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Protective efficacy of an H5/H7 trivalent inactivated vaccine produced from Re-11, Re-12, and H7-Re2 strains against challenge with different H5 and H7 viruses in chickens

Xianying Zeng, Xiaohan Chen, Shujie Ma, Jiao-jiao WU, Hongmei Bao, Shuxin Pan, Yanjing Liu, Guohua Deng, Jianzhong Shi, Pu-cheng CHEN, Yongping Jiang, Yanbing Li, Jinglei Hu, Tong Lü, Shenggang Mao, Guo Xing-fu, Jingli Liu, Guobin Tian, Hualan Chen

2020Journal of Integrative Agriculture41 citationsDOIOpen Access PDF

Abstract

We developed an H5/H7 trivalent inactivated vaccine by using Re-11, Re-12, and H7-Re2 vaccine seed viruses, which were generated by reverse genetics and derived their HA genes from A/duck/Guizhou/S4184/2017(H5N6) (DK/GZ/S4184/17) (a clade 2.3.4.4d virus), A/chicken/Liaoning/SD007/2017(H5N1) (CK/LN/SD007/17) (a clade 2.3.2.1d virus), and A/chicken/Guangxi/SD098/2017(H7N9) (CK/GX/SD098/17), respectively. The protective efficacy of this novel vaccine and that of the recently used H5/H7 bivalent inactivated vaccine against different H5 and H7N9 viruses was evaluated in chickens. We found that the H5/H7 bivalent vaccine provided solid protection against the H7N9 virus CK/GX/SD098/17, but only 50–60% protection against different H5 viruses. In contrast, the novel H5/H7 trivalent vaccine provided complete protection against the H5 and H7 viruses tested. Our study underscores the importance of timely updating of vaccines for avian influenza control.

Topics & Concepts

Bivalent (engine)VirologyInactivated vaccineInfluenza A virus subtype H5N1VirusBiologyCladeVaccine efficacyMicrobiologyVaccinationChemistryGenePhylogenetic treeGeneticsMetalOrganic chemistryInfluenza Virus Research StudiesAnimal Virus Infections StudiesAnimal Disease Management and Epidemiology
Protective efficacy of an H5/H7 trivalent inactivated vaccine produced from Re-11, Re-12, and H7-Re2 strains against challenge with different H5 and H7 viruses in chickens | Litcius