Suppression of flavivirus transmission from animal hosts to mosquitoes with a mosquito-delivered vaccine

Wen, Dan; Ding, Limin S.; Zhang, Yanan; Li, Xiaoye; Zhang, Xing; Yuan, Fei; Zhao, Tongbiao; Zheng, Aihua

Suppression of flavivirus transmission from animal hosts to mosquitoes with a mosquito-delivered vaccine

Dan Wen, Limin S. Ding, Yanan Zhang, Xiaoye Li, Xing Zhang, Fei Yuan, Tongbiao Zhao and Aihua Zheng ()
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Dan Wen: Chinese Academy of Sciences
Limin S. Ding: Chinese Academy of Sciences
Yanan Zhang: Chinese Academy of Sciences
Xiaoye Li: Henan Normal University
Xing Zhang: University of Chinese Academy of Sciences
Fei Yuan: Chinese Academy of Sciences
Tongbiao Zhao: Chinese Academy of Sciences
Aihua Zheng: Chinese Academy of Sciences

Nature Communications, 2022, vol. 13, issue 1, 1-12

Abstract: Abstract Zoonotic viruses circulate in the natural reservoir and sporadically spill over into human populations, resulting in endemics or pandemics. We previously found that the Chaoyang virus (CYV), an insect-specific flavivirus (ISF), is replication-defective in vertebrate cells. Here, we develope a proof-of-concept mosquito-delivered vaccine to control the Zika virus (ZIKV) within inaccessible wildlife hosts using CYV as the vector. The vaccine is constructed by replacing the pre-membrane and envelope (prME) proteins of CYV with those of ZIKV, assigned as CYV-ZIKV. CYV-ZIKV replicates efficiently in Aedes mosquitoes and disseminates to the saliva, with no venereal or transovarial transmission observed. To reduce the risk of CYV-ZIKV leaking into the environment, mosquitoes are X-ray irradiated to ensure 100% infertility, which does not affect the titer of CYV-ZIKV in the saliva. Immunization of mice via CYV-ZIKV-carrying mosquito bites elicites robust and persistent ZIKV-specific immune responses and confers complete protection against ZIKV challenge. Correspondingly, the immunized mice could no longer transmit the challenged ZIKV to naïve mosquitoes. Therefore, immunization with an ISF-vectored vaccine via mosquito bites is feasible to induce herd immunity in wildlife hosts of ZIKV. Our study provides a future avenue for developing a mosquito-delivered vaccine to eliminate zoonotic viruses in the sylvatic cycle.

Date: 2022
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DOI: 10.1038/s41467-022-35407-x

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