Mutations during the adaptation of H7N9 avian influenza virus to mice lungs enhance human-like sialic acid binding activity and virulence in mice

Mutations during the adaptation of H7N9 avian influenza virus to mice lungs enhance human-like sialic acid binding activity and virulence in mice

•A mouse-adapted virus (S8) was generated by serial passages in mice.•S8 virus gains the ability to replicate efficiently in multiple organs in mice.•S8 virus obtains strong affinity for human-type receptors during adaptation.•S8 virus-mediated acute lung injury contributes to its high virulence in...

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Veröffentlicht in:Veterinary microbiology 2021-03, Vol.254, p.109000-109000, Article 109000
Hauptverfasser: Wang, Guoqing, Liu, Dong, Hu, Jiao, Gu, Min, Wang, Xiaoquan, He, Dongchang, Zhang, Lei, Li, Jun, Zheng, Xinxin, Zeng, Zixiong, Liu, Huimou, Hu, Shunlin, Peng, Daxin, Jiao, Xinan, Liu, Xiufan
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Adaptation
Avian influenza virus
H7N9 subtype
Mice
Virulence
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container_start_page 109000
container_title Veterinary microbiology
container_volume 254
creator Wang, Guoqing
Liu, Dong
Hu, Jiao
Gu, Min
Wang, Xiaoquan
He, Dongchang
Zhang, Lei
Li, Jun
Zheng, Xinxin
Zeng, Zixiong
Liu, Huimou
Hu, Shunlin
Peng, Daxin
Jiao, Xinan
Liu, Xiufan
description •A mouse-adapted virus (S8) was generated by serial passages in mice.•S8 virus gains the ability to replicate efficiently in multiple organs in mice.•S8 virus obtains strong affinity for human-type receptors during adaptation.•S8 virus-mediated acute lung injury contributes to its high virulence in mice. The first avian H7N9 influenza outbreak in spring of 2013 emerged in an unprecedented transmission from infected poultry to humans in the Yangtze delta area, eastern China, posing a dual challenge to public health and poultry industry. However, the mechanism for how avian H7N9 influenza virus adapts to mammalian hosts has not been clearly understood. Here, to identify adaptive changes that confer enhanced virulence of H7N9 virus in mammals, we generated a mouse-adapted H7N9 variant virus (S8) by serial lung-to-lung passages of the wild-type SDL124 virus in mice and compared their phenotype in vivo and in vitro. Sequence analysis showed that the two viruses differed by 27 amino acids distributed among six genes, containing changes in PB2 (E627K, D701N) and HA (Q226L) genes. The 50% mouse lethal dose (MLD50) of S8 reduced about 500 folds, to be moderately pathogenic to mice when compared to that of low pathogenic wild-type SDL124. Moreover, S8 replicated efficiently in mouse lungs and displayed expanded tissue tropism, and induced a greater degree of pulmonary edema and higher level of inflammatory cell infiltration in bronchoalveolar lavage fluids than SDL124 did. Interestingly, the mouse adapted S8 virus obtained strong affinity for human-like (SAα-2,6 Gal) receptor during the adaptation in mice. Correspondingly, compared with SDL124 virus, S8 virus showed higher replication efficiency in mammalian cells, whereas lower replication ability in avian cells. Taken together, these findings suggest that these mutations synergistically elevate the ability of H7N9 virus to disseminate to multiple organs and subsequently enhance the virulence of H7N9 virus in mammalian hosts.
doi_str_mv 10.1016/j.vetmic.2021.109000
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The first avian H7N9 influenza outbreak in spring of 2013 emerged in an unprecedented transmission from infected poultry to humans in the Yangtze delta area, eastern China, posing a dual challenge to public health and poultry industry. However, the mechanism for how avian H7N9 influenza virus adapts to mammalian hosts has not been clearly understood. Here, to identify adaptive changes that confer enhanced virulence of H7N9 virus in mammals, we generated a mouse-adapted H7N9 variant virus (S8) by serial lung-to-lung passages of the wild-type SDL124 virus in mice and compared their phenotype in vivo and in vitro. Sequence analysis showed that the two viruses differed by 27 amino acids distributed among six genes, containing changes in PB2 (E627K, D701N) and HA (Q226L) genes. The 50% mouse lethal dose (MLD50) of S8 reduced about 500 folds, to be moderately pathogenic to mice when compared to that of low pathogenic wild-type SDL124. Moreover, S8 replicated efficiently in mouse lungs and displayed expanded tissue tropism, and induced a greater degree of pulmonary edema and higher level of inflammatory cell infiltration in bronchoalveolar lavage fluids than SDL124 did. Interestingly, the mouse adapted S8 virus obtained strong affinity for human-like (SAα-2,6 Gal) receptor during the adaptation in mice. Correspondingly, compared with SDL124 virus, S8 virus showed higher replication efficiency in mammalian cells, whereas lower replication ability in avian cells. 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The first avian H7N9 influenza outbreak in spring of 2013 emerged in an unprecedented transmission from infected poultry to humans in the Yangtze delta area, eastern China, posing a dual challenge to public health and poultry industry. However, the mechanism for how avian H7N9 influenza virus adapts to mammalian hosts has not been clearly understood. Here, to identify adaptive changes that confer enhanced virulence of H7N9 virus in mammals, we generated a mouse-adapted H7N9 variant virus (S8) by serial lung-to-lung passages of the wild-type SDL124 virus in mice and compared their phenotype in vivo and in vitro. Sequence analysis showed that the two viruses differed by 27 amino acids distributed among six genes, containing changes in PB2 (E627K, D701N) and HA (Q226L) genes. The 50% mouse lethal dose (MLD50) of S8 reduced about 500 folds, to be moderately pathogenic to mice when compared to that of low pathogenic wild-type SDL124. 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The first avian H7N9 influenza outbreak in spring of 2013 emerged in an unprecedented transmission from infected poultry to humans in the Yangtze delta area, eastern China, posing a dual challenge to public health and poultry industry. However, the mechanism for how avian H7N9 influenza virus adapts to mammalian hosts has not been clearly understood. Here, to identify adaptive changes that confer enhanced virulence of H7N9 virus in mammals, we generated a mouse-adapted H7N9 variant virus (S8) by serial lung-to-lung passages of the wild-type SDL124 virus in mice and compared their phenotype in vivo and in vitro. Sequence analysis showed that the two viruses differed by 27 amino acids distributed among six genes, containing changes in PB2 (E627K, D701N) and HA (Q226L) genes. The 50% mouse lethal dose (MLD50) of S8 reduced about 500 folds, to be moderately pathogenic to mice when compared to that of low pathogenic wild-type SDL124. Moreover, S8 replicated efficiently in mouse lungs and displayed expanded tissue tropism, and induced a greater degree of pulmonary edema and higher level of inflammatory cell infiltration in bronchoalveolar lavage fluids than SDL124 did. Interestingly, the mouse adapted S8 virus obtained strong affinity for human-like (SAα-2,6 Gal) receptor during the adaptation in mice. Correspondingly, compared with SDL124 virus, S8 virus showed higher replication efficiency in mammalian cells, whereas lower replication ability in avian cells. Taken together, these findings suggest that these mutations synergistically elevate the ability of H7N9 virus to disseminate to multiple organs and subsequently enhance the virulence of H7N9 virus in mammalian hosts.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>33515926</pmid><doi>10.1016/j.vetmic.2021.109000</doi><tpages>1</tpages></addata></record>
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subjects Adaptation
Avian influenza virus
H7N9 subtype
Mice
Virulence
title Mutations during the adaptation of H7N9 avian influenza virus to mice lungs enhance human-like sialic acid binding activity and virulence in mice
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