尾静脉注射和鼻腔接种禽流感H5N1亚型病毒对血细胞的影响

[目的]Balb/c小鼠通过尾静脉注射和鼻腔接种禽流感H5N1亚型病毒造疾病模型,观察其血细胞变化。[方法]以禽流感H5N1亚型病毒通过静脉和鼻腔接种Balb/c小鼠,分别在0~7天和0~11天取血进行血细胞计数和分类,同时对于静脉接种方法进行了0~8小时的短时间监控。[结果]静脉接种途径在接种病毒后2小时就能显著的降低小鼠的白细胞总数、粒细胞及淋巴细胞数,白细胞总数及淋巴细胞数在第3天、粒细胞数在第2天就恢复正常而后均显著升高;而鼻腔接种仅在1~3天淋巴细胞有所降低,而后恢复正常;1~6天白细胞总数及粒细胞数显著升高,而后恢复正常。[结论]从血细胞变化而言,静脉接种相比鼻腔接种方法要好。

Antiviral activity of five Asian medicinal pant crude extracts against highly pathogenic H5N1 avian influenza virus

Objective: To study the antiviral properties of the five Asian medicinal plants against in vitro infection by the highly pathogenic avian influenza virus(H5N1).Methods: Crude extracts of Andrographis paniculata, Curcuma longa(C. longa),Gynostemma pentaphyllum, Kaempferia parviflora(K. parviflora), and Psidium guajava obtained by both water and ethanol extractions were investigated for their cytotoxicity in the Madin–Darby canine kidney cells. Thereafter, they were investigated in vitro for antiviral activity and cytokine response upon H5N1 virus infection.Results: The results revealed that both water and ethanol extracts of all the five studied plants showed significant antiviral activity against H5N1 virus. Among these plants,C. longa and K. parviflora showed strong anti-H5N1 activity. Thus, they were selected for further studies on their cytokine response upon virus infection. It was found that ethanol and water crude extracts of C. longa and K. parviflora induced significant upregulation of TNF-a and IFN-b m RNA expressions, suggesting their roles in the inhibition of H5N1 virus replication.Conclusions: To the best of the authors' knowledge, this study is among the earliest reports to illustrate the antiviral property of these Asian medicinal plants against the highly pathogenic avian H5N1 influenza virus. The results of this study shed light on alternative therapeutic sources for treatment of H5N1 influenza virus infection in the future.

Reference Gene Selection for Normalization of PCR Analysis in Chicken Embryo Fibroblast Infected with H5N1 AIV

Chicken embryo fibroblasts (CEFs) are among the most commonly used cells for the study of interactions between chicken hosts and H5N1 avian influenza virus (AIV).In this study,the expression of eleven housekeeping genes typically used for the normalization of quantitative real-time PCR (QPCR) analysis in mammals were compared in CEFs infected with H5N1 AIV to determine the most reliable reference genes in this system.CEFs cultured from 10-day-old SPF chicken embryos were infected with 100 TCID50 of H5N1 AIV and harvested at 3,12,24 and 30 hours post-infection.The expression levels of the eleven reference genes in infected and uninfected CEFs were determined by real-time PCR.Based on expression stability and expression levels,our data suggest that the ribosomal protein L4 (RPL4) and tyrosine 3-monooxygenase tryptophan 5-monooxygenase activation protein zeta polypeptide (YWHAZ) are the best reference genes to use in the study of host cell response to H5N1 AIV infection.However,for the study of replication levels of H5N1 AIV in CEFs,the β-actin gene (ACTB) and the ribosomal protein L4 (RPL4) gene are the best references.

Cross-neutralizing Anti-hemagglutinin Antibodies Isolated from Patients Infected with Avian Influenza A(H5N1) Virus

Objective To recover broad-neutralizing monoclonal antibodies(Bn Abs)from avian influenza A(H5N1)virus infection cases and investigate their genetic and functional features.Methods We screened the Abs repertoires of expanded B cells circulating in the peripheral blood of H5N1 patients.The genetic basis,biological functions,and epitopes of the obtained Bn Abs were assessed and modeled.Results Two Bn Abs,2-12 D5,and 3-37 G7.1,were respectively obtained from two human H5N1 cases on days 12 and 21 after disease onset.Both Abs demonstrated cross-neutralizing and Ab-dependent cellular cytotoxicity(ADCC)activity.Albeit derived from distinct Ab lineages,i.e.,V^H1-69-D2-15-JH^4(2-12D5)and V^H1-2-D3-9-JH^5(3-32 G7.1),the Bn Abs were directed toward CR6261-like epitopes in the HA stem,and HA2 I45 in the hydrophobic pocket was the critical residue for their binding.Signature motifs for binding with the HA stem,namely,IFY in VH1-69-encoded Abs and LXYFXW in D3-9-encoded Abs,were also observed in 2-12D5 and 3-32 G7.1,respectively.Conclusions Cross-reactive B cells of different germline origins could be activated and re-circulated by avian influenza virus.The HA stem epitopes targeted by the Bn Abs,and the two Ab-encoding genes usage implied the VH1-69 and D3-9 are the ideal candidates triggered by influenza virus for vaccine development.

A Mechanism-based 3D-QSAR and DFT Approach for the Prediction of H5N1 Entry Inhibitory Potency of 3-O-β-chacotriosyl Ursolic Acid Derivatives

In this work, 25 3-O-β-chacotriosyl ursolic acid derivatives were employed to achieve the highly reliable and predictive 3 D-QSAR models by Co MFA and Co MSIA methods, respectively. The predictive capabilities of two constructed CoMFA and CoMSIA models were verified by the leave-one-out cross-validation method. The results showed that the cross-validated coefficient（q2） and non-cross-validated coefficient（R2） were 0.559, 0.981 in the CoMFA model and 0.696, 0.978 in the CoM SIA model, respectively, which suggests that these two models are robust and have good exterior predictive capabilities. Furthermore, based on the contour maps information of two models, ten novel inhibitors with higher inhibitory potency were designed, and the quantum chemical calculation of density functional theory（DFT） was performed to investigate the mechanism why the designed molecules have stronger inhibitory activity than the lead compound. The calculations show that the C-50 position of lead compound is a key active site for the enhancement of inhibitory activity, and it should be introduced into the large electron withdrawing group, which would result in generating potent and selective H5 N1 entry inhibitors. We expect that the results in this paper could provide important information to develop new potent H5 N1 entry inhibitors.

Cloning of M and NP Gene of H5N1 Avian Influenza Virus and Immune Efficacy of their DNA Vaccines

H5N1 鸟的流行性感冒病毒(A/chicken/Hubei/489/2004 ) 的 M 和 NP 基因被 RT-PCR 从病毒的 RNA 放大，并且分别地克隆向量进 pMD18-T。包含 M 基因(pHM6-m ) 或 NP 基因(pHM6-np ) 的表示 plasmid 然后被把 M 或 NP 基因插入到 pHM6 优核质表示向量构造；构造 plasmid 然后被定序。32 只 BALB/c 老鼠(6-week-old ) 在随机被划分成四个组。三组 BALB/c 老鼠被接种一次有 plasmid pHM6-m， plasmid pHM6-np 的 30 渭 g 或 plasmid pHM6-m (15 渭 g ) 和 pHM6-np (15 渭 g ) 的混合的任何一个 30 渭 g 的肌内的线路分别地。老鼠的一个另外的组作为控制与 100 渭 l PBS 被注射。二个星期以后，所有老鼠与相应 H5N1 鸟的流行性感冒病毒被质问，并且在下列 12 天内观察了。在 pHM6-m 组， pHM6-np 组和混合 plasmids 组的老鼠的幸存率分别地是 62.5% ， 25.0% 和 50.0% 。结果证明有效保护能被 pHM6-m 或 pHM6-np 提供，但是 pHM6-m 比 pHM6-np 提供了更好保护的效果。关键词 H5N1 流行性感冒病毒 - M 基因 - NP 基因 - 克隆 - DNA 疫苗的 CLC 数字 S852.65 基础条款：国家基本科学才能训练资助(NSFC J0630648 )

Characterization of Highly Pathogenic Avian Influenza H5N1 Viruses Isolated from Domestic Poultry in China

The highly pathogenic avian influenza （HPAI） H5N1 virus has caused several outbreaks in domestic poultry. Despite great efforts to control the spread of this virus, it continues to evolve and poses a substantial threat to public health because of a high mortality rate. In this study, we sequenced whole genomes of eight H5N1 avian influenza viruses isolated from domestic poultry in eastern China and compared them with those of typical influenza virus strains. Phylogenetic analyses showed that all eight genomes belonged to clade 2.3.2.1 and clade 7.2, the two main circulating clades in China. Viruses that clustered in clade 2.3.2.1 shared a high degree of homology with H5N1 isolates located in eastern Asian. Isolates that clustered in clade 7.2 were found to circulate throughout China, with an east-to-west density gradient. Pathogenicity studies in mice showed that these isolates replicate in the lungs, and clade 2.3.2.1 viruses exhibit a notably higher degree of virulence compared to clade 7.2 viruses. Our results contribute to the elucidation of the biological characterization and pathogenicity of HPAI H5N1 viruses.

Variation and evolution of NP genes of human avian H_5N_1 virus strains

In order to reveal variation and revolution of NP genes of human avian H5 N1 influenza virus strains, the NP gene of a human avian H5 N1 influenza virus strain in Guangdong was sequenced and the global NP genes of strains were retrieved. The sequences were analyzed by DNAStar 5.0, and the evolutionary speed was studied with reference to the epidemiological data. It was found that NP genes of 45 strains during 1997-2006 were homologically classified into three groups： strains in 1997-1998, strains in 2004-2005 and strains from 2003 to 2006. There were 35 substitutions in NPs in all strains accounting for a ratio of 7.03% （35/498）. An additional glycoprotein domain （NGT430-432） was found in NP genes in the strains of 2003-2006, the mutation of N370S in GD-01-06 resulted in occurrence of one more glycoprotein domain （NES368-370）. In the synonymous variation, Ks values in NP were 2.03 × 10^-5-2.55 × 10^-5 Nt/d and K. values in NP were 1.58 × 10^-6-3.10 × 10^-6 Nt/d. There didn＇t exist obviously selective pressure. An additional glycoprotein domain in every strain of 2003-2006 and one more in strain GD-01-06 might change the antigenicity of human avian H5 N1 influenza virus. The variation on human avian H5 N1 influenza strains occurred frequently in the natural world, which would result in high probability of human-human transmission along with the natural evolution of the virus.

Phosphorylation of PB2 at serine 181 restricts viral replication and virulence of the highly pathogenic H5N1 avian influenza virus in mice

Influenza A virus(IAV)continues to pose a pandemic threat to public health,resulting a high mortality rate annually and during pandemic years.Posttranslational modification of viral protein plays a substantial role in regulating IAV infection.Here,based on immunoprecipitation(IP)-based mass spectrometry(MS)and purified virus-coupled MS,a total of 89 phosphorylation sites distributed among 10 encoded viral proteins of IAV were identified,including 60 novel phosphorylation sites.Additionally,for the first time,we provide evidence that PB2 can also be acetylated at site K187.Notably,the PB2 S181 phosphorylation site was consistently identified in both IP-based MS and purified virus-based MS.Both S181 and K187 are exposed on the surface of the PB2 protein and are highly conserved in various IAV strains,suggesting their fundamental importance in the IAV life cycle.Bioinformatic analysis results demonstrated that S181E/A and K187Q/R mimic mutations do not significantly alter the PB2 protein structure.While continuous phosphorylation mimicked by the PB2 S181E mutation substantially decreases viral fitness in mice,PB2 K187Q mimetic acetylation slightly enhances viral virulence in mice.Mechanistically,PB2 S181E substantially impairs viral polymerase activity and viral replication,remarkably dampens protein stability and nuclear accumulation of PB2,and significantly weakens IAV-induced inflammatory responses.Therefore,our study further enriches the database of phosphorylation and acetylation sites of influenza viral proteins,laying a foundation for subsequent mechanistic studies.Meanwhile,the unraveled antiviral effect of PB2 S181E mimetic phosphorylation may provide a new target for the subsequent study of antiviral drugs.

Highlight the significance of genetic evolution of H5N1 avian flu

Agrowing concern has focused on the recent ,identification of influenza A H5N1 virus in Asia. Previously thought to infect only wild birds and poultry, H5N1 has now infected humans, cats, pigs, and other mammals in an ongoing outbreak, often with fatal results. According to a report from the World Health Organization （WHO）, 217 human H5N1 cases have been confirmed and 123 of them have been fatal as of May 19, 2006.1 But many questions remain unanswered, for example how the H5N1 virus could cross species barriers and acquire the ability to infect humans;

Effects of NS1 variants of H5N1 influenza virus on interferon induction, TNFa response and p53 activity

Non-structural protein 1(NS1)is an important virulence factor of the highly pathogenic H5N1 avian influenza virus.A five-amino-acid(5 aa)deletion at position 80–84 and an aspartic acid to glutamic acid substitution at position 92(D92E)are two major NS1 mutations that are highly correlated with enhanced virulence.To investigate the effect of these mutations in H5N1 virulence,three H5N1-NS1 variants were constructed:NS51(lacking 5 aa at position 80–84),NS51(I)(carrying a 5-aa insertion at position 80–84)and NS51(IM)(carrying both the 5-aa insertion and the D92E mutation).We examined the effects of these mutations on interferon(IFN)induction,tumor-necrosis factor(TNF)a response,p53 activity and apoptosis.We found that the D92E mutation eliminated NS1’s repressive effect on IFN induction,while the 5-aa deletion resulted in enhanced resistance to TNFa responses.We also observed that all three variants exhibited a similar suppressive effect on p53 transcriptional activity,although none of them significantly influenced apoptosis of host cells.Our findings shed new light on the role of NS1 in the pathogenicity of H5N1 virus.

The interaction of influenza H5N1 viral hemagglutinin with sialic acid receptors leads to the activation of human γδT cells

Highly pathogenic avian influenza H5N 1 epidemics are a significant public health hazard. Genetically engineered H5N 1 viruses with mammalian transmission activity highlight the potential risk of a human influenza H5N 1 pandemic. Understanding the underlying principles of the innate immune system in response to influenza H5N 1 viruses will lead to improved prevention and control of these potentially deadly viruses, γδT cells act as the first line of defense against microbial infection and help initiate adaptive immune responses during the early stages of viral infection. In this study, we investigated the molecular mechanisms of γδ T cells in response to influenza H5N1 viral infection, We found that recombinant hemagglutinin （rHA） derived from three different strains of influenza H5N 1 viruses elicited the activation of γδ T cells cultured in peripheral blood mononuclear cells （PBMCs）. Both the cell surface expression of CD69, an early activation marker on γδ T cells, and the production of interferon-y （IFN-y） were significantly increased. Notably, the rHA protein-induced γδ T-cell activation was not mediated by TCRγδ, NKG2D or pattern recognition receptors （PRRs） or NKp46 receptors. The interaction of rHA proteins with sialic acid receptors may play a critical role in γδ T-cell activation. Our data may provide insight into the mechanisms underlyingγδT-cell activation in response to infection with H5N1 viruses.

A critical role of IL-17 in modulating the B-cell response during H5N1 influenza virus infection

Interleukin-17(IL-17),a member of the IL-17 cytokine family,plays a crucial role in mediating the immune response against extracellular bacteria and fungi in the lung.Although there is increasing evidence that IL-17 is involved in protective immunity against H1 and H3 influenza virus infections,little is known about the role of IL-17 in the highly pathogenic H5N1 influenza virus infection.In this study,we show that H5N1-infected IL-17 knockout(KO)mice exhibit markedly increased weight loss,more pronounced lung immunopathology and significantly reduced survival rates as compared with infected wild-type controls.Moreover,the frequency of B cells in the lung were substantially decreased in IL-17 KO mice after virus infection,which correlated with reduced CXCR5 expression in B cells and decreased CXCL13 production in the lung tissue of IL-17 KO mice.Consistent with this observation,B cells from IL-17 KO mice exhibited a significant reduction in chemokine-mediated migration in culture.Taken together,these findings demonstrate a critical role for IL-17 in mediating the recruitment of B cells to the site of pulmonary influenza virus infection in mice.

Potential infections of H5N1 and H9N2 avian influenza do exist in Guangdong populations of China

Background Southeast China is one of the sites of influenza origin. During 2003-2004, nine avian influenza outbreaks took place in Guangdong Province. But no human case was reported. To examine the status of potential human infection by human influenza （H1N1, H3N2） and avian influenza （H5N1, H7N7, H9N2） in the avian influenza epidemic area of Guangdong Province, China, we conducted a seroepidemiologic survey in the people of this area from April to June of 2004.Methods Three out of 9 H5N1 avian influenza affected poultry areas in Guangdong were randomly selected, and the population living within 3 kilometers of the affected poultries were chosen as the survey subjects. One thousand two hundred and fourteen people were selected from 3 villages at random. Human and avian influenza antibody titers were determined by hemagglutination-inhibition （HI） test and microneutralization test （MNT）. Results The positive rate of antibody to H5N1 was 3.03% in the occupational exposure group and 2.34% in general citizens group; that of H9N2 was 9.52% in the occupational exposure group and 3.76% in the general citizens group. Moreover one case in the occupational exposure group was positive for H7N7. One year later, all previously positive cases had become negative except for one H5N1-positive case. Conclusion The observations imply that H5N1 and H9N2 avian influenza silent infections exist in Guangdong populations.

Analysis of human infectious avian influenza virus:Hemagglutinin genetic characteristics in Asia and Africa from 2004 to 2009

In the present study,we used nucleotide and protein sequences of avian influenza virus H5N1,which were obtained in Asia and Africa,analyzed HA proteins using ClustalX1.83 and MEGA4.0,and built a genetic evolutionary tree of HA nucleotides.The analysis revealed that the receptor specificity amino acid of A/HK/213/2003,A/Turkey/65596/2006 and etc mutated into QNG,which could bind withá-2,3 galactose andá-2,6 galactose.A mutation might thus take place and lead to an outbreak of human infections of avian influenza virus.The mutations of HA protein amino acids from 2004 to 2009 coincided with human infections provided by the World Health Organization,indicating a“low–high–highest–high–low”pattern.We also found out that virus strains in Asia are from different origins:strains from Southeast Asia and East Asia are of the same origin,whereas those from West Asia,South Asia and Africa descend from one ancestor.The composition of the phylogenetic tree and mutations of key site amino acids in HA proteins reflected the fact that the majority of strains are regional and long term,and virus diffusions exist between China,Laos,Malaysia,Indonesia,Azerbaijan,Turkey and Iraq.We would advise that pertinent vaccines be developed and due attention be paid to the spread of viruses between neighboring countries and the dangers of virus mutation and evolution.

Predicted epitopes of H5N1 bird flu virus by bioinformatics method: a clue for further vaccine development

To the Editor： Bird flu or avian flu, caused by H5N1 virus, is a new emerging infectious disease. It is noted that this H5N1 virus jumped the species barrier and caused severe disease with high mortality in humans in many countries. The continued westward dissemination of H5N1 influenza A viruses in avian populations and the nearly 50% mortality of humans infected with H5N1 are a source of great international concern.1 Providing sufficient antiviral drugs and development and approval of new vaccines are the keys for control of the possible emerging pandemic of this atypical influenza.1＇2 Based on the advance in bioinformatics, the immunomics becomes a new alternative in vaccine development.3 Advanced technologies for vaccine development, such as genome sequence analysis, microarray, proteomics approach, high-throughput cloning, bioinformatics database tools and computational vaccinology can be applied for vaccine development of several diseases including new emerging diseases.

Generation and application of replication-competent Venus-expressing H5N1,H7N9,and H9N2 influenza A viruses

The generation and application of replication-competent influenza A virus （IAV） expressing a reporter gene represent a valuable tool to elucidate the mechanism of viral pathogenesis and establish new coun- termeasures to combat the threat of influenza. Here, replication-competent 1AVs with a neuraminidase （NA） segment harboring a fluorescent reporter protein, Venus, were generated in the background of H5N1, H7N9, and H9N2 influenza viruses, the three subtypes of viruses with imminent pandemic poten- tial. All three reporter viruses maintained virion morphology, replicated with similar or slightly reduced titers relative to their parental viruses, and stably expressed the fluorescent signal for at least two pas- sages in embryonated chicken eggs. As a proof of concept, we demonstrated that these reporter viruses, used in combination with a high-content imaging system, can serve as a convenient and rapid tool for the screening of antivirals and host factors involved in the virus life cycle. Moreover. the reporter viruses demonstrated similar growth properties and tissue tropism as their parental viruses in mice, among which the HTN9 NA-Venus virus could potentially be used in ex vivo studies to better understand H7N9 pathogenesis or to develop novel therapeutics.

Different infection routes of avian influenza A (H5N1) virus in mice

The continuing outbreaks of avian influenza A H5N1 virus infection in Asia and Africa have caused worldwide concern because of the high mortality rates in poultry,suggesting its potential to become a pandemic influenza virus in humans.The transmission route of the virus among either the same species or different species is not yet clear.Broilers and BABL/c mice were inoculated with the H5N1 strain of influenza A virus isolated from birds.The animals were inoculated with 0.1 mL 106.83 TCID50 of H5N1 virus oronasally,intraperitoneally and using eye drops.The viruses were examined by virological and pathological assays.In addition,to detect horizontal transmission,in each group,healthy chicks and mice were mixed with those infected.Viruses were detected in homogenates of the heart,liver,spleen,kidney and blood of the infected mice and chickens.Virus antigen was not detected in the spleen,kidney or gastrointestinal tract,but detected by Plaque Forming Unit(PFU)assay in the brain,liver and lung without degenerative change in these organs(in the group inoculated using eye drops.The detection results for mice inoculated using eye drops suggest that this virus might have a different tissue tropism from other influenza viruses mainly restricted to the respiratory tract in mice.All chicken samples tested positive for the virus,regardless of the method of inoculation.Avian influenza A H5N1 viruses are highly pathogenic to chickens,but its virulence in other animals is not yet known.To sum up,the results suggest that the virus replicates not only in different animal species but also through different routes of infection.In addition,the virus was detection not only in the respiratory tract but also in multiple extra-respiratory tissues.This study demonstrates that H5N1 virus infection in mice can cause systemic disease and spread through potentially novel routes within and between mammalian hosts.

New light shed on global epidemiology of avian influenza A H5N1 virus infection in humans,1997—2015

With the support by the National Natural Science Foundation of China,the research team led by Prof.Yu Hongjie(余宏杰)at the School of Public Health,Fudan University,Key Laboratory of Public Health Safety,Ministry of Education,and the Key Laboratory of Surveillance and Early Warning on Infectious Disease,Chinese Center for Disease Control and Prevention,has published the paper entitled“Global epi-