Age at infection affects the pathogenicity of Asian highly pathogenic avian influenza H5N1 viruses in ducks

The Asian highly pathogenic avian influenza (HPAI) H5N1 viruses have changed from producing no disease or mild respiratory infections in ducks to some strains causing systemic disease and death. Differences in pathogenicity between four of these viruses as well as the effect of host age on the outcome of infection were studied in ducks. Three of the viruses were highly lethal in 2-week-old ducks and induced severe neurological dysfunction. Neurological signs were also observed in 5-week-old ducks inoculated with one of these viruses; however mortality was low. The fourth virus studied did not induce neurological signs in 2-week-old ducks, but did produce moderate mortality. This virus caused no clinical signs or death in 5-week-old ducks. All viruses studied were isolated from oropharyngeal and cloacal swabs, and also from brain, heart, lung and muscle tissues, demonstrating systemic infection. All viruses evaluated transmitted efficiently to contact ducks. Phylogenetic analysis of the viruses studied and other Asian H5N1 HPAI viruses with diverse pathogenicity in ducks, showed changes in several genes, but none clearly associated with pathogenicity. In conclusion, the pathogenicity of circulating H5N1 HPAI viruses in ducks varies depending on the virus strain and the age of the duck and correlates with the level of viral replication in tissues. High titers of virus in organs, high viral shedding, and variable mortality enable ducks to circulate H5N1 HPAI viruses.     

Efficacy of inactivated vaccines against H5N1 avian influenza infection in ducks

The current Asian H5N1 highly pathogenic avian influenza virus has spread over much of Asia and into Europe and Africa. As well as affecting village and commercial chicken operations in many South East Asian countries, it differs from past H5 avian influenza viruses in that it causes morbidity and mortalities in other domesticated birds, such as ducks and turkeys and in wild water birds. Effective vaccines that can prevent infection, as well as disease, and be used in a variety of avian species are needed for field use. In this report, a bivalent H5N9+H7N1 oil emulsion vaccine is compared, in ducks, to a monovalent H5N3 oil emulsion vaccine that has been derived by reverse genetics with an H5 from A/chicken/Vietnam/C58/04. While both vaccines protected against morbidity, the monovalent vaccine provided effective protection, with no evidence of shedding of the challenge virus and no serological response to the H5N1 challenge virus.     

Transmission of highly pathogenic avian influenza H5N1 virus in Pekin ducks is significantly reduced by a genetically distant H5N2 vaccine

Domestic ducks play an important role in the epidemiology of H5N1 avian influenza. Although it is known that vaccines that have a high homology with the challenge virus are able to prevent infection in ducks, little is yet known about the ability of genetically more distant vaccines in preventing infection, disease, and transmission. Here we study the effect of a widely used H5N2 vaccine (A/Chicken/Mexico/232/94/CPA) on the transmission of H5N1 virus (A/Chicken/China/1204/04) in ducks. The quantitative analyses show that despite the low level of homology between the virus and vaccine strain transmission was significantly reduced two weeks after a single or double vaccination. Mortality and disease rates were reduced markedly already one week after a single vaccination.     

Real-time RT-PCR assay to differentiate clades of H5N1 avian influenza viruses circulating in Vietnam

Continued circulation and geographical expansion of highly pathogenic avian influenza H5N1 virus have led to the emergence of numerous clades in Vietnam. Although viral RNA sequencing and phylogenetic analysis are the gold standard for H5N1 HA clade designation, limited sequencing capacity in many laboratories precludes rapid H5N1 clade identification and detection of novel viruses. Therefore, a Taqman real-time RT-PCR assay for rapid differentiation of the four major H5N1 clades detected in Vietnam was developed. Using HA sequence alignments of clades 1.1, 2.3.2.1, 2.3.4, and 7 viruses, primers and FAM-labeled probes were designed to target conserved regions characteristic of each clade. The assay was optimized and evaluated using circulating clades of H5N1 collected in Vietnam from 2007 to 2012 and shown to be both sensitive and specific for the differentiation of the four H5N1 clades. The assay provides a useful tool for screening of large specimen collections for HA gene sequencing and phylogenetic analysis and for the rapid identification of molecular clade signatures to support outbreak investigations and surveillance activities. Finally, this assay may be useful to monitor for the emergence of novel or variant clades of H5N1 in Vietnam in the future or in other countries where these particular clades may circulate.     

The immunogenicity and efficacy against H5N1 challenge of reverse genetics-derived H5N3 influenza vaccine in ducks and chickens

H5N1 avian influenza viruses are continuing to spread in waterfowl in Eurasia and to threaten the health of avian and mammalian species. The possibility that highly pathogenic (HP) H5N1 avian influenza is now endemic in both domestic and migratory birds in Eurasia makes it unlikely that culling alone will control H5N1 influenza. Because ducks are not uniformly killed by HP H5N1 viruses, they are considered a major contributor to virus spread. Here, we describe a reverse genetics-derived high-growth H5N3 strain containing the modified H5 of A/chicken/Vietnam/C58/04, the N3 of A/duck/Germany/1215/73, and the internal genes of A/PR/8/34. One or two doses of inactivated oil emulsion vaccine containing 0.015 to 1.2 microg of HA protein provide highly efficacious protection against lethal H5N1 challenge in ducks; only the two dose regimen has so far been tested in chickens with high protective efficacy.     

Protective efficacy in chickens, geese and ducks of an H5N1-inactivated vaccine developed by reverse genetics

We generated a high-growth H5N1/PR8 virus by plasmid-based reverse genetics. The virulence associated multiple basic amino acids of the HA gene were removed, and the resulting virus is attenuated for chickens and chicken eggs. A formalin-inactivated oil-emulsion vaccine was prepared from this virus. When SPF chickens were inoculated with 0.3 ml of the vaccine, the hemagglutinin-inhibition (HI) antibody became detectable at 1 week post-vaccination (p.v.) and reached a peak of 10log2 at 6 weeks p.v. then slowly declined to 4log2 at 43 weeks p.v. Challenge studies performed at 2, 3 and 43 weeks p.v. indicated that all of the chickens were completely protected from disease signs and death. Ducks and geese were completely protected from highly pathogenic H5N1 virus challenge 3 weeks p.v. The duration of protective immunity in ducks and geese was investigated by detecting the HI antibody of the field vaccinated birds, and the results indicated that 3 doses of the vaccine inoculation in geese could induce a 34 weeks protection, while 2 doses induced more than 52 weeks protection in ducks. We first reported that an oil-emulsion inactivated vaccine derived from a high-growth H5N1 vaccine induced approximately 10 months of protective immunity in chickens and demonstrated that the oil-emulsion inactivated avian influenza vaccine is immunogenic for geese and ducks. These results provide useful information for the application of vaccines to the control of H5N1 avian influenza in poultry, including chickens and domestic waterfowl.     

Prevention and control of highly pathogenic avian influenza with particular reference to H5N1

Highly pathogenic avian influenza viruses of the H5N1 subtype emerged in Far East Asia in 1996 and spread in three continents in a period of 10 or less years. Before this event, avian influenza infections caused by highly pathogenic viruses had occurred in many different countries, causing minor or major outbreaks, and had always been eradicated.     

人禽流感病毒H5N1多价重组痘苗病毒(天坛株)疫苗在小鼠中的免疫原性研究

Objective To develop an effective and broad immune protective H5N1 vaccine.Methods We first developed two recombinant vaccinia ( Tiantan strain) virus ( rTTV ) based H5N1 vaccines, which consisted of bicistron expressing the hemagglutinin(HA) and matrix protein 2(M2), or bicistron expressing the neuraminidase(NA) and matrix protein 1 (M1). The expression of H5N1 protein in rTTVs was confirmed. We immunized the BALB/c mice twice with two kind of dose ( 104 PFU, 107 PFU)using different combination. Subsequently, we assessed the humoral and cellular immune response in vaccinated mice. Results Our data showed that rTTV-based H5N1 vaccine induced rapidly robust HA- and NAspecific antibody level and IFN-γ secreting form cell(SFC) with either single dose of 107 PFU or twice dose of 104 PFU or 107 PFU. We also detected significant neutralizing antibody and matrix-specific immune response. In addition, we found that immunization with two kind of rTTV-based H5N1 vaccines induced much high level of M2-specific antibody than that with single of rTTV-based H5N1 vaccine. Conclusion rTTVbased H5N1 vaccines in this study elicited board array of immunity and our study offers a promising alternative H5N1 vaccine candidates with favorable potential to prevent various H5N1 pandemic.     

人禽流感病毒H5N1多价重组痘苗病毒(天坛株)疫苗在小鼠中的免疫原性研究

Objective To develop an effective and broad immune protective H5N1 vaccine.Methods We first developed two recombinant vaccinia ( Tiantan strain) virus ( rTTV ) based H5N1 vaccines, which consisted of bicistron expressing the hemagglutinin(HA) and matrix protein 2(M2), or bicistron expressing the neuraminidase(NA) and matrix protein 1 (M1). The expression of H5N1 protein in rTTVs was confirmed. We immunized the BALB/c mice twice with two kind of dose ( 104 PFU, 107 PFU)using different combination. Subsequently, we assessed the humoral and cellular immune response in vaccinated mice. Results Our data showed that rTTV-based H5N1 vaccine induced rapidly robust HA- and NAspecific antibody level and IFN-γ secreting form cell(SFC) with either single dose of 107 PFU or twice dose of 104 PFU or 107 PFU. We also detected significant neutralizing antibody and matrix-specific immune response. In addition, we found that immunization with two kind of rTTV-based H5N1 vaccines induced much high level of M2-specific antibody than that with single of rTTV-based H5N1 vaccine. Conclusion rTTVbased H5N1 vaccines in this study elicited board array of immunity and our study offers a promising alternative H5N1 vaccine candidates with favorable potential to prevent various H5N1 pandemic.     

Vaccination of gallinaceous poultry for H5N1 highly pathogenic avian influenza: Current questions and new technology

Vaccination of poultry for avian influenza virus (AIV) is a complex topic as there are numerous technical, logistic and regulatory aspects which must be considered. Historically, control of high pathogenicity (HP) AIV infection in poultry has been accomplished by eradication and stamping out when outbreaks occur locally. Since the H5N1 HPAIV from Asia has spread and become enzootic, vaccination has been used on a long-term basis by some countries to control the virus, other countries have used it temporarily to aid eradication efforts, while others have not used it at all. Currently, H5N1 HPAIV is considered enzootic in China, Egypt, Viet Nam, India, Bangladesh and Indonesia. All but Bangladesh and India have instituted vaccination programs for poultry. Importantly, the specifics of these programs differ to accommodate different situations, resources, and industry structure in each country. The current vaccines most commonly used are inactivated whole virus vaccines, but vectored vaccine use is increasing. Numerous technical improvements to these platforms and novel vaccine platforms for H5N1 vaccines have been reported, but most are not ready to be implemented in the field.     

我国分离人H5N1禽流感病毒血凝素基因特性的研究

目的 分析我国分离的人高致病性禽流感H5N1病毒的抗原性以及基因特性.方法 对所分离的H5N1病毒的血凝素基因和神经氨酸酶基因进行序列测定.结果 对血凝素基因的序列测定结果表明从我国分离的H5N1病毒具有较高的同源性,但是与越南、泰国等国家分离的H5N1病毒明显不同.序列测定的结果同时表明无论是受体特异性还是连接肽都是禽源的.结论 目前我国分离的H5N1病毒属于同一个组,与泰国、越南分离毒株不同,并且发现病毒的特性仍然是禽源的,没有发现从禽到人的重组或者重配。     

Evolution of highly pathogenic avian influenza (H5N1) virus populations in Vietnam between 2007 and 2010

We report on the genetic analysis of 213 highly pathogenic avian influenza (HPAI) H5N1 viruses isolated from poultry in Vietnam between 2007 and 2010. Phylogenetic analyses of the viral genomes revealed 38 distinct viral genotypes, 29 were novel and 9 were reported in Vietnam or neighboring countries in recent years. Viruses from only six genotypes persisted beyond one season or year. Thus, most reassortant viruses were transient, suggesting that such genotypes lacked significant fitness advantages. Viruses with clade 2.3.2.1 HA were re-introduced into Vietnam in 2009 and their prevalence rose steeply towards the end of 2010. Clade 2.3.4-like viruses (genotype V) were predominant in northern Vietnam and caused the majority of zoonotic infections, whereas clade 1.1 (genotype Z) viruses were only detected in the Mekong delta region, in southern Vietnam. Antigenic analysis of representative viruses from the four clades indicated substantial drift.     

Characterization of a highly pathogenic avian influenza H5N1 virus sublineage in poultry seized at ports of entry into Vietnam

Highly pathogenic avian influenza H5N1 virus was detected in poultry seized at two ports of entry located in Lang Son Province, Vietnam. Sequence analysis of the hemagglutinin (HA) genes from five H5N1 virus isolates and ten PCR amplicons from chicken cloacal samples revealed their close phylogenetic relationship to clade 7 H5N1 HA genes. However, these HA genes exhibited extensive genetic divergence at both the nucleotide and amino acid levels in comparison to previously described clade 7 viruses; e.g., A/chicken/Shanxi/2/2006. In addition, hemagglutination inhibition tests revealed antigenic differences between these and previously isolated H5N1 viruses from Vietnam. These results indicate that viruses with clade 7 HA are evolving rapidly in poultry in Southeast Asia.     

禽流感病毒非结构蛋白1单克隆抗体的制备及其特异性分析

为研制禽流感病毒(H5N1)非结构蛋白1(NS1)的特异性单克隆抗体(mAb),并鉴定其特异性,本研究在分别表达了具有良好抗原性的A/Vietnam/1194/04(H5N1)-NS1和A/HongKong/486/97(H5N1)-NS1重组蛋白基础上,用A/Viet-nam/1194/04(H5N1)-NS1蛋白免疫BALB/c小鼠,取其脾细胞与小鼠骨髓瘤细胞进行融合,间接ELISA筛选阳性的杂交瘤细胞,并结合免疫荧光和免疫印迹对抗体的特异性进行鉴定,通过竞争抑制实验对单抗识别的抗原位点进行分析。结果共获得19株能识别4个H5N1-NS1蛋白不同抗原位点的mAb,亚类测定显示,5株为IgG2a、1株为IgG2b,另外13株为IgG1。这些mAb均与A/Vietnam/1194/04(H5N1)-NS1和A/HongKong/486/97(H5N1)-NS1重组蛋白特异性结合,免疫荧光检测均与A型流感病毒(H1N1和H3N2)有交叉反应,而与B型流感病毒无交叉现象。表明成功获得特异性针对H5N1-NS1蛋白的mAb,为进一步研究禽流感病毒NS1蛋白的结构与功能奠定基础。     

Development of a novel rapid immunochromatographic test specific for the H5 influenza virus

Three anti-H5 influenza virus monoclonal antibody (mAb) clones, IFH5-26, IFH5-115 and IFH5-136, were obtained by immunising a BALB/C mouse with inactivated A/duck/Hokkaido/Vac-1/04 (H5N1). These mAbs were found to recognise specifically the haemagglutinin (HA) epitope of the influenza H5 subtypes by western blotting with recombinant HAs; however, these mAbs have no neutralising activity for A/duck/Hokkaido/84/02 (H5N3) or A/Puerto Ric/8/34 (H1N1). Each epitope of these mAbs was a conformational epitope that was formed from the regions located between 46 to 60 amino acids (aa) and 312 to 322 aa for IFH5-115, from 101 to 113 aa and 268 to 273 aa for IFH5-136 and from 61 to 80 aa and 290 to 300 aa for IFH5-26. The epitopes were located in the loop regions between the receptor region and alpha-helix structure in haemagglutinin 1 (HA1). Influenza A virus H5-specific rapid immunochromatographic test kits were tested as solid phase antibody/alkaline phosphate-conjugated mAb in the following three combinations: IFH5-26/IFH5-115, IFH5-136/IFH5-26 and IFH5-136/IFH5-115. In every combination, only influenza A H5 subtypes were detected. For effective clinical application, rapid dual discrimination immunochromatographic test kits in combination with H5 HA-specific mAb, IFA5-26 and IFA5-115 and the influenza A NP NP-specific mAb, FVA2-11, were developed. The dual discrimination immunochromatographic tests kits detected influenza A virus H5 subtypes as H5 line-positive and all influenza A subtypes as A line-positive simultaneously. The dual discrimination immunochromatographic test kits may be useful for discriminating highly pathogenic avian influenza A H5N1 viruses from seasonal influenza A virus, as well as for confirming influenza infection status in human, avian and mammalian hosts.     

Pathogenesis of Infectious Disease of Mice Caused by H5N1 Avian Influenza Virus

The pathogenesis of a disease caused by Qinghai-like H5N1 influenza virus in BALB/c mice was studied. Clinical, morphological, and immunological characteristics of the experimental infection caused by highly pathogenic A/duck/Tuva/01/06/ (H5N1) virus are described. Translated from Byulleten’ Eksperimental’noi Biologii i Meditsiny, Suppl. 1, pp. 52–55, 2008     

The emergence and diversification of panzootic H5N1 influenza viruses

The Asian highly pathogenic avian influenza H5N1 virus was first detected in the goose population of Guangdong, China in 1996. The viruses in this lineage are unique in their ecological success, demonstrating an extremely broad host range and becoming established in poultry over much of Asia and in Africa. H5N1 viruses have also diverged into multiple clades and subclades that generally do not cross neutralize, which has greatly confounded control measures in poultry and pre-pandemic vaccine strain selection. Although H5N1 viruses currently cannot transmit efficiently between mammals they exhibit high mortality in humans and recent experimental studies have shown that it is possible to generate an H5N1 virus that is transmissible in mammals. In addition to causing unprecedented economic losses, the long-term presence of the H5N1 virus in poultry and its frequent introductions to humans continue to pose a significant pandemic threat. Here we provide a summary of the genesis, molecular epidemiology and evolution of this H5N1 lineage, particularly the factors that have contributed to the continued diversification and ecological success of H5N1 viruses, with particular reference to the poultry production systems they have emerged from.     

In vitro evolution of H5N1 avian influenza virus toward human-type receptor specificity

Acquisition of α2-6 sialoside receptor specificity by α2-3 specific highly-pathogenic avian influenza viruses (H5N1) is thought to be a prerequisite for efficient transmission in humans. By in vitro selection for binding α2-6 sialosides, we identified four variant viruses with amino acid substitutions in the hemagglutinin (S227N, D187G, E190G, and Q196R) that revealed modestly increased α2-6 and minimally decreased α2-3 binding by glycan array analysis. However, a mutant virus combining Q196R with mutations from previous pandemic viruses (Q226L and G228S) revealed predominantly α2-6 binding. Unlike the wild type H5N1, this mutant virus was transmitted by direct contact in the ferret model although not by airborne respiratory droplets. However, a reassortant virus with the mutant hemagglutinin, a human N2 neuraminidase and internal genes from an H5N1 virus was partially transmitted via respiratory droplets. The complex changes required for airborne transmissibility in ferrets suggest that extensive evolution is needed for H5N1 transmissibility in humans.