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SODA K, MEKATA H, USUI T, ITO H, MATSUI Y, YAMADA K, YAMAGUCHI T, ITO T. Genetic and antigenic analyses of H5N8 and H5N1 subtypes high pathogenicity avian influenza viruses isolated from wild birds and poultry farms in Japan in the winter of 2021-2022. J Vet Med Sci 2023; 85:1180-1189. [PMID: 37766550 PMCID: PMC10686771 DOI: 10.1292/jvms.23-0121] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/20/2023] [Accepted: 09/09/2023] [Indexed: 09/29/2023] Open
Abstract
In the winter of 2021-2022, multiple subtypes (H5N8 and H5N1) of high pathogenicity avian influenza viruses (HPAIVs) were confirmed to be circulating simultaneously in Japan. Here, we phylogenetically and antigenically analyzed HPAIVs that were isolated from infected wild birds, an epidemiological investigation of affected poultry farms, and our own active surveillance study. H5 subtype hemagglutinin (HA) genes of 32 representative HPAIV isolates were classified into clade 2.3.4.4b lineage and subsequently divided into three groups (G2a, G2b, and G2d). All H5N8 HPAIVs were isolated in early winter and had HA genes belonging to the G2a group. H5N1 HPAIVs belong to the G2b and G2d groups. Although G2b viruses were widespread throughout the season, G2d viruses endemically circulated in Northeast Japan after January 2022. Deep sequence analysis showed that the four HPAIVs isolated at the beginning of winter had both N8 and N1 subtypes of neuraminidase genes. Environmental water-derived G2a HPAIV, A/water/Tottori/NK1201-2/2021 (H5N8), has unique polymerase basic protein 1 and nucleoprotein genes, similar to those of low pathogenicity avian influenza viruses (LPAIVs). These results indicate that multiple H5 HPAIVs and LPAIVs disseminated to Japan via transboundary winter migration of wild birds, and HPAIVs with novel gene constellations could emerge in these populations. Cross-neutralization test revealed that G2a H5N8 HPAIVs were antigenically distinct from a G2b H5N1 HPAIV, suggesting that antibody pressure in wild birds was involved in the transition of the HPAIV groups during the season.
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Affiliation(s)
- Kosuke SODA
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Hirohisa MEKATA
- Center for Animal Disease Control, University of Miyazaki, Miyazaki, Japan
| | - Tatsufumi USUI
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Hiroshi ITO
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Yuto MATSUI
- Center for Animal Disease Control, University of Miyazaki, Miyazaki, Japan
| | - Kentaro YAMADA
- Department of Veterinary Sciences, Faculty of Agriculture, University of Miyazaki, Miyazaki, Japan
| | - Tsuyoshi YAMAGUCHI
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Toshihiro ITO
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
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Taniguchi K, Ando Y, Kobayashi M, Toba S, Nobori H, Sanaki T, Noshi T, Kawai M, Yoshida R, Sato A, Shishido T, Naito A, Matsuno K, Okamatsu M, Sakoda Y, Kida H. Characterization of the In Vitro and In Vivo Efficacy of Baloxavir Marboxil against H5 Highly Pathogenic Avian Influenza Virus Infection. Viruses 2022; 14:v14010111. [PMID: 35062315 PMCID: PMC8777714 DOI: 10.3390/v14010111] [Citation(s) in RCA: 5] [Impact Index Per Article: 2.5] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/28/2021] [Accepted: 12/31/2021] [Indexed: 02/04/2023] Open
Abstract
Human infections caused by the H5 highly pathogenic avian influenza virus (HPAIV) sporadically threaten public health. The susceptibility of HPAIVs to baloxavir acid (BXA), a new class of inhibitors for the influenza virus cap-dependent endonuclease, has been confirmed in vitro, but it has not yet been fully characterized. Here, the efficacy of BXA against HPAIVs, including recent H5N8 variants, was assessed in vitro. The antiviral efficacy of baloxavir marboxil (BXM) in H5N1 virus-infected mice was also investigated. BXA exhibited similar in vitro activities against H5N1, H5N6, and H5N8 variants tested in comparison with seasonal and other zoonotic strains. Compared with oseltamivir phosphate (OSP), BXM monotherapy in mice infected with the H5N1 HPAIV clinical isolate, the A/Hong Kong/483/1997 strain, also caused a significant reduction in viral titers in the lungs, brains, and kidneys, thereby preventing acute lung inflammation and reducing mortality. Furthermore, compared with BXM or OSP monotherapy, combination treatments with BXM and OSP using a 48-h delayed treatment model showed a more potent effect on viral replication in the organs, accompanied by improved survival. In conclusion, BXM has a potent antiviral efficacy against H5 HPAIV infections.
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Affiliation(s)
- Keiichi Taniguchi
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
- Department of Disease Control, Faculty of Veterinary Medicine, Hokkaido University, Hokkaido 060-0818, Japan; (M.O.); (Y.S.)
| | - Yoshinori Ando
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Masanori Kobayashi
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Shinsuke Toba
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
- International Institute for Zoonosis Control, Hokkaido University, Hokkaido 001-0020, Japan; (K.M.); (H.K.)
| | - Haruaki Nobori
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Takao Sanaki
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Takeshi Noshi
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Makoto Kawai
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Ryu Yoshida
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Akihiko Sato
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
- International Institute for Zoonosis Control, Hokkaido University, Hokkaido 001-0020, Japan; (K.M.); (H.K.)
| | - Takao Shishido
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
- Correspondence: ; Tel.: +81-6-6331-7263
| | - Akira Naito
- Shionogi & Co., Ltd., Osaka 561-0825, Japan; (K.T.); (Y.A.); (M.K.); (S.T.); (H.N.); (T.S.); (T.N.); (M.K.); (R.Y.); (A.S.); (A.N.)
| | - Keita Matsuno
- International Institute for Zoonosis Control, Hokkaido University, Hokkaido 001-0020, Japan; (K.M.); (H.K.)
- Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, Hokkaido 001-0020, Japan
| | - Masatoshi Okamatsu
- Department of Disease Control, Faculty of Veterinary Medicine, Hokkaido University, Hokkaido 060-0818, Japan; (M.O.); (Y.S.)
| | - Yoshihiro Sakoda
- Department of Disease Control, Faculty of Veterinary Medicine, Hokkaido University, Hokkaido 060-0818, Japan; (M.O.); (Y.S.)
- Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, Hokkaido 001-0020, Japan
| | - Hiroshi Kida
- International Institute for Zoonosis Control, Hokkaido University, Hokkaido 001-0020, Japan; (K.M.); (H.K.)
- Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, Hokkaido 001-0020, Japan
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Uno Y, Soda K, Tomioka Y, Ito T, Usui T, Yamaguchi T. Pathogenicity of clade 2.3.2.1 H5N1 highly pathogenic avian influenza virus in American kestrel ( Falco sparverius). Avian Pathol 2020; 49:515-525. [PMID: 32619103 DOI: 10.1080/03079457.2020.1787337] [Citation(s) in RCA: 6] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 02/06/2023]
Abstract
Birds of prey, including endangered species, have been infected with H5 highly pathogenic avian influenza viruses (HPAIVs) in several countries. In this present study, we assessed the pathogenicity of the clade 2.3.2.1 H5N1 HPAIV in American kestrels (Falco sparverius) with a view to preventing future outbreaks in raptors. The kestrels were intranasally inoculated with the virus or fed the meat of chicks that had died from viral infection. Kestrels in both groups initially had reduced food intake, showed clinical signs such as depression and neurologic manifestations, and succumbed to the infection within 6 days. The kestrels primarily shed the virus orally from 1 day post-inoculation until death, with an average titre of 104.5-5.7 EID50/ml, which is comparable to the inoculum titre. The viruses replicated in almost all tested tissues; notably, the feather calamuses also contained infectious virions and/or viral genes. Pancreatic lesions were present in several infected birds, as shown in previous cases of HPAIV infection in raptors. These results indicate that kestrels are highly susceptible to infection by clade 2.3.2.1 H5 HPAIVs, which readily occurs through the consumption of infected bird carcasses. Early detection and removal of HPAIV infected carcasses in the field is essential for preventing outbreaks in raptors. RESEARCH HIGHLIGHTS Clade 2.3.2.1 H5 HPAIV caused lethal infection in American kestrels. Kestrels with the HPAIV showed neurologic signs and eye disorders. The HPAIV replicated in systemic tissues of kestrels, and was orally shed. The HPAIV was recovered from feather calamus of kestrels.
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Affiliation(s)
- Yukiko Uno
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Kosuke Soda
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Yukiko Tomioka
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Toshihiro Ito
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Tatsufumi Usui
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
| | - Tsuyoshi Yamaguchi
- Avian Zoonosis Research Center, Faculty of Agriculture, Tottori University, Tottori, Japan
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H13 influenza viruses in wild birds have undergone genetic and antigenic diversification in nature. Virus Genes 2018; 54:543-549. [PMID: 29796944 DOI: 10.1007/s11262-018-1573-0] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/27/2018] [Accepted: 05/19/2018] [Indexed: 10/16/2022]
Abstract
Among 16 haemagglutinin (HA) subtypes of avian influenza viruses (AIVs), H13 AIVs have rarely been isolated in wild waterfowl. H13 AIVs cause asymptomatic infection and are maintained mainly in gull and tern populations; however, the recorded antigenic information relating to the viruses has been limited. In this study, 2 H13 AIVs, A/duck/Hokkaido/W345/2012 (H13N2) and A/duck/Hokkaido/WZ68/2012 (H13N2), isolated from the same area in the same year in our surveillance, were genetically and antigenically analyzed with 10 representative H13 strains including a prototype strain, A/gull/Maryland/704/1977 (H13N6). The HA genes of H13 AIVs were phylogenetically divided into 3 groups (I, II, and III). A/duck/Hokkaido/W345/2012 (H13N2) was genetically classified into Group III. This virus was distinct from a prototype strain, A/gull/Maryland/704/1977 (H13N6), and the virus, A/duck/Hokkaido/WZ68/2012 (H13N2), both belonging to Group I. Antigenic analysis indicated that the viruses of Group I were antigenically closely related to those of Group II, but distinct from those of Group III, including A/duck/Hokkaido/W345/2012 (H13N2). In summary, our study indicates that H13 AIVs have undergone antigenic diversification in nature.
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Shibata A, Hiono T, Fukuhara H, Sumiyoshi R, Ohkawara A, Matsuno K, Okamatsu M, Osaka H, Sakoda Y. Isolation and characterization of avian influenza viruses from raw poultry products illegally imported to Japan by international flight passengers. Transbound Emerg Dis 2017; 65:465-475. [DOI: 10.1111/tbed.12726] [Citation(s) in RCA: 22] [Impact Index Per Article: 3.1] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/13/2017] [Indexed: 01/03/2023]
Affiliation(s)
- A. Shibata
- Exotic Disease Inspection Division; Laboratory Department; Animal Quarantine Service; Ministry of Agriculture, Forestry and Fisheries; Tokoname Aichi Japan
| | - T. Hiono
- Laboratory of Microbiology; Department of Disease Control; Graduate School of Veterinary Medicine; Hokkaido University; Sapporo Hokkaido Japan
| | - H. Fukuhara
- Microbiological Examination Division; Laboratory Department; Animal Quarantine Service; Ministry of Agriculture, Forestry and Fisheries; Yokohama Kanagawa Japan
| | - R. Sumiyoshi
- Exotic Disease Inspection Division; Laboratory Department; Animal Quarantine Service; Ministry of Agriculture, Forestry and Fisheries; Tokoname Aichi Japan
| | - A. Ohkawara
- Laboratory of Microbiology; Department of Disease Control; Graduate School of Veterinary Medicine; Hokkaido University; Sapporo Hokkaido Japan
| | - K. Matsuno
- Laboratory of Microbiology; Department of Disease Control; Graduate School of Veterinary Medicine; Hokkaido University; Sapporo Hokkaido Japan
- Global Station for Zoonosis Control; Global Institution for Collaborative Research and Education (GI-CoRE); Hokkaido University; Sapporo Hokkaido Japan
| | - M. Okamatsu
- Laboratory of Microbiology; Department of Disease Control; Graduate School of Veterinary Medicine; Hokkaido University; Sapporo Hokkaido Japan
| | - H. Osaka
- Exotic Disease Inspection Division; Laboratory Department; Animal Quarantine Service; Ministry of Agriculture, Forestry and Fisheries; Tokoname Aichi Japan
| | - Y. Sakoda
- Laboratory of Microbiology; Department of Disease Control; Graduate School of Veterinary Medicine; Hokkaido University; Sapporo Hokkaido Japan
- Global Station for Zoonosis Control; Global Institution for Collaborative Research and Education (GI-CoRE); Hokkaido University; Sapporo Hokkaido Japan
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Hiono T, Okamatsu M, Matsuno K, Haga A, Iwata R, Nguyen LT, Suzuki M, Kikutani Y, Kida H, Onuma M, Sakoda Y. Characterization of H5N6 highly pathogenic avian influenza viruses isolated from wild and captive birds in the winter season of 2016-2017 in Northern Japan. Microbiol Immunol 2017; 61:387-397. [DOI: 10.1111/1348-0421.12506] [Citation(s) in RCA: 22] [Impact Index Per Article: 3.1] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/18/2017] [Revised: 07/20/2017] [Accepted: 08/12/2017] [Indexed: 11/29/2022]
Affiliation(s)
- Takahiro Hiono
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
| | - Masatoshi Okamatsu
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
| | - Keita Matsuno
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
- Global Station for Zoonosis Control; Global Institution for Collaborative Research and Education (GI-CoRE); Japan
| | - Atsushi Haga
- National Institute for Environmental Studies; Tsukuba; Ibaraki 305-8506 Japan
| | - Ritsuko Iwata
- National Institute for Environmental Studies; Tsukuba; Ibaraki 305-8506 Japan
| | - Lam Thanh Nguyen
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
| | - Mizuho Suzuki
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
| | - Yuto Kikutani
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
| | - Hiroshi Kida
- Global Station for Zoonosis Control; Global Institution for Collaborative Research and Education (GI-CoRE); Japan
- Research Center for Zoonosis Control; Hokkaido University; Sapporo Hokkaido 001-0020 Japan
| | - Manabu Onuma
- National Institute for Environmental Studies; Tsukuba; Ibaraki 305-8506 Japan
| | - Yoshihiro Sakoda
- Laboratory of Microbiology; Department of Disease Control; Faculty of Veterinary Medicine; Japan
- Global Station for Zoonosis Control; Global Institution for Collaborative Research and Education (GI-CoRE); Japan
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Nguyen LT, Nishi T, Shichinohe S, Chu DH, Hiono T, Matsuno K, Okamatsu M, Kida H, Sakoda Y. Selection of antigenic variants of an H5N1 highly pathogenic avian influenza virus in vaccinated chickens. Virology 2017; 510:252-261. [PMID: 28756116 DOI: 10.1016/j.virol.2017.07.030] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/26/2017] [Revised: 07/24/2017] [Accepted: 07/25/2017] [Indexed: 01/04/2023]
Abstract
Vaccination-primed immunity in poultry has been suggested for selection of antigenically drifted highly pathogenic avian influenza viruses (HPAIVs). In this study, we performed two consecutive passage studies of an H5N1 HPAIV in vaccinated chickens, namely, study-I and study-II, to select antigenic variants under immune pressure from the vaccination. In study-I, nine consecutive passages of a wild-type H5N1 HPAIV were carried out in chickens vaccinated with the homologous challenge strain. Antigenically drifted variants with mutations at position 179 in the hemagglutinin (HA) were selected after three passages. Similarly, in study-II, a vaccination-mediated antigenic variant isolated in study-I was used as the vaccine and challenge strain to confirm further antigenic drift after updating the vaccine; after the third passage, additional antigenic variants with a mutation at position 256 in the HA were selected. Thus, our study demonstrated the contribution of vaccination in the selection of antigenic variants of H5 HPAIVs in chickens.
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Affiliation(s)
- Lam Thanh Nguyen
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan; Department of Veterinary Medicine, College of Agriculture and Applied Biology, Can Tho University, Campus II, 3/2 street, Ninh Kieu, Can Tho, Vietnam
| | - Tatsuya Nishi
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan
| | - Shintaro Shichinohe
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan
| | - Duc-Huy Chu
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan
| | - Takahiro Hiono
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan
| | - Keita Matsuno
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan; Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, North 20, West 10, Kita-ku, Sapporo, Hokkaido 001-0020, Japan
| | - Masatoshi Okamatsu
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan
| | - Hiroshi Kida
- Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, North 20, West 10, Kita-ku, Sapporo, Hokkaido 001-0020, Japan; Research Center for Zoonosis Control, Hokkaido University, North 20, West 10, Kita-ku, Sapporo, Hokkaido 001-0020, Japan
| | - Yoshihiro Sakoda
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, North 18, West 9, Kita-ku, Sapporo, Hokkaido 060-0818, Japan; Global Station for Zoonosis Control, Global Institution for Collaborative Research and Education (GI-CoRE), Hokkaido University, North 20, West 10, Kita-ku, Sapporo, Hokkaido 001-0020, Japan.
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Experimental infection of highly and low pathogenic avian influenza viruses to chickens, ducks, tree sparrows, jungle crows, and black rats for the evaluation of their roles in virus transmission. Vet Microbiol 2015; 182:108-15. [PMID: 26711036 DOI: 10.1016/j.vetmic.2015.11.009] [Citation(s) in RCA: 25] [Impact Index Per Article: 2.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/27/2015] [Revised: 11/09/2015] [Accepted: 11/12/2015] [Indexed: 11/22/2022]
Abstract
Highly pathogenic avian influenza viruses (HPAIVs) have spread in both poultry and wild birds. Determining transmission routes of these viruses during an outbreak is essential for the control of avian influenza. It has been widely postulated that migratory ducks play crucial roles in the widespread dissemination of HPAIVs in poultry by carrying viruses along with their migrations; however close contacts between wild migratory ducks and poultry are less likely in modern industrial poultry farming settings. Therefore, we conducted experimental infections of HPAIVs and low pathogenic avian influenza viruses (LPAIVs) to chickens, domestic ducks, tree sparrows, jungle crows, and black rats to evaluate their roles in virus transmission. The results showed that chickens, ducks, sparrows, and crows were highly susceptible to HPAIV infection. Significant titers of virus were recovered from the sparrows and crows infected with HPAIVs, which suggests that they potentially play roles of transmission of HPAIVs to poultry. In contrast, the growth of LPAIVs was limited in each of the animals tested compared with that of HPAIVs. The present results indicate that these common synanthropes play some roles in influenza virus transmission from wild birds to poultry.
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Abdallah F, Hassanin O. Positive regulation of humoral and innate immune responses induced by inactivated Avian Influenza Virus vaccine in broiler chickens. Vet Res Commun 2015; 39:211-6. [PMID: 26329833 DOI: 10.1007/s11259-015-9644-3] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/03/2015] [Accepted: 08/24/2015] [Indexed: 11/30/2022]
Abstract
Avian Influenza (AI) vaccines are widely used for mammals and birds in a trial to eliminate the Avian Influenza virus (AIV) infection from the world. However and up till now the virus is still existed via modulation of its antigenic structure to evade the pressure of host immune responses. For a complete understanding of the immune responses following AI vaccination in chickens, the modulations of the chickens humoral immune responses and interferon-alpha signaling pathway, as a fundamental part of the innate immune responses, were investigated. In our study, we measured the humoral immune response using hemagglutination-inhibition (HI) and enzyme-linked immunosorbent assay (ELISA) tests. In addition, chicken interferon-alpha pathway components was measured at RNA levels using Quantitative Real-time PCR (qRT-PCR) following one dose of inactivated H5N1 influenza vaccine at 14 days of age. In this study, the protective levels of humoral antibody responses were observed at 14, 21 and 28 days following immunization with inactivated (Re-1/H5N1) AI vaccine. In the chicken spleen cells, up regulation in the chicken interferon-alpha pathway components (MX1 & IRF7) was existed as early as 48 h post vaccination and remained until 28 days post vaccination at the endogenous state. However, after the recall with ex-vivo stimulation, the up regulation was more pronounced in the transcriptional factor (IRF7) compared to the antiviral gene (MX1) at 28 days post vaccination. So far, from our results it appears that the inactivated H5N1 vaccine can trigger the chicken interferon-alpha signaling pathway as well as it can elicit protective humoral antibody responses.
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Affiliation(s)
- Fatma Abdallah
- Department of Virology, Faculty of Veterinary Medicine, Zagazig University, Zagazig, 445119, Egypt.
| | - Ola Hassanin
- Department of Avian and Rabbit Medicine, Faculty of Veterinary Medicine, Zagazig University, Zagazig, Egypt
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Gamoh K, Nakamizo M, Okamatsu M, Sakoda Y, Kida H, Suzuki S. Protective efficacy of stockpiled vaccine against H5N8 highly pathogenic avian influenza virus isolated from a chicken in Kumamoto prefecture, Japan, in 2014. J Vet Med Sci 2015; 78:139-42. [PMID: 26290130 PMCID: PMC4751133 DOI: 10.1292/jvms.15-0324] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/22/2022] Open
Abstract
H5 highly pathogenic avian influenza (HPAI) viruses have spread worldwide, and antigenic variants of different clades have been selected. In this study, the national stockpiled vaccine prepared from A/duck/Hokkaido/Vac-1/2004 (H5N1) strain was evaluated for the protective efficacy against H5N8 HPAI virus isolated in Kumamoto prefecture, Japan, in April 2014. In the challenge test, all of the vaccinated chickens survived without showing any clinical signs and reduced virus shedding. It was concluded that the present stockpiled vaccine was effective against the H5N8 HPAI virus.
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Affiliation(s)
- Koichiro Gamoh
- National Veterinary Assay Laboratory, Ministry of Agriculture, Forestry and Fisheries, 1-15-1 Tokura, Kokubunji, Tokyo 185-8511, Japan
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Genetic and antigenic characterization of H5 and H7 influenza viruses isolated from migratory water birds in Hokkaido, Japan and Mongolia from 2010 to 2014. Virus Genes 2015; 51:57-68. [PMID: 26036326 DOI: 10.1007/s11262-015-1214-9] [Citation(s) in RCA: 17] [Impact Index Per Article: 1.9] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/09/2015] [Accepted: 05/23/2015] [Indexed: 12/24/2022]
Abstract
Migratory water birds are the natural reservoir of influenza A viruses. H5 and H7 influenza viruses are isolated over the world and also circulate among poultry in Asia. In 2010, two H5N1 highly pathogenic avian influenza viruses (HPAIVs) were isolated from fecal samples of water birds on the flyway of migration from Siberia, Russia to the south in Hokkaido, Japan. H7N9 viruses are sporadically isolated from humans and circulate in poultry in China. To monitor whether these viruses have spread in the wild bird population, we conducted virological surveillance of avian influenza in migratory water birds in autumn from 2010 to 2014. A total of 8103 fecal samples from migratory water birds were collected in Japan and Mongolia, and 350 influenza viruses including 13 H5 and 19 H7 influenza viruses were isolated. A phylogenetic analysis revealed that all isolates are genetically closely related to viruses circulating among wild water birds. The results of the antigenic analysis indicated that the antigenicity of viruses in wild water birds is highly stable despite their nucleotide sequence diversity but is distinct from that of HPAIVs recently isolated in Asia. The present results suggest that HPAIVs and Chinese H7N9 viruses were not predominantly circulating in migratory water birds; however, continued monitoring of H5 and H7 influenza viruses both in domestic and wild birds is recommended for the control of avian influenza.
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12
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Fluorescent immunochromatography for rapid and sensitive typing of seasonal influenza viruses. PLoS One 2015; 10:e0116715. [PMID: 25650570 PMCID: PMC4317186 DOI: 10.1371/journal.pone.0116715] [Citation(s) in RCA: 18] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/10/2014] [Accepted: 12/13/2014] [Indexed: 02/03/2023] Open
Abstract
Lateral flow tests also known as Immunochromatography (IC) is an antigen-detection method conducted on a nitrocellulose membrane that can be completed in less than 20 min. IC has been used as an important rapid test for clinical diagnosis and surveillance of influenza viruses, but the IC sensitivity is relatively low (approximately 60%) and the limit of detection (LOD) is as low as 10³ pfu per reaction. Recently, we reported an improved IC assay using antibodies conjugated with fluorescent beads (fluorescent immunochromatography; FLIC) for subtyping H5 influenza viruses (FLIC-H5). Although the FLIC strip must be scanned using a fluorescent reader, the sensitivity (LOD) is significantly improved over that of conventional IC methods. In addition, the antibodies which are specific against the subtypes of influenza viruses cannot be available for the detection of other subtypes when the major antigenicity will be changed. In this study, we established the use of FLIC to type seasonal influenza A and B viruses (FLIC-AB). This method has improved sensitivity to 100-fold higher than that of conventional IC methods when we used several strains of influenza viruses. In addition, FLIC-AB demonstrated the ability to detect influenza type A and influenza type B viruses from clinical samples with high sensitivity and specificity (Type A: sensitivity 98.7% (74/75), specificity 100% (54/54), Type B: sensitivity 100% (90/90), specificity 98.2% (54/55) in nasal swab samples) in comparison to the results of qRT-PCR. And furthermore, FLIC-AB performs better in the detection of early stage infection (under 13h) than other conventional IC methods. Our results provide new strategies to prevent the early-stage transmission of influenza viruses in humans during both seasonal outbreaks and pandemics.
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13
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Introduction of an update system for vaccine strains of veterinary influenza vaccines in Japan. Biologicals 2015; 43:150-2. [PMID: 25614371 DOI: 10.1016/j.biologicals.2014.12.003] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/05/2014] [Accepted: 12/20/2014] [Indexed: 11/22/2022] Open
Abstract
The basic countermeasures used to control highly pathogenic avian influenza (HPAI) are early detection procedures and the culling of affected chickens. However, if successive HPAI outbreaks occur, the vaccination may be an option for controlling HPAI. Therefore, avian influenza (AI) vaccines are stocked by the Japanese government. By contrast, equine influenza (EI) vaccine is an effective tool for preventing or controlling EI. Because antigenic drifts affect the efficacy of AI and EI vaccines, the vaccine strains should be updated rapidly. However, the development and registration of veterinary vaccines usually takes several years. In response to this issue, the Ministry of Agriculture, Forestry, and Fisheries (MAFF) established a system that allows AI and EI vaccine strains to be updated rapidly. National Veterinary Assay Laboratory, MAFF, established a vaccine strains selection committee for veterinary influenza vaccine. The main agendas involve determining whether the current vaccine strains need to be updated and selecting the most appropriate vaccine strains. The committee concluded that A/duck/Hokkaido/Vac-3/2007(H5N1) was added to the strains of stockpiled AI vaccines and that the EI vaccine strains did not need to be changed, but that the clade 2 viruses of the Florida sub-lineage strain, A/equine/Yokohama/aq13/2010(H3N8) was added to the EI vaccine strain.
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14
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Park EH, Song BM, Yum J, Kim JA, Oh SK, Kim HS, Cho GJ, Seo SH. Protective efficacy of a single dose of baculovirus hemagglutinin-based vaccine in chickens and ducks against homologous and heterologous H5N1 virus infections. Viral Immunol 2014; 27:449-62. [PMID: 25211640 DOI: 10.1089/vim.2014.0029] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/12/2022] Open
Abstract
Outbreaks of the highly pathogenic H5N1 virus in poultry and humans are ongoing. Vaccination is an efficient method for prevention of H5N1 infection. Using chickens and ducks, we assessed the efficacy of a vaccine comprising H5N1 hemagglutinin (HA) protein produced in a baculovirus expression system. The immunized chickens and ducks were protected against lethal infection by H5N1 in an antigen dose-dependent manner. Complete protection against homologous challenge and partial protection against heterologous challenge were achieved in chickens immunized with 5 μg HA protein and in ducks immunized with 10 μg HA protein. The IgG antibody subtype was mainly detected in the sera and tissues, including the lungs. The neuraminidase (NA) inhibition assay was negative in immunized chickens and ducks. Our results indicated that the expressed HA protein by baculovirus was immunogenic to both chickens and ducks, and the immunized chickens and ducks were protected from the lethal infections of highly pathogenic H5N1 influenza virus, though ducks required more HA protein than chickens to be protected. Also, baculovirus HA-vaccinated poultry can be differentiated from infected poultry by NA inhibition assay.
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Affiliation(s)
- Eun Hye Park
- 1 Laboratory of Influenza Research, Chungnam National University , Daejeon, Republic of Korea
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15
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Uchida Y, Takemae N, Saito T. Application of reverse genetics for producing attenuated vaccine strains against highly pathogenic avian influenza viruses. J Vet Med Sci 2014; 76:1111-7. [PMID: 24805906 PMCID: PMC4155191 DOI: 10.1292/jvms.13-0620] [Citation(s) in RCA: 10] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/22/2022] Open
Abstract
In this study, reverse genetics was applied to produce vaccine candidate strains against highly pathogenic avian influenza viruses (HPAIVs) of the H5N1 subtype. The H5 subtype vaccine strains were generated by a reverse genetics method in a biosafety level 2 facility. The strain contained the HA gene from the H5N1 subtype HPAIV attenuated by genetic modification at the cleavage site, the NA gene derived from the H5N1 subtype HPAI or the H5N3 subtype of avian influenza virus and internal genes from A/Puerto Rico/8/34. Vaccination with an inactivated recombinant virus with oil-emulsion completely protected chickens from a homologous viral challenge with a 640 HAU or 3,200 HAU/vaccination dose. Vaccination with a higher dose of antigen, 3,200 HAU, was effective at increasing survival and efficiently reduced viral shedding even when challenged by a virus of a different HA clade. The feasibility of differentiation of infected from vaccinated animals (DIVA) was demonstrated against a challenge with H5N1 HPAIVs when the recombinant H5N3 subtype viruses were used as the antigens of the vaccine. Our study demonstrated that the use of reverse genetics would be an option to promptly produce an inactivated vaccine with better matching of antigenicity to a circulating strain.
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Affiliation(s)
- Yuko Uchida
- Influenza and Prion Disease Research Center, National Institute of Animal Health, National Agriculture and Food Research Organization (NARO), Kannondai, Tsukuba, Ibaraki 305-0856, Japan
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16
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Nakayama M, Shichinohe S, Itoh Y, Ishigaki H, Kitano M, Arikata M, Pham VL, Ishida H, Kitagawa N, Okamatsu M, Sakoda Y, Ichikawa T, Tsuchiya H, Nakamura S, Le QM, Ito M, Kawaoka Y, Kida H, Ogasawara K. Protection against H5N1 highly pathogenic avian and pandemic (H1N1) 2009 influenza virus infection in cynomolgus monkeys by an inactivated H5N1 whole particle vaccine. PLoS One 2013; 8:e82740. [PMID: 24376571 PMCID: PMC3871535 DOI: 10.1371/journal.pone.0082740] [Citation(s) in RCA: 20] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/30/2013] [Accepted: 10/27/2013] [Indexed: 01/14/2023] Open
Abstract
H5N1 highly pathogenic avian influenza virus (HPAIV) infection has been reported in poultry and humans with expanding clade designations. Therefore, a vaccine that induces immunity against a broad spectrum of H5N1 viruses is preferable for pandemic preparedness. We established a second H5N1 vaccine candidate, A/duck/Hokkaido/Vac-3/2007 (Vac-3), in our virus library and examined the efficacy of inactivated whole particles of this strain against two clades of H5N1 HPAIV strains that caused severe morbidity in cynomolgus macaques. Virus propagation in vaccinated macaques infected with either of the H5N1 HPAIV strains was prevented compared with that in unvaccinated macaques. This vaccine also prevented propagation of a pandemic (H1N1) 2009 virus in macaques. In the vaccinated macaques, neutralization activity, which was mainly shown by anti-hemagglutinin antibody, against H5N1 HPAIVs in plasma was detected, but that against H1N1 virus was not detected. However, neuraminidase inhibition activity in plasma and T-lymphocyte responses in lymph nodes against H1N1 virus were detected. Therefore, cross-clade and heterosubtypic protective immunity in macaques consisted of humoral and cellular immunity induced by vaccination with Vac-3.
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Affiliation(s)
- Misako Nakayama
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Shintaro Shichinohe
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, Sapporo, Japan
| | - Yasushi Itoh
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Hirohito Ishigaki
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Mitsutaka Kitano
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Masahiko Arikata
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan ; Department of Otorhinolaryngology-Head and Neck Surgery, Shiga University of Medical Science, Otsu, Japan
| | - Van Loi Pham
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Hideaki Ishida
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Naoko Kitagawa
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
| | - Masatoshi Okamatsu
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, Sapporo, Japan
| | - Yoshihiro Sakoda
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, Sapporo, Japan
| | - Takaya Ichikawa
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, Sapporo, Japan
| | - Hideaki Tsuchiya
- Research Center for Animal Life Science, Shiga University of Medical Science, Otsu, Japan
| | - Shinichiro Nakamura
- Research Center for Animal Life Science, Shiga University of Medical Science, Otsu, Japan
| | - Quynh Mai Le
- National Institute of Hygiene and Epidemiology, Hanoi, Vietnam
| | - Mutsumi Ito
- Division of Virology, Department of Microbiology and Immunology, Institute of Medical Science, University of Tokyo, Tokyo, Japan
| | - Yoshihiro Kawaoka
- Division of Virology, Department of Microbiology and Immunology, Institute of Medical Science, University of Tokyo, Tokyo, Japan ; Department of Pathobiological Sciences, University of Wisconsin-Madison, Madison, Wisconsin, United States of America
| | - Hiroshi Kida
- Laboratory of Microbiology, Department of Disease Control, Graduate School of Veterinary Medicine, Hokkaido University, Sapporo, Japan ; Research Center for Zoonosis Control, Hokkaido University, Sapporo, Japan
| | - Kazumasa Ogasawara
- Division of Pathology and Disease Regulation, Department of Pathology, Shiga University of Medical Science, Otsu, Japan
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