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Highly scalable prefusion-stabilized RSV F vaccine with enhanced immunogenicity and robust protection

Author

Listed:
  • Qingrui Huang

    (Changping Laboratory)

  • Qingyun Lang

    (Changping Laboratory
    Beijing Normal University)

  • Yao Li

    (Changping Laboratory)

  • Fengjie Wang

    (Capital Institute of Pediatrics)

  • Xiaonan Han

    (Chinese Academy of Sciences)

  • Ling Luo

    (Changping Laboratory)

  • Xiaomin Duan

    (Changping Laboratory)

  • Xuerong Cao

    (Changping Laboratory)

  • Yue Wang

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Yu Bai

    (Changping Laboratory)

  • Yaxin Song

    (Changping Laboratory)

  • Yanpeng Xu

    (Capital Institute of Pediatrics)

  • Lianlian Bian

    (Changping Laboratory)

  • Chenyan Gao

    (Changping Laboratory)

  • Linqing Zhao

    (Capital Institute of Pediatrics)

  • Jinghua Yan

    (Changping Laboratory
    University of Chinese Academy of Sciences)

Abstract

Stabilizing the RSV F protein in its prefusion conformation is crucial for effective vaccine development but has remained a significant challenge. Traditional stabilization methods, such as disulfide bonds and cavity-filling mutations, have been labor-intensive and have often resulted in suboptimal expression levels. Here, we report the design of an RSV prefusion F (preF) antigen using a proline-scanning strategy, incorporating seven proline substitutions to achieve stabilization. The resulting variant, preF7P, is structurally and biochemically validated to maintain the correct prefusion state. PreF7P demonstrates superior immunogenicity with a 1.8-fold increase in neutralizing antibody titers when compared to DS-cav2, and provides protection from clinical disease against both RSV A and B strains in female murine and female cotton rat models. In clinical development, preF7P exhibits high expression levels (~10 g/L) in clinical-grade CHO cells. The clinical-grade vaccine elicits robust immunogenic responses across female mice, female SD rats, and both male and female cynomolgus macaques, significantly boosting RSV pre-infection neutralizing antibody titers, and providing sustained protection for at least six months in female mice. This proline-scanning strategy offers a streamlined approach for stabilizing class I fusion proteins, potentially accelerating the development of vaccines for other pathogens.

Suggested Citation

  • Qingrui Huang & Qingyun Lang & Yao Li & Fengjie Wang & Xiaonan Han & Ling Luo & Xiaomin Duan & Xuerong Cao & Yue Wang & Yu Bai & Yaxin Song & Yanpeng Xu & Lianlian Bian & Chenyan Gao & Linqing Zhao & , 2025. "Highly scalable prefusion-stabilized RSV F vaccine with enhanced immunogenicity and robust protection," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63084-z
    DOI: 10.1038/s41467-025-63084-z
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    References listed on IDEAS

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