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mRNA vaccines encoding fusion proteins of monkeypox virus antigens protect mice from vaccinia virus challenge

Author

Listed:
  • Fujun Hou

    (Shanghai Virogin Biotech Co. Ltd.
    Hangzhou Virogin Biotech Co. Ltd.)

  • Yuntao Zhang

    (CNBG-Virogin Biotech (Shanghai) Co. Ltd.
    China National Biotec Group Company Limited (CNBG))

  • Xiaohu Liu

    (Virogin Biotech Canada Ltd.)

  • Yanal M Murad

    (Virogin Biotech Canada Ltd.)

  • Jiang Xu

    (Shanghai Virogin Biotech Co. Ltd.)

  • Zhibin Yu

    (Shanghai Virogin Biotech Co. Ltd.)

  • Xianwu Hua

    (Shanghai Virogin Biotech Co. Ltd.)

  • Yingying Song

    (Shanghai Virogin Biotech Co. Ltd.)

  • Jun Ding

    (Shanghai Virogin Biotech Co. Ltd.)

  • Hongwei Huang

    (Shanghai Virogin Biotech Co. Ltd.
    Hangzhou Virogin Biotech Co. Ltd.
    CNBG-Virogin Biotech (Shanghai) Co. Ltd.
    Virogin Biotech Canada Ltd.)

  • Ronghua Zhao

    (Shanghai Virogin Biotech Co. Ltd.
    CNBG-Virogin Biotech (Shanghai) Co. Ltd.
    Virogin Biotech Canada Ltd.)

  • William Jia

    (Shanghai Virogin Biotech Co. Ltd.
    CNBG-Virogin Biotech (Shanghai) Co. Ltd.
    Virogin Biotech Canada Ltd.)

  • Xiaoming Yang

    (China National Biotec Group Company Limited (CNBG))

Abstract

The recent outbreaks of mpox have raised concerns over the need for effective vaccines. However, the current approved vaccines have either been associated with safety concerns or are in limited supply. mRNA vaccines, which have shown high efficacy and safety against SARS-CoV-2 infection, are a promising alternative. In this study, three mRNA vaccines are developed that encode monkeypox virus (MPXV) proteins A35R and M1R, including A35R extracellular domain -M1R fusions (VGPox 1 and VGPox 2) and a mixture of encapsulated full-length mRNAs for A35R and M1R (VGPox 3). All three vaccines induce early anti-A35R antibodies in female Balb/c mice, but only VGPox 1 and 2 generate detectable levels of anti-M1R antibodies at day 7 after vaccination. However, all three mRNA vaccine groups completely protect mice from a lethal dose of vaccinia virus (VACV) challenge. A single dose of VGPox 1, 2, and 3 provide protection against the lethal viral challenge within 7 days post-vaccination. Long-term immunity and protection were also observed in all three candidates. Additionally, VGPox 2 provided better passive protection. These results suggest that the VGPox series vaccines enhance immunogenicity and can be a viable alternative to current whole-virus vaccines to defend against mpox.

Suggested Citation

  • Fujun Hou & Yuntao Zhang & Xiaohu Liu & Yanal M Murad & Jiang Xu & Zhibin Yu & Xianwu Hua & Yingying Song & Jun Ding & Hongwei Huang & Ronghua Zhao & William Jia & Xiaoming Yang, 2023. "mRNA vaccines encoding fusion proteins of monkeypox virus antigens protect mice from vaccinia virus challenge," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41628-5
    DOI: 10.1038/s41467-023-41628-5
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    Cited by:

    1. Yang Yang & Shiyu Niu & Chenguang Shen & Liuqing Yang & Shuo Song & Yun Peng & Yifan Xu & Liping Guo & Liang Shen & Zhonghui Liao & Jiexiang Liu & Shengjie Zhang & Yanxin Cui & Jiayin Chen & Si Chen &, 2024. "Longitudinal viral shedding and antibody response characteristics of men with acute infection of monkeypox virus: a prospective cohort study," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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