Limited susceptibility of pigeons experimentally inoculated with H5N1 highly pathogenic avian influenza viruses

An experimental infection study was performed using pigeons reared for racing or meat production in Japan and clade 2.2 and 2.3.2 isolates of H5N1 highly pathogenic avian influenza virus to evaluate the possible role of pigeons in virus transmission to poultry. In experiment 1, when 20 pigeons were intranasally inoculated with high or low viral doses, no inoculated pigeon exhibited clinical signs for 14 days. Drinking water and almost all swab samples were negative for virus isolation. Virus isolation was positive in 3 oral swab samples from 2 pigeons from day 2 through 4 postinoculation, but viral titers of positive samples were extremely low. Immunohistochemical analysis for virus detection was negative in all tissue samples. Along with seroconversion in a limited number of pigeons postinoculation, these results suggest that pigeons have limited susceptibility to the virus used for experimental infection. In experiment 2, when uninoculated chickens were housed with virus-inoculated pigeons, all pigeons and contact chickens survived for 14 days without exhibiting any clinical signs. According to serological analysis, the chickens did not exhibit seroconversion after close contact with inoculated pigeons. Our data suggest that the risk posed by pigeons with respect to the transmission of the H5N1 highly pathogenic avian influenza virus to poultry would be less than that for other susceptible avian species.     

Experimental assessment of the pathogenicity of H5N1 influenza A viruses isolated in Japan

We examined the pathogenicity for chickens of two H5N1 avian influenza viruses isolated in Japan, A/chicken/ Yamaguchi/7/2004 (Ck/Yamaguchi/7/04) isolated from outbreaks in commercial layer chickens, and A/duck/Yokohama/aq10/ 2003 (Dk/Yokohama/aq10/03) isolated from duck meat imported from China. All chickens inoculated intranasally with either strain died, and the viruses were reisolated from all organs examined. However, both the mean time of onset of clinical signs and the mean death time of Ck/Yamaguchi/7/04 were shorter than those of Dk/Yokohama/aq10/03.     

Intracerebral pathogenicity for chickens of avian influenza viruses isolated from free-living waterfowl in Japan

The pathogenicity for chickens of 91 strains of avian influenza A virus isolated from such free-living waterfowl as whistling swan, pintail, tufted duck, mallard and black-tailed gull in Japan was tested. The majority of the virus strains infected and were pathogenic for the chickens. The virulence of these viruses seemed not to be as high as that of fowl plague virus. There were no significant differences in the intracerebral index score among the viruses belonging to the same subtype, irrespective of year of isolation or host.     

Pathogenicity in quails and mice of H5N1 highly pathogenic avian influenza viruses isolated from ducks

In our study, the pathogenicity of H5N1 influenza A viruses circulating in waterfowls in Southern China was investigated. Three H5N1 highly pathogenic avian influenza (HPAI) viruses isolated from ducks, A/Duck/Guangdong/383/2008(DK383), A/Duck/Guangdong/378/2008(DK378) and A/Duck/Guangdong/212/2004(DK212) were inoculated at 10(6) fifty-percent egg infectious doses (EID(50)) into ducks, quails and mice and showed varying levels of pathogenicity. In ducks, the mortality rates ranged from 0 to 60% and the mean death time (MDT) was 0-6.7 days post-inoculation (DPI). While the viruses were highly pathogenic in quails, resulting in 83.3-100% mortality and the MDT of 2.3-3 DPI, they were completely lethal in mice (100% mortality). The viruses replicated in many organs of ducks and quails and were found in the brain, and kidney, lung and spleen of the mice. Phylogenetic analysis revealed that DK383 and DK378 viruses of clade 2.3.2 belonged to genotype 11, while DK212 virus of clade 9 was genotype 3. Our study illustrated H5N1 influenza viruses within Clade 2.3.2 and 9 from duck in Southern China had very highly pathogenicity to Japanese quails and BALB/c mice, but viruses within Clade 2.3.2 had more highly lethality than those of clade 9 to Muscovy ducks. Therefore, they had posed a continued challenge for disease control and public health.     

H5N1亚型禽流感病毒对鸭的致病性研究

为评估H5N1亚型禽流感病毒(AIV)在实验室环境下对鸭的致病力,本研究以无特殊病原(SPF)鸭为模型,对我国近年分离的7株病毒进行了致病力分析。结果发现其中4株病毒对鸭致死率为100%,2株病毒对鸭的致死率分别为60%和80%,另外1株病毒,A/goose/Hubei/51/05(GS/HB/51/05),对鸭无致病力。本研究还发现,与高致病力毒株一样,GS/HB/51/05也可在鸭体内呈全身性复制,并且可通过喉头和泻殖腔向外排泄。我们推测GS/HB/51/05可能是中国南方出现的其他对鸭呈高致病力的H5N1病毒的祖先,对这些病毒的系统研究,可揭示H5N1亚型AIV对鸭的致病力遗传机制。     

Pathogenicity and transmission of H5N1 avian influenza viruses in different birds

In this study, we selected three H5N1 highly pathogenic avian influenza viruses (HPAIVs), A/Goose/Guangdong/1/1996 (clades 0), A/Duck/Guangdong/E35/2012 (clade 2.3.2.1) and A/Chicken/Henan/B30/2012 (clade 7.2) isolated from different birds in China, to investigate the pathogenicity and transmission of the viruses in terrestrial birds and waterfowl. To observe the replication and shedding of the H5N1 HPAIVs in birds, the chickens were inoculated intranasally with 10⁶ EID₅₀ of GSGD/1/96, 10³ EID₅₀ of DkE35 and CkB30, and the ducks and geese were inoculated intranasally with 10⁶ EID₅₀ of each virus. Meanwhile, the naive contact groups were set up to detect the transmission of the viruses in tested birds. Our results showed that DkE35 was highly pathogenic to chickens and geese, but not fatal to ducks. It could be detected from all the tested organs, oropharyngeal and cloacal swabs, and could transmit to the naive contact birds. GSGD/1/96 could infect chickens, ducks and geese, but only caused death in chickens. It could transmit to the chickens and ducks, but was not transmittable to geese. CkB30 was highly pathogenic to chickens, low pathogenic to ducks and not pathogenic to geese. It could be transmitted to the naive contact chickens, but not to the ducks or geese. Our findings suggested that H5N1 HPAIVs from different birds show different host ranges and tissue tropisms. Therefore, we should enhance serological and virological surveillance of H5N1 HPAIVs, and pay more attention to the pathogenic and antigenic evolution of these viruses.     

The NS segment of H5N1 avian influenza viruses (AIV) enhances the virulence of an H7N1 AIV in chickens

Some outbreaks involving highly pathogenic avian influenza viruses (HPAIV) of subtypes H5 and H7 were caused by avian-to-human transmissions. In nature, different influenza A viruses can reassort leading to new viruses with new characteristics. We decided to investigate the impact that the NS-segment of H5 HPAIV would have on viral pathogenicity of a classical avian H7 HPAIV in poultry, a natural host. We focussed this study based on our previous work that demonstrated that single reassortment of the NS-segment from an H5 HPAIV into an H7 HPAIV changes the ability of the virus to replicate in mammalian hosts. Our present data show that two different H7-viruses containing an NS-segment from H5–types (FPV NS GD or FPV NS VN) show an overall highly pathogenic phenotype compared with the wild type H7–virus (FPV), as characterized by higher viral shedding and earlier manifestation of clinical signs. Correlating with the latter, higher amounts of IFN-β mRNA were detected in the blood of NS-reassortant infected birds, 48 h post-infection (pi). Although lymphopenia was detected in chickens from all AIV-infected groups, also 48 h pi those animals challenged with NS-reassortant viruses showed an increase of peripheral monocyte/macrophage-like cells expressing high levels of IL-1β, as determined by flow cytometry. Taken together, these findings highlight the importance of the NS-segment in viral pathogenicity which is directly involved in triggering antiviral and pro-inflammatory cytokines found during HPAIV pathogenesis in chickens.     

Epidemiology of H5N1 avian influenza

High pathogenic (HP) H5N1 avian influenza (AI) infection has been reported in domestic poultry, wildlife, and human populations since 1996. Risk of infection is associated with direct contact with infected birds. The mode of H5N1 spread from Asia to Europe, Africa and the Far East is unclear; risk factors such as legal and illegal domestic poultry and exotic bird trade, and migratory bird movements have been documented. Measures used to control disease such as culling, stamping out, cleaning and disinfection, and vaccination have not been successful in eradicating H5N1 in Asia, but have been effective in Europe.     

Pathology of fatal highly pathogenic H5N1 avian influenza virus infection in large-billed crows (Corvus macrorhynchos) during the 2004 outbreak in Japan

Highly pathogenic H5N1 avian influenza viruses were isolated in 9 large-billed crows that died in Kyoto and Osaka prefectures in Japan from March to April in 2004. We studied 3 of the 9 crows using standard histologic methods, immunohistochemistry, and virus isolation. The most prominent lesions were gross patchy areas of reddish discoloration in the pancreas. The consistent histologic lesions included severe multifocal necrotizing pancreatitis, focal degeneration and necrosis of neuron and glial cells in the central nervous system, and focal degeneration of cardiac myocytes. All of these tissues contained immunohistochemically positive influenza viral antigens. The virus was isolated from the brain, lung, heart, liver, spleen, and kidney of the crows examined. Thus we concluded that highly pathogenic avian influenza virus was associated with clinical disease, severe pathologic changes, and death in the 3 crows.     

Molecular characterization of H5N2 avian influenza viruses isolated from South African ostriches in 2006

Highly pathogenic avian influenza (HPAI) H5N2 reemerged in ostriches in South Africa during 2006, and a low-pathogenic AI H5N2 virus was also isolated. Molecular and phylogenetic characterization was performed to determine whether the outbreak strains were genetically derived from the supposedly eradicated Eastern Cape ostrich outbreak HPAI H5N2 strain of 2004. It was demonstrated that although the 2004 and 2006 South African H5N2 strains shared a common ancestor, the two outbreaks were not related. Not only were extensive reassortments with wild bird viruses involved in the evolution of the 2006 strains, but the precursor HA molecule HA0 cleavage site sequence of the 2006 HPAI H5N2 virus also contained fewer basic amino-acid insertions. Multiple transmission events occurred from wild birds to ostriches in 2006, and it appears that a reservoir of H5N2 with pathogenic potential for poultry is established in the South African wild duck population.     

Pathogenicity of highly pathogenic avian influenza viruses of H5N1 subtype isolated in Thailand for different poultry species

Highly pathogenic avian influenza (HPAI) viruses of the H5N1 subtype have caused several rounds of outbreaks in Thailand. In this study, we used 3 HPAI viruses isolated in Thailand in January 2004 from chicken, quail, and duck for genetic and pathogenetic studies. Sequence analysis of the entire genomes of these isolates revealed that they were genetically similar to each other. Chickens, quails, domestic ducks, and cross-bred ducks were inoculated with these isolates to evaluate their pathogenicity to different host species. A/chicken/Yamaguchi/7/04 (H5N1), an HPAI virus isolated in Japan, was also used in the chicken and quail studies for comparison. All four isolates were shown to be highly pathogenic to chickens and quails, with 100% mortality by 10(6) EID50 inoculants of the viruses. They caused sudden death in chickens and quails within 2-4 days after inoculation. The mean death times (MDT) of quails infected with the Thai isolates were shorter than those of chickens infected with the same isolates. Mortality against domestic and cross-bred ducks ranged from 50 to 75% by intranasal inoculation with the 10(6) EID50 viruses. Neurological symptoms were observed in most of the inoculated domestic ducks and appeared less severe in the cross-bred ducks. The MDTs of the ducks infected with the Thai isolates were 4.8-6 days post-inoculation. Most of the surviving ducks infected with the Thai isolates had sero-converted until 14 dpi. Our study illustrated the pathobiology of the Thai isolates against different poultry species and would provide useful information for improving control strategies against HPAI.     

Renal pathology in specific-pathogen-free chickens inoculated with a waterfowl-origin type A influenza virus

Five-week-old specific-pathogen-free chickens inoculated intravenously with a waterfowl-origin type A influenza virus (A/mallard/Ohio/184/86) had swollen and mottled kidneys on days 3, 5, and 7 postinoculation (PI) and multiple raised nodules on days 5, 10, and 20 PI. Histologically, the kidneys had multifocal heterophilic tubulointerstitial nephritis with epithelial necrosis on day 3 PI, lymphoplasmacytic tubulointerstitial nephritis on day 5 PI, and fibrosing interstitial nephritis with cortical lobular collapse, atrophic tubules, glomerular aggregates, and interstitial lymphoid follicles and aggregates on days 7, 10, and 20 PI. Heterophilic intratubular medullary-cone nephritis was present in dead or moribund chickens on days 3 and 5 PI. Furthermore, the presence of mild multifocal heterophilic tubulointerstitial nephritis on day 20 PI suggests that a waterfowl-origin strain of type A influenza virus of low pathogenicity has the potential to produce acute and chronic active nephritis in the chicken and that the kidney is a potential site for influenza viral persistence. The acute, subacute, and chronic histopathologic renal lesions of this influenza virus in chickens are similar to lesions reported for some nephropathogenic infectious bronchitis viruses and avian nephritis picornavirus.     

Pathogenicity for chickens of avian influenza viruses isolated from whistling swans and a black-tailed gull in Japan

We isolated 24 Hav1 Neq1 and 18 Hav6 Nav3 influenza viruses from such free-living wild waterfowl as whistling swans, black-tailed gulls, and tufted ducks in western Japan in 1980. Two Hav1 Neq1 viruses isolated from a whistling swan and a black-tailed gull and a Hav6 Nav3 virus from a whistling swan were examined for their pathogenicity for chickens. Five-week-old specific-pathogen-free chickens were inoculated with the viruses intratracheally or intraperitoneally. Virus was recovered successfully from all the organs, including the brain, despite the absence of signs of disease. The intracerebral pathogenicity index scores obtained for the Hav1 Neq1 viruses were 0.43 and 0.87; the score for the Hav6 Nav3 virus was 0.43. No virus produced plaques in cultivated chick embryo fibroblast cells in the absence of trypsin.     

Efficacy of vaccines in chickens against highly pathogenic Hong Kong H5N1 avian influenza.

In 1997, highly pathogenic (HP) H5N1 avian influenza virus (AIV) caused infections in poultry in Hong Kong and crossed into humans, resulting in a limited number of infections including 18 hospitalized cases and six associated deaths. The unique ability of this, AIV to infect both poultry and people raised a concern for the potential of humans to be biological as well as mechanical vectors of this AIV to poultry. The current study was undertaken to determine if existing vaccines and their technologies could be used during an outbreak to protect poultry. Commercial and experimental inactivated whole H5 AIV and baculovirus-expressed AIV H5 hemagglurinin protein vaccines provided protection from clinical signs and death in chickens after lethal challenge by human-origin HP H5N1 Hong Kong strains 156/97 and 483/97. The commercial and experimental inactivated vaccines had mean protective doses ranging from 0.25 to 0.89, which represents the milligrams of viral protein in the vaccines that provided protection from death in half of the birds. Furthermore, the vaccines reduced the ability of the challenge AIV to replicate in chickens and decreased the recovery of challenge AIV from the enteric and respiratory tracts, but the use of a vaccine will nor totally prevent AI virus replication and shedding. Existing vaccines will protect poultry from mortality and reduce virus replication from the new HP AIV strain that can infect both poultry and humans.