Intranasal administration of a VLP-based vaccine against COVID-19 induces neutralizing antibodies against SARS-CoV-2 and Variants of Concerns

  1. Dominik A. Rothen
  2. Pascal S. Krenger
  3. Aleksandra Nonic
  4. Ina Balke
  5. Anne-Cathrine S. Vogt
  6. Xinyue Chang
  7. Alessandro Manenti
  8. Fabio Vedovi
  9. Gunta Resevica
  10. Senta M. Walton
  11. Andris Zeltins
  12. Emanuele Montomoli
  13. Monique Vogel
  14. Martin F. Bachmann
  15. Mona O. Mohsen
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Abstract

Background

The highly contagious SARS-CoV-2 is mainly transmitted by respiratory droplets and aerosols. Consequently, people are required to wear masks and maintain a social distance to avoid spreading of the virus. Despite the success of the commercially available vaccines, the virus is still uncontained globally. Given the tropism of SARS-CoV-2, a mucosal immune reaction would help to reduce viral shedding and transmission locally. Only seven out of hundreds of ongoing clinical trials are testing the intranasal delivery of COVID-19 vaccines.

Methods

In the current study, we tested in murine model the immunogenicity of a conventional vaccine platform based on virus-like particles (VLPs) displaying RBD of SARS-CoV-2 for intranasal vaccination. The candidate vaccine, CuMV TT -RBD, has been immunologically optimized to incorporate tetanus-toxin and is self-adjuvanted with TLR7/8 ligands.

Results

CuMV TT -RBD elicited strong RBD- and spike- specific systemic IgG and IgA antibody responses of high avidity. Local immune responses were assessed and results demonstrate strong mucosal antibody and plasma cell production in lung tissue. The induced systemic antibodies could efficiently recognize and neutralize different Variants of Concerns of mutated SARS-CoV-2 RBDs.

Conclusion

In summary, intranasal vaccination with CuMV TT -RBD shows high immunogenicity and induces protective systemic and local specific antibody response against SARS-CoV-2 and its variants.

One sentence summary

Evaluation of an intransal administrated conventional VLP-based vaccine against COVID-19 in a murine model.

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