Detection of New H5N1 High Pathogenicity Avian Influenza Viruses in Winter 2021–2022 in the Far East, Which Are Genetically Close to Those in Europe
Many high pathogenicity avian influenza (HPAI) cases in wild birds due to H5N1 HPAI virus (HPAIV) infection were reported in northern Japan in the winter of 2021–2022. To investigate the epidemiology of HPAIVs brought to Japan from surrounding areas, a genetic analysis of H5 HPAIVs isolated in north...
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| Published in | Viruses Vol. 14; no. 10; p. 2168 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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30.09.2022
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| Abstract | Many high pathogenicity avian influenza (HPAI) cases in wild birds due to H5N1 HPAI virus (HPAIV) infection were reported in northern Japan in the winter of 2021–2022. To investigate the epidemiology of HPAIVs brought to Japan from surrounding areas, a genetic analysis of H5 HPAIVs isolated in northern Japan was performed, and the pathogenicity of the HPAIV in chickens was assessed by experimental infection. Based on the genetic analysis of the hemagglutinin gene, pathogenic viruses detected in northern Japan as well as one in Sakhalin, the eastern part of Russia, were classified into the same subgroup as viruses prevalent in Europe in the same season but distinct from those circulating in Asia in winter 2020–2021. High identities of all eight segment sequences of A/crow/Hokkaido/0103B065/2022 (H5N1) (Crow/Hok), the representative isolates in northern Japan in 2022, to European isolates in the same season could also certify the unlikeliness of causing gene reassortment between H5 HPAIVs and viruses locally circulating in Asia. According to intranasal challenge results in six-week-old chickens, 50% of the chicken-lethal dose of Crow/Hok was calculated as 104.5 times of the 50% egg-infectious dose. These results demonstrated that the currently prevalent H5 HPAIVs could spread widely from certain origins throughout the Eurasian continent, including Europe and the Far East, and implied a possibility that contagious viruses are gathered in lakes in the northern territory via bird migration. Active monitoring of wild birds at the global level is essential to estimate the geographical source and spread dynamics of HPAIVs. |
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| AbstractList | Many high pathogenicity avian influenza (HPAI) cases in wild birds due to H5N1 HPAI virus (HPAIV) infection were reported in northern Japan in the winter of 2021–2022. To investigate the epidemiology of HPAIVs brought to Japan from surrounding areas, a genetic analysis of H5 HPAIVs isolated in northern Japan was performed, and the pathogenicity of the HPAIV in chickens was assessed by experimental infection. Based on the genetic analysis of the hemagglutinin gene, pathogenic viruses detected in northern Japan as well as one in Sakhalin, the eastern part of Russia, were classified into the same subgroup as viruses prevalent in Europe in the same season but distinct from those circulating in Asia in winter 2020–2021. High identities of all eight segment sequences of A/crow/Hokkaido/0103B065/2022 (H5N1) (Crow/Hok), the representative isolates in northern Japan in 2022, to European isolates in the same season could also certify the unlikeliness of causing gene reassortment between H5 HPAIVs and viruses locally circulating in Asia. According to intranasal challenge results in six-week-old chickens, 50% of the chicken-lethal dose of Crow/Hok was calculated as 10
4.5
times of the 50% egg-infectious dose. These results demonstrated that the currently prevalent H5 HPAIVs could spread widely from certain origins throughout the Eurasian continent, including Europe and the Far East, and implied a possibility that contagious viruses are gathered in lakes in the northern territory via bird migration. Active monitoring of wild birds at the global level is essential to estimate the geographical source and spread dynamics of HPAIVs. Many high pathogenicity avian influenza (HPAI) cases in wild birds due to H5N1 HPAI virus (HPAIV) infection were reported in northern Japan in the winter of 2021–2022. To investigate the epidemiology of HPAIVs brought to Japan from surrounding areas, a genetic analysis of H5 HPAIVs isolated in northern Japan was performed, and the pathogenicity of the HPAIV in chickens was assessed by experimental infection. Based on the genetic analysis of the hemagglutinin gene, pathogenic viruses detected in northern Japan as well as one in Sakhalin, the eastern part of Russia, were classified into the same subgroup as viruses prevalent in Europe in the same season but distinct from those circulating in Asia in winter 2020–2021. High identities of all eight segment sequences of A/crow/Hokkaido/0103B065/2022 (H5N1) (Crow/Hok), the representative isolates in northern Japan in 2022, to European isolates in the same season could also certify the unlikeliness of causing gene reassortment between H5 HPAIVs and viruses locally circulating in Asia. According to intranasal challenge results in six-week-old chickens, 50% of the chicken-lethal dose of Crow/Hok was calculated as 104.5 times of the 50% egg-infectious dose. These results demonstrated that the currently prevalent H5 HPAIVs could spread widely from certain origins throughout the Eurasian continent, including Europe and the Far East, and implied a possibility that contagious viruses are gathered in lakes in the northern territory via bird migration. Active monitoring of wild birds at the global level is essential to estimate the geographical source and spread dynamics of HPAIVs. Many high pathogenicity avian influenza (HPAI) cases in wild birds due to H5N1 HPAI virus (HPAIV) infection were reported in northern Japan in the winter of 2021–2022. To investigate the epidemiology of HPAIVs brought to Japan from surrounding areas, a genetic analysis of H5 HPAIVs isolated in northern Japan was performed, and the pathogenicity of the HPAIV in chickens was assessed by experimental infection. Based on the genetic analysis of the hemagglutinin gene, pathogenic viruses detected in northern Japan as well as one in Sakhalin, the eastern part of Russia, were classified into the same subgroup as viruses prevalent in Europe in the same season but distinct from those circulating in Asia in winter 2020–2021. High identities of all eight segment sequences of A/crow/Hokkaido/0103B065/2022 (H5N1) (Crow/Hok), the representative isolates in northern Japan in 2022, to European isolates in the same season could also certify the unlikeliness of causing gene reassortment between H5 HPAIVs and viruses locally circulating in Asia. According to intranasal challenge results in six-week-old chickens, 50% of the chicken-lethal dose of Crow/Hok was calculated as 10[sup.4.5] times of the 50% egg-infectious dose. These results demonstrated that the currently prevalent H5 HPAIVs could spread widely from certain origins throughout the Eurasian continent, including Europe and the Far East, and implied a possibility that contagious viruses are gathered in lakes in the northern territory via bird migration. Active monitoring of wild birds at the global level is essential to estimate the geographical source and spread dynamics of HPAIVs. |
| Audience | Academic |
| Author | Isoda, Norikazu Hiono, Takahiro Shestopalov, Alexander Sobolev, Ivan Yokoyama, Misako Sakoda, Yoshihiro Nabeshima, Kei Lim, Hew Yik Onuma, Manabu Honjyo, Hisako |
| AuthorAffiliation | 2 International Collaboration Unit, International Institute for Zoonosis Control, Hokkaido University, Kita 20, Nishi 11, Kita-ku, Sapporo 001-0020, Hokkaido, Japan 4 Institute of Virology of the Federal Research Center of Fundamental and Translational Medicine, Novosibirsk State University, Bild 2, Timakova St., Novosibirsk 630117, Russia 3 Ecological Risk Assessment and Control Section for Environmental Biology and Ecosystem, Biology Division, National Institute for Environmental Studies, Onogawa 16-2, Tsukuba 305-8506, Ibaraki, Japan 1 Laboratory of Microbiology, Faculty of Veterinary Medicine, Hokkaido University, Kita 18, Nishi 9, Kita-ku, Sapporo 060-0818, Hokkaido, Japan |
| AuthorAffiliation_xml | – name: 3 Ecological Risk Assessment and Control Section for Environmental Biology and Ecosystem, Biology Division, National Institute for Environmental Studies, Onogawa 16-2, Tsukuba 305-8506, Ibaraki, Japan – name: 1 Laboratory of Microbiology, Faculty of Veterinary Medicine, Hokkaido University, Kita 18, Nishi 9, Kita-ku, Sapporo 060-0818, Hokkaido, Japan – name: 2 International Collaboration Unit, International Institute for Zoonosis Control, Hokkaido University, Kita 20, Nishi 11, Kita-ku, Sapporo 001-0020, Hokkaido, Japan – name: 4 Institute of Virology of the Federal Research Center of Fundamental and Translational Medicine, Novosibirsk State University, Bild 2, Timakova St., Novosibirsk 630117, Russia |
| Author_xml | – sequence: 1 fullname: Isoda, Norikazu – sequence: 2 fullname: Onuma, Manabu – sequence: 3 fullname: Hiono, Takahiro – sequence: 4 fullname: Sobolev, Ivan – sequence: 5 fullname: Lim, Hew Yik – sequence: 6 fullname: Nabeshima, Kei – sequence: 7 fullname: Honjyo, Hisako – sequence: 8 fullname: Yokoyama, Misako – sequence: 9 fullname: Shestopalov, Alexander – sequence: 10 fullname: Sakoda, Yoshihiro |
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| CitedBy_id | crossref_primary_10_1638_2023_0103 crossref_primary_10_3389_fcimb_2024_1325977 crossref_primary_10_1016_j_virusres_2024_199425 crossref_primary_10_1292_jvms_23_0121 crossref_primary_10_3390_pathogens13050380 crossref_primary_10_1038_s41598_023_51024_0 crossref_primary_10_1155_2024_1199876 crossref_primary_10_2807_1560_7917_ES_2023_28_19_2300227 crossref_primary_10_3390_v15112274 crossref_primary_10_3390_v16030358 crossref_primary_10_3390_pathogens12010090 crossref_primary_10_3201_eid2912_230464 crossref_primary_10_3390_v15020265 crossref_primary_10_3390_v15061403 crossref_primary_10_1016_j_virs_2024_04_004 crossref_primary_10_1016_j_tmaid_2023_102634 crossref_primary_10_3390_v15091865 crossref_primary_10_1093_ve_veae027 crossref_primary_10_2903_j_efsa_2023_7786 crossref_primary_10_3389_fvets_2024_1366082 crossref_primary_10_1016_j_cimid_2024_102182 crossref_primary_10_36233_10_36233_0507_4088_213 |
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| SubjectTerms | Amino acids Analysis Avian flu Avian influenza Bird migration Communication Diagnosis Disease transmission Epidemiology Experimental infection Genes Genetic analysis Genetic aspects genetic profile H5N1 Hemagglutinins high pathogenicity avian influenza Infections Lethal dose Pathogenicity Phylogenetics Poultry Viruses wild birds Winter |
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| Title | Detection of New H5N1 High Pathogenicity Avian Influenza Viruses in Winter 2021–2022 in the Far East, Which Are Genetically Close to Those in Europe |
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