H7N9 Influenza Viruses Are Transmissible in Ferrets by Respiratory Droplet

Qianyi Zhang; Jianzhong Shi; Guohua Deng; Jing Guo; Xianying Zeng; Xijun He; Huihui Kong; Chunyang Gu; Xuyong Li; Jinxiong Liu; Guojun Wang; Yan Chen; Liling Liu; Libin Liang; Yuanyuan Li; Jun Fan; Jinliang Wang; Wenhui Li; Lizheng Guan; Qimeng Li; Huanliang Yang; Pucheng Chen; Li Jiang; Yuntao Guan; Xiaoguang Xin; Yongping Jiang; Guobin Tian; Xiurong Wang; Chuanling Qiao; Chengjun Li; Zhigao Bu; Hualan Chen

doi:10.1126/science.1240532

H7N9 Influenza Viruses Are Transmissible in Ferrets by Respiratory Droplet

Qianyi Zhang(Gansu Agricultural University), Jianzhong Shi(Chinese Academy of Agricultural Sciences), Guohua Deng(Chinese Academy of Agricultural Sciences), Jing Guo(Chinese Academy of Agricultural Sciences), Xianying Zeng(Chinese Academy of Agricultural Sciences), Xijun He(Chinese Academy of Agricultural Sciences), Huihui Kong(Chinese Academy of Agricultural Sciences), Chunyang Gu(Gansu Agricultural University), Xuyong Li(Chinese Academy of Agricultural Sciences), Jinxiong Liu(Chinese Academy of Agricultural Sciences), Guojun Wang(Gansu Agricultural University), Yan Chen(Chinese Academy of Agricultural Sciences), Liling Liu(Chinese Academy of Agricultural Sciences), Libin Liang(Chinese Academy of Agricultural Sciences), Yuanyuan Li(Chinese Academy of Agricultural Sciences), Jun Fan(Chinese Academy of Agricultural Sciences), Jinliang Wang(Chinese Academy of Agricultural Sciences), Wenhui Li(Chinese Academy of Agricultural Sciences), Lizheng Guan(Chinese Academy of Agricultural Sciences), Qimeng Li(Gansu Agricultural University), Huanliang Yang(Chinese Academy of Agricultural Sciences), Pucheng Chen(Chinese Academy of Agricultural Sciences), Li Jiang(Chinese Academy of Agricultural Sciences), Yuntao Guan(Chinese Academy of Agricultural Sciences), Xiaoguang Xin(Chinese Academy of Agricultural Sciences), Yongping Jiang(Chinese Academy of Agricultural Sciences), Guobin Tian(Chinese Academy of Agricultural Sciences), Xiurong Wang(Chinese Academy of Agricultural Sciences), Chuanling Qiao(Chinese Academy of Agricultural Sciences), Chengjun Li(Chinese Academy of Agricultural Sciences), Zhigao Bu(Chinese Academy of Agricultural Sciences), Hualan Chen(Gansu Agricultural University)

Science

July 19, 2013

10.1126/science.1240532

Cited by 427Open Access

Full Text

Abstract

H7N9 Adaptation Puzzling and alarming reports of an outbreak in early 2013 of human infections by a low-pathogenicity avian influenza virus has rocked the poultry industry in central eastern China and brought fears of initiating a human pandemic. Over 130 human cases have been reported with 37 deaths until closure of poultry markets accompanied a near-cessation of human case reports. From surveillance sampling of >10,000 isolates obtained during April 2013, Zhang et al. (p. 410 , published online 18 July) took 37 isolates of avian origin H7N9 and compared them to human H7N9 isolates. The majority of H7N9 isolates came from live poultry markets, although some originated in pigeons. Sequence analysis indicated that the chicken isolates had retained the avian characteristics at sites on the influenza genes for PB2 and the surface hemagglutinin HA, where adaptive mutations have been observed before. Sequence analysis also showed a higher variability in the internal genes than in HA and neuraminidase NA. By using glycan arrays, it was shown that avian and human isolates bound to human, but also to some extent to avian, receptors. As expected, the virus replicated well in chickens without causing disease, whereas in mice only the human isolates were highly pathogenic. The human virus, but not the avian, transmitted between ferrets through the air.

Related Papers

No related papers found

Powered by citation graph analysis