that protect against challenge with SARS-CoV-2 or influenza A. When benchmarked against an intramuscularly administered mRNA vaccine or an intranasally administered antigen fused to an alternative carrier of similar size, only the albumin-based intranasal vaccine yields robust mucosal IgA antibody responses. Our results thus suggest that this needle-free, albumin-based vaccine platform may be suited for vaccination against respiratory pathogens.

Suggested Citation

  • Aina Karen Anthi & Anette Kolderup & Eline Benno Vaage & Malin Bern & Sopisa Benjakul & Elias Tjärnhage & Fulgencio Ruso-Julve & Kjell-Rune Jensen & Heidrun Elisabeth Lode & Marina Vaysburd & Jeannett, 2025. "An intranasal subunit vaccine induces protective systemic and mucosal antibody immunity against respiratory viruses in mouse models," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59353-6
    DOI: 10.1038/s41467-025-59353-6
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    1. Weizhong Li & Tao Wang & Arunraj M. Rajendrakumar & Gyanada Acharya & Zizhen Miao & Berin P. Varghese & Hailiang Yu & Bibek Dhakal & Tanya LeRoith & Athira Karunakaran & Wenbin Tuo & Xiaoping Zhu, 2023. "An FcRn-targeted mucosal vaccine against SARS-CoV-2 infection and transmission," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
    2. Emily Waltz, 2022. "China and India approve nasal COVID vaccines — are they a game changer?," Nature, Nature, vol. 609(7927), pages 450-450, September.
    3. Jan Terje Andersen & Bjørn Dalhus & Jason Cameron & Muluneh Bekele Daba & Andrew Plumridge & Leslie Evans & Stephan O. Brennan & Kristin Støen Gunnarsen & Magnar Bjørås & Darrell Sleep & Inger Sandlie, 2012. "Structure-based mutagenesis reveals the albumin-binding site of the neonatal Fc receptor," Nature Communications, Nature, vol. 3(1), pages 1-9, January.
    4. Katherine McMahan & Frank Wegmann & Malika Aid & Michaela Sciacca & Jinyan Liu & Nicole P. Hachmann & Jessica Miller & Catherine Jacob-Dolan & Olivia Powers & David Hope & Cindy Wu & Juliana Pereira &, 2024. "Mucosal boosting enhances vaccine protection against SARS-CoV-2 in macaques," Nature, Nature, vol. 626(7998), pages 385-391, February.
    5. Tong Ye & Zhouguang Jiao & Xin Li & Zhanlong He & Yanyan Li & Fengmei Yang & Xin Zhao & Youchun Wang & Weijin Huang & Meng Qin & Yingmei Feng & Yefeng Qiu & Wenhui Yang & Lingfei Hu & Yaling Hu & Yu Z, 2023. "Inhaled SARS-CoV-2 vaccine for single-dose dry powder aerosol immunization," Nature, Nature, vol. 624(7992), pages 630-638, December.
    6. Emily Waltz, 2022. "How nasal-spray vaccines could change the pandemic," Nature, Nature, vol. 609(7926), pages 240-242, September.
    7. Algirdas Grevys & Jeannette Nilsen & Kine M. K. Sand & Muluneh B. Daba & Inger Øynebråten & Malin Bern & Martin B. McAdam & Stian Foss & Tilman Schlothauer & Terje E. Michaelsen & Gregory J. Christian, 2018. "A human endothelial cell-based recycling assay for screening of FcRn targeted molecules," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
    8. Kaori Sano & Disha Bhavsar & Gagandeep Singh & Daniel Floda & Komal Srivastava & Charles Gleason & Juan Manuel Carreño & Viviana Simon & Florian Krammer, 2022. "SARS-CoV-2 vaccination induces mucosal antibody responses in previously infected individuals," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
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