Zoonotic potential of highly pathogenic avian H7N3 influenza viruses from Pakistan

H5 and H7 avian influenza viruses can become highly pathogenic in chickens after interspecies transmission. These viruses have transmitted directly to humans from birds in Eurasia and Africa (H5N1), the Netherlands (H7N7), and Canada (H7N3). Here we report antigenic, sequence, and phylogenetic analyses of H7N3 viruses isolated from chickens in Pakistan from 1995 to 2002. We compared the pathogenic and zoonotic potential of the Pakistani viruses in avian and mammalian hosts. In chickens, all of the isolates showed high pathogenicity with poor transmissibility to contact birds. Viral shedding from the trachea and cloaca was equivalent, but cloacal shedding occurred longer; dissemination of virus into the tissues was widespread. In contrast, the viruses replicated poorly in 6-week-old mallard ducks. In mammalian hosts, of the two Pakistani H7N3/02 viruses that caused weight loss, one also caused 40% mortality in mice without prior adaptation, and preliminary experiments in ferrets showed significant virus multiplication in the lungs, intestine, and conjunctiva. We conclude that the H7N3/02 isolates from Pakistan show limited antigenic drift and have evolved slowly during their 8-year circulation in chickens; however, these viruses have the potential to infect mammals.     

Phylogenetic analysis of low pathogenicity H5N1 and H7N3 influenza A virus isolates recovered from sentinel, free flying, wild mallards at one study site during 2006

From August 2 to October 11, 2006, clusters of low pathogenicity (LP) North American lineage H5N1 and H7N3 avian influenza A viruses (AIV), and other subtypes, were recovered from free-flying, resident, wild mallards used as sentinels at one site. The antigenic subtypes, pathogenicity potential, and Sanger sequencing of the isolates determined the H5N1 and H7N3 isolates were only recovered from samples collected on 8/2/2006 and 9/8/2006, respectively. However, subsequent efforts using next-generation sequencing (NGS) and additional Sanger sequencing found partial H7 segments in other HA-NA virus combinations on 8/2/2006, 9/8/2006 and 10/11/2006. It is well established that over larger geographic areas and years AIVs form transient genomic constellations; this sequential sampling data revealed that over a short period of time the dynamics of AIVs can be active and newer sequencing platforms increase recognition of mixed infections. Both findings provide further insight into the natural history of AIVs in natural reservoirs.     

Classical swine H1N1 influenza viruses confer cross protection from swine-origin 2009 pandemic H1N1 influenza virus infection in mice and ferrets

The hemagglutinin of the 2009 pandemic H1N1 influenza virus is a derivative of and is antigenically related to classical swine but not to seasonal human H1N1 viruses. We compared the A/California/7/2009 (CA/7/09) virus recommended by the WHO as the reference virus for vaccine development, with two classical swine influenza viruses A/swine/Iowa/31 (sw/IA/31) and A/New Jersey/8/1976 (NJ/76) to establish the extent of immunologic cross-reactivity and cross-protection in animal models. Primary infection with 2009 pandemic or NJ/76 viruses elicited antibodies against the CA/7/09 virus and provided complete protection from challenge with this virus in ferrets; the response in mice was variable and conferred partial protection. Although ferrets infected with sw/IA/31 virus developed low titers of cross-neutralizing antibody, they were protected from pulmonary replication of the CA/7/09 virus. The data suggest that prior exposure to antigenically related H1N1 viruses of swine-origin provide some protective immunity against the 2009 pandemic H1N1 virus.     

H5N1流感疫苗株在Vero细胞中的研究[英文]

目的产生在Vero(非洲绿猴肾)细胞中能高适应生长的重配H5N1流感病毒疫苗株,并对其生物学特性进行初步测定。方法修饰A/Puerto Rico/8/34(H1N1)(PR8)的NS基因为Vero细胞适应型,并合成NS基因片段,构建质粒pHW2000-NS;通过RT-PCR方法,扩增疫苗株A/Anhui/01/2005(H5N1)的HA、NA基因片段,构建质粒pHW2000-HA、pHW2000-NA;以PR8的其它5个内部基因作为骨架,按照1+2+5模式8质粒共转染Vero细胞拯救流感病毒,并对拯救病毒的生物学特性进行检测。结果由Vero拯救出具有高适应生长特性的H5N1亚型人禽流感病毒疫苗株,并检测了重配疫苗株的生物学特性。结论成功从Vero细胞拯救了具有Vero细胞高适应性生长特性的H5N1亚型人禽流感病毒疫苗株,为应用Vero细胞大规模生产流感疫苗奠定了基础。     

Safety, immunogencity, and efficacy of a cold-adapted A/Ann Arbor/6/60 (H2N2) vaccine in mice and ferrets

We studied the attenuation, immunogenicity and efficacy of the cold-adapted A/Ann Arbor/6/60 (AA ca) (H2N2) virus in mice and ferrets to evaluate its use in the event of an H2 influenza pandemic. The AA ca virus was restricted in replication in the respiratory tract of mice and ferrets. In mice, 2 doses of vaccine elicited a > 4-fold rise in hemagglutination-inhibition (HAI) titer and resulted in complete inhibition of viral replication following lethal homologous wild-type virus challenge. In ferrets, a single dose of the vaccine elicited a > 4-fold rise in HAI titer and conferred complete protection against homologous wild-type virus challenge in the upper respiratory tract. In both mice and ferrets, the AA ca virus provided significant protection from challenge with heterologous H2 virus challenge in the respiratory tract. The AA ca vaccine is safe, immunogenic, and efficacious against homologous and heterologous challenge in mice and ferrets, supporting the evaluation of this vaccine in clinical trials.     

用8质粒病毒拯救系统产生冷适应减毒的重组A型人流感病毒的研究

目的 利用流感病毒8质粒病毒拯救系统,产生冷适应减毒的重组A型人流感病毒,建立以冷适应流感病毒株为拯救骨架的反向遗传学技术平台.方法 以冷适应、温度敏感、减毒的A/Ann Arbor/6/60(H2N2)流感病毒株作为拯救病毒的骨架,人工合成了该病毒株的6个内部基因片段,即PB2、PB1、PA、NP、M和NS,同时引入5个氨基酸突变作为标签.6个基因片段通过与改造后的转录载体pAD3000连接,构建6个基因的拯救载体,经测序获得序列准确的拯救质粒:pMDV-A-PB2、pMDV-A-PB1、pMDV-A-PA、pMDV-A-NP、pMDV-A-M、pMDV-A-NS.结果 6质粒与PR8的表面基因HA和NA进行"6+2"组合的病毒拯救,8个重组质粒共转染COS-1细胞,成功拯救出了具有血凝活性的冷适应减毒的重组A型人流感病毒,命名为rMDV-A.鸡胚尿囊液中重组病毒的血凝(HA)效价为1∶2 9～1∶2 10.结论 构建的A/Ann Arbor/6/60的6个内部基因的病毒骨架拯救系统,为深入研究冷适应减毒人流感病毒的基因功能和新型疫苗研发提供了试验材料.     

The hemagglutinin protein of influenza A/Vietnam/1203/2004 (H5N1) contributes to hyperinduction of proinflammatory cytokines in human epithelial cells

Live attenuated influenza A/Vietnam/1203/04 (H5N1) (VN04 cold adapted [ca]) and A/Hong Kong/213/03 (H5N1) (HK03 ca) vaccine viruses were compared with the A/New Caledonia/20/99 (H1N1) (NC99 ca) seasonal vaccine virus for induction of host gene expression in infected human epithelial cells. Levels of proinflammatory cytokines and interferon-related genes were significantly upregulated in VN04 ca virus-infected A549 cells compared to cells infected with the HK03 ca and NC99 ca viruses as examined by microarray analysis and confirmed by quantitative RT-PCR and ELISA assays. Further mapping studies demonstrated that the hemagglutinin (HA) protein of the VN04 ca virus contributed to the hyperinduction of cytokines. The inactivated viruses could also induce the production of the cytokines and chemokines, albeit at a much lower level than live viruses. Compared to HK03 ca virus, VN04 ca virus differs by 9 amino acids including an additional glycosylation site at residue 158N of the HA protein and a shortened stalk in the neuraminidase (NA) protein. Increased cytokine production by HK03 ca virus was only observed when HK03 ca virus acquired an additional glycosylation in the HA protein and when its NA protein was replaced by that of VN04. Thus, our data indicate that the HA protein and its interaction with the NA protein play a role in triggering cytokine responses. The full implications of cytokine induction in vaccine virus-induced immune responses remain to be explored.     

Novel reassortant H10N7 avian influenza viruses isolated from chickens in Eastern China

BackgroundSince 2004, the H10N7 subtype avian influenza virus (AIV) has caused sporadic human infections with variable clinical symptoms world-wide. However, there is limited information pertaining to the molecular characteristics of H10N7 AIVs in China.ObjectiveTo more fully characterize the genetic relationships between three novel H10N7 strains isolated from chickens in Eastern China and the strains isolated from birds throughout Asia, and to determine the pathogenicity of the H10N7 isolates in vivo.Study designAll eight gene segments from the Chinese H10N7 strains were sequenced and compared with AIV strains available in GenBank. The virulence of the three isolates was determined in chickens and mice.ResultsThree H10N7 subtype avian influenza viruses were isolated from chickens in live poultry markets in Eastern China in 2014: (1) A/chicken/Zhejiang/2C66/2014(H10N7) (ZJ-2C66), (2) A/chicken/Zhejiang/2CP2/2014(H10N7) (ZJ-2CP2), and (3) A/chicken/Zhejiang/2CP8/2014(H10N7) (ZJ-2CP8). Phylogenetic analysis indicated that the viruses contained genetic material from H10, H2, H7, and H3 AIV strains that were circulating at the same time. The reassortant H10N7 viruses were found to be minimally pathogenic in chickens and moderately pathogenic in mice. The viruses were able to replicate in mice without prior adaptation.ConclusionThese results suggest that H10N7 surveillance in poultry should be used as an early warning system for avian influenza outbreaks. The novel strains identified here may post a threat to human health in the future if they continue to circulate.     

The influence of the multi-basic cleavage site of the H5 hemagglutinin on the attenuation, immunogenicity and efficacy of a live attenuated influenza A H5N1 cold-adapted vaccine virus

A recombinant live attenuated influenza virus ΔH5N1 vaccine with a modified hemagglutinin (HA) and intact neuraminidase genes from A/Vietnam/1203/04 (H5N1) and six remaining genome segments from A/Ann Arbor/6/60 (H2N2) cold-adapted (AA ca) virus was previously shown to be attenuated in chickens, mice and ferrets. Evaluation of the recombinant H5N1 viruses in mice indicated that three independent factors contributed to the attenuation of the ΔH5N1 vaccine: the attenuating mutations specified by the AA ca loci had the greatest influence, followed by the deletion of the H5 HA multi-basic cleavage site (MBS), and the constellation effects of the AA genes acting in concert with the H5N1 glycoproteins. Restoring the MBS in the H5 HA of the vaccine virus improved its immunogenicity and efficacy, likely as a consequence of increased virus replication, indicating that removal of the MBS had a deleterious effect on the immunogenicity and efficacy of the ΔH5N1 vaccine in mice.     

甲型肝炎减毒活疫苗及灭活疫苗灌胃免疫小鼠后的抗体应答

目的 :测定甲肝减毒活疫苗及灭活疫苗灌胃免疫小鼠后的抗体应答效应。方法 :将活或灭活的甲肝疫苗加或不加明胶 ,经胃免疫小鼠 ,于末次免疫后 2w取血清及肠液 ,用间接ELISA法分别检测其中的特异性IgG和IgA抗体水平 ,并与空白及肌注组比较。结果 :实验组特异抗体水平明显高于肌注组 (P <0 0 1) ;加明胶组的免疫效果较不加者好 (IgG :P <0 0 0 1,IgA :P <0 0 5 )。结论 :甲肝活疫苗及灭活疫苗经消化道免疫小鼠后 ,均可诱导全身及局部的抗体应答 ;明胶有增强抗体产生的作用 ,可作为一种安全、廉价的粘膜佐剂被进一步开发与利用。     

Transmission of influenza A/H5N1 viruses in mammals

Highly pathogenic avian H5N1 influenza A viruses occasionally infect humans and cause severe respiratory disease and fatalities. Currently, these viruses are not efficiently transmitted from person to person, although limited human-to-human transmission may have occurred. Nevertheless, further adaptation of avian H5N1 influenza A viruses to humans and/or reassortment with human influenza A viruses may result in aerosol transmissible viruses with pandemic potential. Although the full range of factors that modulate the transmission and replication of influenza A viruses in humans are not yet known, we are beginning to understand some of the molecular changes that may allow H5N1 influenza A viruses to transmit via aerosols or respiratory droplets among mammals. A better understanding of the biological basis and genetic determinants that confer transmissibility to H5N1 influenza A viruses in mammals is important to enhance our pandemic preparedness.     

Genetic bases of the temperature-sensitive phenotype of a master donor virus used in live attenuated influenza vaccines: A/Leningrad/134/17/57 (H2N2)

Trivalent live attenuated influenza vaccines whose type A components are based on cold-adapted A/Leningrad/134/17/57 (H2N2) (caLen17) master donor virus (MDV) have been successfully used in Russia for decades to control influenza. The vaccine virus comprises hemagglutinin and neuraminidase genes from the circulating viruses and the remaining six genes from the MDV. The latter confer temperature-sensitive (ts) and attenuated (att) phenotypes. The ts phenotype of the vaccine virus is a critical biological determinant of attenuation of virulence. We developed a plasmid-based reverse genetics system for MDV caLen17 to study the genetic basis of its ts phenotype. Mutations in the polymerase proteins PB1 and PB2 played a crucial role in the ts phenotype of MDV caLen17. In addition, we show that caLen17-specific ts mutations could impart the ts phenotype to the divergent PR8 virus, suggesting the feasibility of transferring the ts phenotype to new viruses of interest for vaccine development.     

Preparation of a standardized, efficacious agricultural H5N3 vaccine by reverse genetics

Options for the control of emerging and reemerging H5N1 influenza viruses include improvements in biosecurity and the use of inactivated vaccines. Commercially available H5N2 influenza vaccine prevents disease signs and reduces virus load but does not completely prevent virus shedding after challenge with H5N1 virus. By using reverse genetics, we prepared an H5N3 vaccine whose hemagglutinin is 99.6% homologous to that of A/CK/HK/86.3/02 (H5N1). We used the internal genes of A/PR/8/34 and the H5 of A/Goose/HK/437.4/99 (H5N1) after deletion of basic amino acids from its connecting peptide region. The resulting virus was not lethal to chicken embryos and grew to high HA titers in eggs, allowing preparation of HA protein-standardized vaccine in unconcentrated allantoic fluid. The N3 neuraminidase, derived from A/Duck/Germany/1215/73 (H2N3), permitted discrimination between vaccinated and naturally infected birds. The virus construct failed to replicate in quail and chickens. Similar to parental A/PR/8/34 (H1N1), it replicated in mice and ferrets and spread to the brains of mice; therefore, it should not be used as a live-attenuated vaccine. The H5N3 vaccine, at doses of 1.2 microg HA, induced HI antibodies in chickens and prevented death, signs of disease, and markedly reduced virus shedding after challenge with A/CK/HK/86.3/02 (H5N1) but did not provide sterilizing immunity. Thus, reverse genetics allows the inexpensive preparation of standardized, efficacious H5N3 poultry vaccines that may also reduce the reemergence of H5N1 genotypes.     

比较可表达产生VLP颗粒的CHIKV DNA疫苗和减毒活疫苗在小鼠中的免疫效果

目的:比较可表达产生病毒样颗粒（virus-like particle,VLP）的CHIKV DNA疫苗与CHIKV181/clone25减毒活疫苗在小鼠中的免疫应答与保护效果。方法:C57BL/6n小鼠分别用CHIKV DNA疫苗20 μg以肌肉注射加电转的形式免疫2次,CHIKV181/clone25减毒活疫苗10...     

Genetic characterization of H5N1 influenza A viruses isolated from zoo tigers in Thailand

The H5N1 avian influenza virus outbreak among zoo tigers in mid-October 2004, with 45 animals dead, indicated that the avian influenza virus could cause lethal infection in a large mammalian species apart from humans. In this outbreak investigation, six H5N1 isolates were identified and two isolates (A/Tiger/Thailand/CU-T3/04 and A/Tiger/Thailand/CU-T7/04) were selected for whole genome analysis. Phylogenetic analysis of the 8 gene segments showed that the viruses clustered within the lineage of H5N1 avian isolates from Thailand and Vietnam. The hemagglutinin (HA) gene of the viruses displayed polybasic amino acids at the cleavage site, identical to those of the 2004 H5N1 isolates, which by definition are highly pathogenic avian influenza (HPAI). In addition, sequence analyses revealed that the viruses isolated from tigers harbored few genetic changes compared with the viruses having infected chicken, humans, tigers and a leopard isolated from the early 2004 H5N1 outbreaks. Sequence analyses also showed that the tiger H5N1 isolated in October 2004 was more closely related to the chicken H5N1 isolated in July than that from January. Interestingly, all the 6 tiger H5N1 isolates contained a lysine substitution at position 627 of the PB2 protein similar to the human, but distinct from the original avian isolates.     

2016—2018年长沙市人群及活禽市场环境H5N6亚型禽流感病毒监测分析

目的:开展2016—2018年长沙市人群感染和活禽市场(live poultry markets, LPMs)环境污染H5N6亚型禽流感病毒(avian influenza virus, AIV)监测,为防控人感染H5N6亚型AIV提供实验室数据。方法:采集2016—2018年长沙市流感样病例和不明原因肺炎病例咽拭子6...     

一起人感染H7N9禽流感家庭聚集性疫情的流行病学调查分析

目的 调查一起人感染H7 N9禽流感聚集性疫情的流行病学特征,分析病例的感染来源和传播途径.方法 对病例开展现场流行病学调查和实验室检测,对病例感染来源进行调查和外环境采样检测.结果 共发现两名病例,病例为父女关系.两病例发病前有可疑活禽暴露史,居住地附近可疑暴露市场标本检测出H7N9禽流感病毒.病例1在潜伏期内即发病,判断为环境暴露感染;其女儿的发病时间距脱离暴露环境已经10天,而在其父亲发病后曾共同生活,判断由其父亲传染给她的可能性大.结论 本起家庭聚集性疫情中,病例1的感染来源可能为被H7 N9禽流感病毒污染的环境,病例2被病例1传染的可能性更大.     

Outbreaks of avian influenza H6N2 viruses in chickens arose by a reassortment of H6N8 and H9N2 ostrich viruses

The first recorded outbreak of avian influenza (AI) in South African chickens (low pathogenicity H6N2) occurred at Camperdown, KwaZulu/Natal Province (KZN) in June 2002. To determine the source of the outbreak, we defined the phylogenetic relationships between various H6N2 isolates, and the previously unpublished gene sequences of an H6N8 virus isolated in 1998 from ostriches in the Leeu Gamka region (A/Ostrich/South Africa/KK98/98). We demonstrated that two distinct genetic H6N2 lineages (sub-lineages I and II) circulated in the Camperdown area, which later spread to other regions. Sub-lineages I and II shared a recent common H6N2 ancestor, which arose from a reassortment event between two South African ostrich isolates A/Ostrich/South Africa/9508103/95 and (H9N2) A/Ostrich/South Africa/KK98/98 (H6N8). Furthermore, the H6N2 sub-lineage I viruses had several molecular genetic markers including a 22-amino acid stalk deletion in the neuraminidase (NA) protein gene, a predicted increased N-glycosylation, and a D¹⁴⁴ mutation of the HA protein gene, all of which are associated with the adaptation of AI viruses to chickens. The H6N2 NS1 and PB1 genes shared recent common ancestors with those of contemporary Asian HPAI H5N1 viruses. Our results suggest that ostriches are potential mixing vessels for avian influenza viruses (AIV) outbreak strains and support other reports that H6 viruses are capable of forming stable lineages in chickens. The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers DQ408506-DQ408529.     

Generation and characterisation of monoclonal antibodies specific to avian influenza H7N9 haemagglutinin protein

Introduction: Emerging virulent strains of influenza virus pose a serious public health threat with potential pandemic consequences. A novel avian influenza virus, H7N9, breached the species barrier from infected domestic poultry to humans in 2013 in China. Since then, it has caused numerous infections in humans with a close contact to poultry. Materials and Methods: In this study, we describe the preliminary characterisation of five murine monoclonal antibodies (MAbs) developed against recombinant haemagglutinin (rHA) protein of avian H7N9 A/Anhui/1/2013 virus by their Western blot and enzyme-linked immunosorbent assay (ELISA) reactivity and binding affinity. Results: Of the five MAbs, four were highly specific to H7N9 HA and did not show any cross-reactivity in ELISA with rHA protein from pandemic as well as seasonal H1N1, H2N2, H3N2, H5N1 and influenza virus B (B/Brisbane/60/2008). However, one of the MAbs, MA-24, in addition to HA protein of H7N9 also reacted strongly with HA protein of H3N2 and weakly with HA of pandemic and seasonal H1N1 and H2N2. All the five MAbs also reacted with H7N9 rHA in Western blot. The MAbs bound H7N9 rHA with an equilibrium dissociation constant (K_D) ranging between 0.14 and 25.20 nM, indicating their high affinity to HA. Conclusions: These antibodies may be useful in developing diagnostic tools for the detection of influenza H7N9 virus infections.