National Institute of Animal Health, National Agriculture and Food Research Organization, Tsukuba, Ibaraki, Japan.
Federal Research Center of Fundamental and Translational Medicine, Novosibirsk, Russia.
Transbound Emerg Dis. 2022 Sep;69(5):e2195-e2213. doi: 10.1111/tbed.14559. Epub 2022 May 3.
In winter 2020-2021, Japan experienced multiple serious outbreaks of H5N8 high pathogenicity avian influenza (HPAI)-52 outbreaks at poultry farms and 58 cases in wild birds or the environment-that occurred simultaneously with outbreaks in Europe. Here, we examined how the H5N8 HPAI viruses (HPAIVs) emerged and spread through Japan and across the Eurasian continent. Phylogenetic and phylogeographic analyses were performed using full genetic sequences of the viruses that caused 52 outbreaks at poultry farms or were isolated from 11 infected wild birds. Genetically, the viruses showed five genotypes (E1, E2, E3, E5 and E7) that have already been reported in Korea. The viruses showing the E3 genotype were found to have caused most of the HPAI outbreaks at poultry farms and were detected over the longest period of time. The internal genes of the viruses were genetically related to those of AIVs isolated through avian influenza surveillance activities in regions of Siberia including Buryatia, Yakutia and Amur regions, suggesting that the Japanese viruses emerged via reassortment events with AIVs genetically related to Siberian AIVs. In addition, H5N2 and H5N8 HPAIVs were isolated from wild birds during surveillance activities conducted in the Novosibirsk region of Siberia in summer 2020. Phylogenetic analyses revealed that these viruses possessed haemagglutinin genes that were related to those of H5N8 HPAIVs that were circulating in Europe in winter 2020-2021. These results suggest that the viruses in wild birds during summer in Siberia most likely spread in both Asia and Europe the following winter. Together, the present results emphasize the importance of continual monitoring of AIVs in Siberia for forecasting outbreaks not only in Asia but also further away in Europe.
2020-2021 年冬季,日本在禽类养殖场经历了多次由 H5N8 高致病性禽流感(HPAI)-52 起暴发和 58 起野生鸟类或环境中的暴发,这些暴发与欧洲的暴发同时发生。在此,我们研究了 H5N8 HPAI 病毒(HPAIVs)如何在日本和整个欧亚大陆传播。对引起 52 起家禽养殖场暴发或从 11 只受感染野生鸟类中分离出的病毒的全基因组序列进行了系统进化和系统地理学分析。遗传上,这些病毒显示了已在韩国报道的 5 种基因型(E1、E2、E3、E5 和 E7)。显示 E3 基因型的病毒被发现引起了大多数家禽养殖场的 HPAI 暴发,并在最长的时间内被检测到。这些病毒的内部基因与通过在包括布里亚特、雅库特和阿穆尔地区的西伯利亚地区进行的禽流感监测活动中分离的 AIV 具有遗传关系,这表明日本病毒是通过与西伯利亚 AIV 具有遗传关系的 AIV 发生重配事件而出现的。此外,在 2020 年夏季对西伯利亚新西伯利亚地区进行的监测活动中,从野生鸟类中分离出了 H5N2 和 H5N8 HPAIV。系统进化分析显示,这些病毒的血凝素基因与在 2020-2021 年冬季在欧洲流行的 H5N8 HPAIV 相关。这些结果表明,西伯利亚夏季野生鸟类中的病毒很可能在下一个冬季在亚洲和欧洲传播。总之,目前的结果强调了持续监测西伯利亚地区 AIV 的重要性,不仅可以预测亚洲的暴发,还可以预测更远的欧洲的暴发。
