宠物犬和猫流感病毒感染

近十年来犬和猫流感病毒感染报道迅速增多,不仅威胁到犬和猫的健康,也对公共卫生造成了影响。自2004年首次发生H3N8亚型流感病毒感染赛犬事件以来,犬流感一直在美国的赛犬和宠物犬中流行。在韩国和我国南方的犬群中出现了因H3N2亚型禽流感感染引起的肺炎病例。亚洲和欧洲均报道了猫H5N1亚型高致病性禽流感致死性感染病例,还通过实验研究发现H5N1亚型流感病毒可在猫与猫之间水平传播。这些现象预示着流感病毒进一步获得了感染哺乳动物的能力,其公共卫生意义需引起关注。为此,本文对犬和猫流感病毒感染的流行病学、临床症状、发病机制、诊断和防控措施进行了综述。     

Complete Genome Sequence of an Avian-Like H4N8 Swine Influenza Virus Discovered in Southern China

We report here the complete genomic sequence of an avian-like H4N8 swine influenza virus containing an H5N1 avian influenza virus segment from swine in southern China. Phylogenetic analyses of the sequences of all eight viral RNA segments demonstrated that these are wholly avian influenza viruses of the Asia lineage. To our knowledge, this is the first report of interspecies transmission of an avian H4N8 influenza virus to domestic pigs under natural conditions.     

Complete Genome Sequence of an H3N2 Canine Influenza Virus from Dogs in Jiangsu,China

A canine influenza virus (CIV) strain of avian origin designated A/Canine/Jiangsu/06/2010 (H3N2) was isolated from dogs exhibiting severe respiratory disease in Jiangsu, China. We announce the complete genome sequence of this viral strain and report major findings from the genomic analysis. This sequence will help us understand the molecular characteristics and evolutionary of H3N2 CIV in China.     

Complete Genome Sequence of a Novel Avian-Like H3N2 Swine Influenza Virus Discovered in Southern China

We report here the complete genomic sequence of a novel avian-like H3N2 swine influenza virus containing an H5N1 highly pathogenic avian influenza virus segment that was obtained from swine in southern China. Phylogenetic analysis indicated that this virus might originate from domestic aquatic birds. The sequence information provided herein suggests that continuing study is required to determine if this virus can be established in the swine population and pose potential threats to public health.     

Emergence of avian H1N1 influenza viruses in pigs in China.

Avian influenza A viruses from Asia are recognized as the source of genes that reassorted with human viral genes to generate the Asian/57 (H2N2) and Hong Kong/68 (H3N2) pandemic strains earlier in this century. Here we report the genetic analysis of avian influenza A H1N1 viruses recently isolated from pigs in southern China, a host suspected to generate new pandemic strains through gene reassortment events. Each of the eight gene segments was of avian origin. Phylogenetic analysis indicates that these genes form an Asian sublineage of the Eurasian avian lineage, suggesting that these viruses are an independent introduction into pigs in Asia. The presence of avian influenza viruses in pigs in China places them in an optimal position for transmission to humans and may serve as an early warning of the emergence of the next human influenza virus pandemic.     

Isolation and characterization of H4N6 avian influenza viruses from pigs with pneumonia in Canada

In October 1999, H4N6 influenza A viruses were isolated from pigs with pneumonia on a commercial swine farm in Canada. Phylogenetic analyses of the sequences of all eight viral RNA segments demonstrated that these are wholly avian influenza viruses of the North American lineage. To our knowledge, this is the first report of interspecies transmission of an avian H4 influenza virus to domestic pigs under natural conditions.     

Genetic Characterization of a Novel Recombinant H5N2 Avian Influenza Virus Isolated from Chickens in Tibet

In this report, a novel H5N2 avian influenza virus (AIV) was isolated from chickens in Tibet in 2010, western China. Phylogenetic analysis demonstrated that it was a natural reassortant between H9N2 and H5N1 subtypes. It is of note that this virus has an HP genotype with HA, PB2, M, and NS genes homologous to those of A/peregrine falcon/Hong Kong/2142/2008(H5N1)-like HPAIV isolated from dead wild birds. Publishing this genome information will contribute to the investigation of avian influenza epidemiology and to further research of AIV''s biological properties.     

Genome Sequence of a Novel Reassortant H3N2 Avian Influenza Virus in Southern China

The distribution and prevalence of H3 subtype influenza viruses in avian and mammalian hosts constitutes a potential threat to both human and avian health. We report a complete genome sequence of a novel reassortant H3N2 avian influenza virus. Phylogenetic analysis showed that HA and NA showed the highest sequence homologies with those of A/white-backed munia/Hong Kong/4519/2009 (H3N2). However, the internal genes had the highest sequence homologies with those of H6 and H7 subtypes. The data provide further evidence of the existence of a natural reassortant H3N2 strain in southern China.     

Complete Genome Sequence of a Novel H9N2 Subtype Influenza Virus FJG9 Strain in China Reveals a Natural Reassortant Event

A/chicken/FJ/G9/09 (FJ/G9) is an H9N2 subtype avian influenza virus (H9N2 AIV) strain causing high morbidity that was isolated from broilers in Fujian Province of China in 2009. FJ/G9 has been used as the vaccine strain against H9N2 AIV infection in Fujian Province of China. Here, we report the complete genome sequence of FJ/G9 with natural six-way reassortment, which is the most complex genotype strain in China and even in the world so far. The present findings will aid in understanding the complexity and diversity of H9N2 subtype avian influenza virus.     

中国“人-猪-禽”基因重排H1N2亚型猪流感病毒全基因克隆及遗传进化的研究

[目的]为了研究2006年从广西病猪肺组织中分离的H1N2亚型猪流感病毒(SIV)A/Swine/Guangxi/13/2006(H1N2)(Sw/Gx/13/06)的遗传学特性和8个基因的来源.[方法]运用RT PCR方法对其全基因进行了克隆并运用分子生物学软件对其基因序列进行了遗传进化分析.[结果]血凝素(HA)、核蛋白(NP)、基质蛋白(M)和非结构蛋白(NS)基因来源于猪古典H1N1亚型流感病毒;神经氨酸酶(NA)和聚合酶蛋白(PB1)基因来源于人的H3N2亚型流感病毒;聚合酶蛋白(PA)和聚合酶蛋白(PB2)基因来自于禽流感病毒.[结论]可见Sw/GX/13/06是一株"人-猪-禽"三源基因重排H1N2亚型SIV且与美国(1999-2001年)和韩国(2002年)分离到该型病毒的有明显的亲缘关系.据我们所知,这是中国首次报道含有禽流感病毒基因片段的重排H1N2 SIV,该病毒是否对养猪业和人类公共卫生健康具有潜在的威胁,有待于进一步研究.     

近年来华东地区家鸭中禽流感病毒的亚型分布

[目的]为了研究近年来华东地区家鸭中禽流感病毒的亚型分布情况.[方法]对2002-2006年分离自华东地区家鸭的180株禽流感病毒的HA亚型和其中88株禽流感病毒的NA亚型分别进行了测定.[结果]近年来华东地区家鸭中至少存在9种HA亚型和6种NA亚型组成的H1N1,H3N1,H3N2,H3N8,H4N6,H5N1,H5N2,H6N2,H6N8,H8N4,H9N2,H10N3,H11N2共13种亚型的禽流感病毒.[结论]华东地区家鸭中有多种亚型的禽流感病毒分布,应加强家鸭禽流感的监测和防制工作.     

Complete Genome Sequence of an H5N2 Avian Influenza Virus Isolated from a Parrot in Southern China

We report the complete genome sequence of an H5N2 avian influenza virus (AIV) that was first isolated from a parrot in Guangdong in southern China in 2004. Genomic sequence and phylogenetic analyses showed that it was highly homologous with the North American H5N2 viruses and all eight genes of this virus belonged to the North American gene lineage. These data will help in the investigation of the epidemiology and host range of AIVs in southern China.     

Molecular analysis of the first avian influenza H5N1 isolates from fowl in Romania

Since the events of avian influenza (AI) caused by H5N1 subtype from Hong Kong (1997), the people worldwide have been confronted with new waves of epizootic influenza. In 2005 in Romania an unprecedent H5N1 epizootic occurred in domestic and wild birds. Therefore an immediate investigation by molecular approach of this highly pathogenic H5N1 strain was necessary. The virus isolation and the RNA extraction were performed in the Institute of Diagnosis and Animal Health while PCR and sequencing were carried out in Cantacuzino Institute. Herein we report the first evidence of H5N1 presence in Romanian fowls. The phylogenetic analysis of haemagglutinin and neuraminidase gene indicated a close relationship of Romanian strains to those from Siberia and China. The virological and molecular analysis of the first strains of avian virus from Romania confirmed the presence of H5N1 subtype, belonging to the genetic line Z. These results indicate that the avian virus from this genetic line is directly derived from the highly pathogenic viruses isolated in China and Russia in 2005.     

Sequence analysis and receptor specificity of the hemagglutinin of a recent influenza H2N2 virus isolated from chicken in North America

Influenza viruses bind host cells following an interaction between the viral hemagglutinin (HA) protein and host cell sialylated glycoproteins and glycolipids. Differences in binding affinities of the HAs for different types of sialic acid linkages (α2-3 vs. α2-6) contribute to determining the host range of an influenza virus. The ability of an avian influenza virus HA to bind the human form of the receptor may be one requirement for an avian virus to propagate in the human population. In this paper, we describe the characterization of the HA from an H2N2 virus isolated from a Pennsylvania chicken farm in 2004. Sequence analysis revealed that this HA is a member of the Eurasian clade, and receptor binding studies show that it maintains its specificity for the avian influenza virus α2-3 linked sialic acid receptor.     

人感染H7亚型禽流感事件

本研究综述了自1959年以来国内外发生的人感染H7亚型禽流感事件。大多数是在家禽爆发禽流感期间,农场工人在处置感染鸡群过程中被暴露而感染;也有曾接触活禽或曾到过活禽市场而感染;有经禽流感病毒致病的哺乳动物（海豹）感染于人或实验室感染（事故）所致。引起人感染的H7亚型中已知有H7N2、H7N3、H7N7以及2013年在中国发现的新的致病亚型H7N9。H7N2、H7N3、H7N7感染以结膜炎为主,大多为轻症;而H7N9感染以严重的呼吸道感染为特征,表现为重症肺炎,呼吸窘迫综合症,病死率高达33.6%。     

Conservation of T cell epitopes between seasonal influenza viruses and the novel influenza A H7N9 virus

A novel avian influenza A (H7N9) virus recently emerged in the Yangtze River delta and caused diseases, often severe, in over 130 people. This H7N9 virus appeared to infect humans with greater ease than previous avian influenza virus subtypes such as H5N1 and H9N2. While there are other potential explanations for this large number of human infections with an avian influenza virus, we investigated whether a lack of conserved T-cell epitopes between endemic H1N1 and H3N2 influenza viruses and the novel H7N9 virus contributes to this observation. Here we demonstrate that a number of T cell epitopes are conserved between endemic H1N1 and H3N2 viruses and H7N9 virus. Most of these conserved epitopes are from viral internal proteins. The extent of conservation between endemic human seasonal influenza and avian influenza H7N9 was comparable to that with the highly pathogenic avian influenza H5N1. Thus, the ease of inter-species transmission of H7N9 viruses (compared with avian H5N1 viruses) cannot be attributed to the lack of conservation of such T cell epitopes. On the contrary, our findings predict significant T-cell based cross-reactions in the human population to the novel H7N9 virus. Our findings also have implications for H7N9 virus vaccine design.     

Novel H7N9 Influenza Virus Shows Low Infectious Dose,High Growth Rate,and Efficient Contact Transmission in the Guinea Pig Model

The zoonotic outbreak of H7N9 subtype avian influenza virus that occurred in eastern China in the spring of 2013 resulted in 135 confirmed human cases, 44 of which were lethal. Sequencing of the viral genome revealed a number of molecular signatures associated with virulence or transmission in mammals. We report here that, in the guinea pig model, a human isolate of novel H7N9 influenza virus, A/Anhui/1/2013 (An/13), is highly dissimilar to an H7N1 avian isolate and instead behaves similarly to a human seasonal strain in several respects. An/13 was found to have a low 50% infectious dose, grow to high titers in the upper respiratory tract, and transmit efficiently among cocaged guinea pigs. The pH of fusion of the hemagglutinin (HA) and the binding of virus to fixed guinea pig tissues were also examined. The An/13 HA displayed a relatively elevated pH of fusion characteristic of many avian strains, and An/13 resembled avian viruses in terms of attachment to tissues. One important difference was seen between An/13 and both the H3N2 human and the H7N1 avian viruses: when inoculated intranasally at a high dose, only the An/13 virus led to productive infection of the lower respiratory tract of guinea pigs. In sum, An/13 was found to retain fusion and attachment properties of an avian influenza virus but displayed robust growth and contact transmission in the guinea pig model atypical of avian strains and indicative of mammalian adaptation.     

Novel Avian Influenza A (H7N9) Virus Induces Impaired Interferon Responses in Human Dendritic Cells

In March 2013 a new avian influenza A(H7N9) virus emerged in China and infected humans with a case fatality rate of over 30%. Like the highly pathogenic H5N1 virus, H7N9 virus is causing severe respiratory distress syndrome in most patients. Based on genetic analysis this avian influenza A virus shows to some extent adaptation to mammalian host. In the present study, we analyzed the activation of innate immune responses by this novel H7N9 influenza A virus and compared these responses to those induced by the avian H5N1 and seasonal H3N2 viruses in human monocyte-derived dendritic cells (moDCs). We observed that in H7N9 virus-infected cells, interferon (IFN) responses were weak although the virus replicated as well as the H5N1 and H3N2 viruses in moDCs. H7N9 virus-induced expression of pro-inflammatory cytokines remained at a significantly lower level as compared to H5N1 virus-induced “cytokine storm” seen in human moDCs. However, the H7N9 virus was extremely sensitive to the antiviral effects of IFN-α and IFN-β in pretreated cells. Our data indicates that different highly pathogenic avian viruses may show considerable differences in their ability to induce host antiviral responses in human primary cell models such as moDCs. The unexpected appearance of the novel H7N9 virus clearly emphasizes the importance of the global influenza surveillance system. It is, however, equally important to systematically characterize in normal human cells the replication capacity of the new viruses and their ability to induce and respond to natural antiviral substances such as IFNs.     

Phylogeography of Avian influenza A H9N2 in China

Background

During the past two decades, avian influenza A H9N2 viruses have spread geographically and ecologically in China. Other than its current role in causing outbreaks in poultry and sporadic human infections by direct transmission, H9N2 virus could also serve as an progenitor for novel human avian influenza viruses including H5N1, H7N9 and H10N8. Hence, H9N2 virus is becoming a notable threat to public health. However, despite multiple lineages and genotypes that were detected by previous studies, the migration dynamics of the H9N2 virus in China is unclear. Increasing such knowledge would help us better prevent and control H9N2 as well as other future potentially threatening viruses from spreading across China. The objectives of this study were to determine the source, migration patterns, and the demography history of avian influenza A H9N2 virus that circulated in China.

Results

Using Bayesian phylogeography framework, we showed that the H9N2 virus in mainland China may have originated from the Hong Kong Special Administrative Region (SAR). Southern China, most likely the Guangdong province acts as the primary epicentre for multiple H9N2 strains spreading across the whole country, and eastern China, most likely the Jiangsu province, acts as an important secondary source to seed outbreaks. Our demography inference suggests that during the long-term migration process, H9N2 evolved into multiple diverse lineages and then experienced a selective sweep, which reduced its genetic diversity. Importantly, such a selective sweep may pose a greater threat to public health because novel strains confer higher fitness advantages than strains being replaced and could generate new viruses through reassortment.

Conclusion

Our analyses indicate that migratory birds, poultry trade and transportation have all contributed to the spreading of the H9N2 virus in China. The ongoing migration and evolution of H9N2, which poses a constant threat to the human population, highlights the need for a more comprehensive surveillance of wild birds and for the enhancement of biosafety for China’s poultry industry.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1110) contains supplementary material, which is available to authorized users.     

Complete Genome Sequence Analysis of an H6N1 Avian Influenza Virus Isolated from Guangxi Pockmark Ducks

We report here the complete genomic sequence of a novel H6N1 avian influenza virus strain, A/Duck/Guangxi/GXd-5/2010(H6N1), isolated from pockmark ducks in Guangxi Province, Southern China. All of the 8 gene segments of A/Duck/Guangxi/GXd-5/2010(H6N1) are attributed to the Eurasian lineage; the amino acid motif of the cleavage site between HA1 and HA2 was P-Q-I-E-T-R-G. These are typical characteristics of the low-pathogenicity avian influenza virus. This study will help to understand the epidemiology and molecular characteristics of avian influenza virus in ducks.