Your search keyword '"Honglei Sun"' showing total 31 results

1. Swine MicroRNAs ssc-miR-221-3p and ssc-miR-222 Restrict the Cross-Species Infection of Avian Influenza Virus.

Author

Jingwei Song, Honglei Sun, Haoran Sun, Zhimin Jiang, Junda Zhu, Chenxi Wang, Weihua Gao, Tong Wang, Juan Pu, Yipeng Sun, Hsiang-Yu Yuan, and Jinhua Liu

Subjects

*AVIAN influenza A virus, *MICRORNA, *BCL genes, *SWINE influenza, *NUCLEAR membranes, *SWINE

Abstract

Avian influenza virus (AIV) can cross species barriers to infect humans and other mammals. However, these species-cross transmissions are most often dead-end infections due to host restriction. Current research about host restriction focuses mainly on the barriers of cell membrane, nuclear envelope, and host proteins; whether microRNAs (miRNAs) play a role in host restriction is largely unknown. In this study, we used porcine alveolar macrophage (PAM) cells as a model to elucidate the role of miRNAs in host range restriction. During AIV infection, 40 dysregulation expressed miRNAs were selected in PAM cells. Among them, two Sus scrofa (ssc; swine) miRNAs, ssc-miR-221-3p and ssc-miR-222, could inhibit the infection and replication of AIV in PAM cells by directly targeting viral genome and inducing cell apoptosis via inhibiting the expression of anti-apoptotic protein HMBOX1. Avian but not swine influenza virus caused upregulated expressions of ssc-miR-221-3p and ssc-miR- 222 in PAM cells. We further found that NF-B P65 was more effectively phosphorylated upon AIV infection and that P65 functioned as a transcription activator to regulate the AIV-induced expression of miR-221-3p/222. Importantly, we found that ssc-miR-221-3p and ssc-miR-222 could also be specifically upregulated upon AIV infection in newborn pig tracheal epithelial (NPTr) cells and also exerted anti-AIV function. In summary, our study indicated that miRNAs act as a host barrier during crossspecies infection of influenza A virus. [ABSTRACT FROM AUTHOR]

Published

2020

2. Prevalent Eurasian avian-like H1N1 swine influenza virus with 2009 pandemic viral genes facilitating human infection.

Author

Honglei Sun, Yihong Xiao, Jiyu Liu, Dayan Wang, Fangtao Li, Chenxi Wang, Chong Li, Junda Zhu, Jingwei Song, Haoran Sun, Zhimin Jiang, Litao Liu, Xin Zhang, Kai Wei, Dongjun Hou, Juan Pu, Yipeng Sun, Qi Tong, Yuhai Bi, and Kin-Chow Chang

Subjects

*H1N1 influenza, *VIRAL genes, *INFLUENZA A virus, H1N1 subtype, *INFLUENZA viruses, *HUMAN genes

Abstract

Pigs are considered as important hosts or "mixing vessels" for the generation of pandemic influenza viruses. Systematic surveillance of influenza viruses in pigs is essential for early warning and preparedness for the next potential pandemic. Here, we report on an influenza virus surveillance of pigs from 2011 to 2018 in China, and identify a recently emerged genotype 4 (G4) reassortant Eurasian avian-like (EA) H1N1 virus, which bears 2009 pandemic (pdm/09) and triple-reassortant (TR)-derived internal genes and has been predominant in swine populations since 2016. Similar to pdm/09 virus, G4 viruses bind to human-type receptors, produce much higher progeny virus in human airway epithelial cells, and show efficient infectivity and aerosol transmission in ferrets. Moreover, low antigenic cross-reactivity of human influenza vaccine strains with G4 reassortant EA H1N1 virus indicates that preexisting population immunity does not provide protection against G4 viruses. Further serological surveillance among occupational exposure population showed that 10.4% (35/338) of swine workers were positive for G4 EA H1N1 virus, especially for participants 18 y to 35 y old, who had 20.5% (9/44) seropositive rates, indicating that the predominant G4 EA H1N1 virus has acquired increased human infectivity. Such infectivity greatly enhances the opportunity for virus adaptation in humans and raises concerns for the possible generation of pandemic viruses. [ABSTRACT FROM AUTHOR]

Published

2020

3. Prevalent Eurasian avian-like H1N1 swine influenza virus with 2009 pandemic viral genes facilitating human infection.

Author

Honglei Sun, Yihong Xiao, Jiyu Liu, Dayan Wang, Fangtao Li, Chenxi Wang, Chong Li, Junda Zhu, Jingwei Song, Haoran Sun, Zhimin Jiang, Litao Liu, Xin Zhang, Kai Wei, Dongjun Hou, Juan Pu, Yipeng Sun, Qi Tong, Yuhai Bi, and Kin-Chow Chang

Subjects

*H1N1 influenza, *VIRAL genes, *INFLUENZA A virus, H1N1 subtype, *INFLUENZA viruses, *HUMAN genes

Abstract

Pigs are considered as important hosts or "mixing vessels" for the generation of pandemic influenza viruses. Systematic surveillance of influenza viruses in pigs is essential for early warning and preparedness for the next potential pandemic. Here, we report on an influenza virus surveillance of pigs from 2011 to 2018 in China, and identify a recently emerged genotype 4 (G4) reassortant Eurasian avian-like (EA) H1N1 virus, which bears 2009 pandemic (pdm/09) and triple-reassortant (TR)-derived internal genes and has been predominant in swine populations since 2016. Similar to pdm/09 virus, G4 viruses bind to human-type receptors, produce much higher progeny virus in human airway epithelial cells, and show efficient infectivity and aerosol transmission in ferrets. Moreover, low antigenic cross-reactivity of human influenza vaccine strains with G4 reassortant EA H1N1 virus indicates that preexisting population immunity does not provide protection against G4 viruses. Further serological surveillance among occupational exposure population showed that 10.4% (35/338) of swine workers were positive for G4 EA H1N1 virus, especially for participants 18 y to 35 y old, who had 20.5% (9/44) seropositive rates, indicating that the predominant G4 EA H1N1 virus has acquired increased human infectivity. Such infectivity greatly enhances the opportunity for virus adaptation in humans and raises concerns for the possible generation of pandemic viruses. [ABSTRACT FROM AUTHOR]

Published

2020

4. M Gene Reassortment in H9N2 Influenza Virus Promotes Early Infection and Replication: Contribution to Rising Virus Prevalence in Chickens in China.

Author

Juan Pu, Honglei Sun, Yi Qu, Chenxi Wang, Weihua Gao, Junda Zhu, Yipeng Sun, Yuhai Bi, Yinhua Huang, Kin-Chow Chang, Jie Cui, and Jinhua Liu

Subjects

*INFLUENZA treatment, *INFLUENZA A virus, *VIRAL replication, *DISEASE prevalence, *MUTAGENESIS, *CHICKEN diseases

Abstract

Segment reassortment and base mutagenesis of influenza A viruses are the primary routes to the rapid evolution of high-fitness virus genotypes. We recently described a predominant G57 genotype of avian H9N2 viruses that caused countrywide outbreaks in chickens in China during 2010 to 2013, which led to the zoonotic emergence of H7N9 viruses. One of the key features of the G57 genotype is the replacement of the earlier A/chicken/Beijing/1/1994 (BJ/94)-like M gene with the A/quail/Hong Kong/G1/1997 (G1)-like M gene of quail origin. We report here the functional significance of the G1-like M gene in H9N2 viruses in conferring increased infection severity and infectivity in primary chicken embryonic fibroblasts and chickens. H9N2 virus housing the G1-like M gene, in place of the BJ/94-like M gene, showed an early surge in viral mRNA and viral RNA (vRNA) transcription that was associated with enhanced viral protein production and with an early elevated release of progeny virus comprising largely spherical rather than filamentous virions. Importantly, H9N2 virus with the G1-like M gene conferred extrapulmonary virus spread in chickens. Five highly represented signature amino acid residues (37A, 95K, 224N, and 242N in the M1 protein and 21G in the M2 protein) encoded by the prevalent G1-like M gene were demonstrated to be prime contributors to enhanced infectivity. Therefore, the genetic evolution of the M gene in H9N2 virus increases reproductive virus fitness, indicating its contribution to the rising virus prevalence in chickens in China. [ABSTRACT FROM AUTHOR]

Published

2017

5. Highly Pathogenic Avian Influenza H5N6 Viruses Exhibit Enhanced Affinity for Human Type Sialic Acid Receptor and In-Contact Transmission in Model Ferrets.

Author

Honglei Sun, Juan Pu, Yandi Wei, Yipeng Sun, Jiao Hu, Litao Liu, Guanlong Xu, Weihua Gao, Chong Li, Xuxiao Zhang, Yinhua Huang, Kin-Chow Chang, Xiufan Liu, and Jinhua Liu

Subjects

*AVIAN influenza, *SIALIC acids, *FERRET, *ALVEOLAR process, *MICROBIAL virulence

Abstract

Since May 2014, highly pathogenic avian influenza H5N6 virus has been reported to cause six severe human infections three of which were fatal. The biological properties of this subtype, in particular its relative pathogenicity and transmissibility in mammals, are not known. We characterized the virus receptor-binding affinity, pathogenicity, and transmissibility in mice and ferrets of four H5N6 isolates derived from waterfowl in China from 2013-2014. All four H5N6 viruses have acquired a binding affinity for human-like SAα2,6Gal-linked receptor to be able to attach to human tracheal epithelial and alveolar cells. The emergent H5N6 viruses, which share high sequence similarity with the human isolate A/Guangzhou/39715/2014 (H5N6), were fully infective and highly transmissible by direct contact in ferrets but showed less-severe pathogenicity than the parental H5N1 virus. The present results highlight the threat of emergent H5N6 viruses to poultry and human health and the need to closely track their continual adaptation in humans. [ABSTRACT FROM AUTHOR]

Published

2016

6. Influenza A Virus Acquires Enhanced Pathogenicity and Transmissibility after Serial Passages in Swine.

Author

Kai Wei, Honglei Sun, Zhenhong Sun, Yipeng Sun, Weili Kong, Juan Pu, Guangpeng Ma, Yanbo Yin, Hanchun Yang, Xin Guo, Kin-Chow Chang, and Jinhua Liu

Subjects

*H5N1 Influenza, *LABORATORY swine, *PANDEMICS, *VIRUS phylogeny, *VIRAL evolution, *INFECTIOUS disease transmission

Abstract

Genetic and phylogenetic analyses suggest that the pandemic H1N1/2009 virus was derived from well-established swine influenza lineages; however, there is no convincing evidence that the pandemic virus was generated from a direct precursor in pigs. Furthermore, the evolutionary dynamics of influenza virus in pigs have not been well documented. Here, we subjected a recombinant virus (rH1N1) with the same constellation makeup as the pandemic H1N1/2009 virus to nine serial passages in pigs. The severity of infection sequentially increased with each passage. Deep sequencing of viral quasispecies from the ninth passage found five consensus amino acid mutations: PB1 A469T, PA 1129T, NA N329D, NS1 N205K, and NEP T48N. Mutations in the hemagglutinin (HA) protein, however, differed greatly between the upper and lower respiratory tracts. Three representative viral clones with the five consensus mutations were selected for functional evaluation. Relative to the parental virus, the three viral clones showed enhanced replication and polymerase activity in vitro and enhanced replication, pathogenicity, and transmissibility in pigs, guinea pigs, and ferrets in vivo. Specifically, two mutants of rH1N1 (PB1 A469T and a combination of NS1 N205K and NEP T48N) were identified as determinants of transmissibility in guinea pigs. Crucially, one mutant viral clone with the five consensus mutations, which also carried D187E, K211E, and S289N mutations in its HA, additionally was able to infect ferrets by airborne transmission as effectively as the pandemic virus. Our findings demonstrate that influenza virus can acquire viral characteristics that are similar to those of the pandemic virus after limited serial passages in pigs. [ABSTRACT FROM AUTHOR]

Published

2014

7. Comparative Virus Replication and Host Innate Responses in Human Cells Infected with Three Prevalent Clades (2.3.4, 2.3.2, and 7) of Highly Pathogenic Avian Influenza H5N1 Viruses.

Author

Honglei Sun, Yipeng Sun, Juan Pu, Yi Zhang, Qingyu Zhu, Jing Li, Jiang Gu, Kin-Chow Chang, and Jinhua Liu

Subjects

*VIRAL replication, *HOST-virus relationships, *NATURAL immunity, *HUMAN cell cycle, *DISEASE prevalence, *H5N1 Influenza

Abstract

Highly pathogenic avian influenza H5N1 virus clades 2.3.4, 2.3.2, and 7 are the dominant cocirculating H5N1 viruses in poultry in China. However, humans appear to be clinically susceptible mostly to the 2.3.4 virus clade. Here, we demonstrated that A549 cells and human macrophages infected with clade 2.3.4 viruses produced significantly more viruses than those infected with the other two clades. Likewise, clade 2.3.4-infected macrophages caused the most severe cellular damage and strongest proinflammatory response. [ABSTRACT FROM AUTHOR]

Published

2014

8. Acute Respiratory Distress Syndrome Induced by a Swine 2009 H1N1 Variant in Mice.

Author

Yi Zhang, Honglei Sun, Lihong Fan, Yuan Ma, Yipeng Sun, Juan Pu, Jun Yang, Jian Qiao, Guangpeng Ma, and Jinhua Liu

Subjects

*ADULT respiratory distress syndrome, *H1N1 influenza, *HEMAGGLUTININ, *GENETIC mutation, *CYTOKINES, *CHEMOKINES

Abstract

Background: Acute respiratory distress syndrome (ARDS) induced by pandemic 2009 H1N1 influenza virus has been widely reported and was considered the main cause of death in critically ill patients with 2009 H1N1 infection. However, no animal model has been developed for ARDS caused by infection with 2009 H1N1 virus. Here, we present a mouse model of ARDS induced by 2009 H1N1 virus. Methodology Principal Findings: Mice were inoculated with A/swine/Shandong/731/2009 (SD/09), which was a 2009 H1N1 influenza variant with a G222D mutation in the hemagglutinin. Clinical symptoms were recorded every day. Lung injury was assessed by lung water content and histopathological observation. Arterial blood gas, leukocyte count in the bronchial alveolar lavage fluid and blood, virus titers, and cytokine levels in the lung were measured at various times post-inoculation. Mice infected with SD/09 virus showed typical ARDS symptoms characterized by 60% lethality on days 8-10 postinoculation, highly edematous lungs, inflammatory cellular infiltration, alveolar and interstitial edema, lung hemorrhage, progressive and severe hypoxemia, and elevated levels of proinflammatory cytokines and chemokines. Conclusions/Significance: These results suggested that we successfully established an ARDS mouse model induced by a virulent 2009 H1N1 variant without previous adaptation, which may be of benefit for evaluating the pathogenesis or therapy of human ARDS caused by 2009 H1N1 virus. [ABSTRACT FROM AUTHOR]

Published

2012

9. Multi-objective optimization-based prediction of excavation-induced tunnel displacement.

Author

Yuanqin Tao, Wei He, Honglei Sun, Yuanqiang Cai, and Junqiang Chen

Subjects

*TUNNELS, *EXCAVATION, *PARTICLE swarm optimization, *DATA analysis, *FINITE element method

Abstract

This paper proposes an inverse method for improving the prediction of tunnel displacements during adjacent excavation. In this framework, staged data assimilation and parameter identification are conducted using the multi-objective particle swarm optimization algorithm. Recent monitoring data are assumed to be more informative and assigned more weights in the multi-objective optimization to improve the prediction accuracy. Then, an empirical formula is applied to correct the time effect of tunnel displacement. The Kriging method is introduced to surrogate the finite element model to reduce computational cost. The proposed framework is verified using a typical staged ‘‘excavation nearing tunnel” case. The predictions using the updated parameters are in good agreement with the measurements. The identified values of underlying soil parameters are within the typical ranges for the unloading condition. The updated time effect indicates that tunnel displacements may develop excessively in the three months after the region S1-B is excavated to the bottom. The maximum vertical tunnel displacement may increase from the currently measured 12 mm to the calculated 26 mm if the later construction is suspended long enough. Subsequent constructions need to be timely conducted to restrain the time effect and control tunnel displacements. [ABSTRACT FROM AUTHOR]

Published

2022

10. Spatiotemporal genotype replacement of H5N8 avian influenza viruses contributed to H5N1 emergence in 2021/2022 panzootic.

Author

Jinfeng Zeng, Fanshu Du, Linna Xiao, Honglei Sun, Lu Lu, Weipan Lei, Jialu Zheng, Lu Wang, Sicheng Shu, Yudong Li, Qiang Zhang, Kang Tang, Qianru Sun, Chi Zhang, Haoyu Long, Zekai Qiu, Ke Zhai, Zhichao Li, Geli Zhang, and Yipeng Sun

Subjects

*AVIAN influenza, *INFLUENZA A virus, H5N1 subtype, *MIGRATION flyways, *BIRD migration, *GENOTYPES

Abstract

Since 2020, clade 2.3.4.4b highly pathogenic avian influenza H5N8 and H5N1 viruses have swept through continents, posing serious threats to the world. Through comprehensive analyses of epidemiological, genetic, and bird migration data, we found that the dominant genotype replacement of the H5N8 viruses in 2020 contributed to the H5N1 outbreak in the 2021/2022 wave. The 2020 outbreak of the H5N8 G1 genotype instead of the G0 genotype produced reassortment opportunities and led to the emergence of a new H5N1 virus with G1's HA and MP genes. Despite extensive reassortments in the 2021/2022 wave, the H5N1 virus retained the HA and MP genes, causing a significant outbreak in Europe and North America. Furtherly, through the wild bird migration flyways investigation, we found that the temporal-spatial coincidence between the outbreak of the H5N8 G1 virus and the bird autumn migration may have expanded the H5 viral spread, which may be one of the main drivers of the emergence of the 2020-2022 H5 panzootic. [ABSTRACT FROM AUTHOR]

Published

2024

11. Recombinant parainfluenza virus 5 expressing clade 2.3.4.4b H5 hemagglutinin protein confers broad protection against H5Ny influenza viruses.

Author

Han Li, Haoran Sun, Mengyan Tao, Qiqi Han, Haili Yu, Jiaqi Li, Xue Lu, Qi Tong, Juan Pu, Yipeng Sun, Litao Liu, Jinhua Liu, and Honglei Sun

Subjects

*INFLUENZA A virus, *PARAINFLUENZA viruses, *AVIAN influenza A virus, *RECOMBINANT viruses, *INFLUENZA viruses, *HEMAGGLUTININ, *PANDEMIC preparedness

Abstract

The global circulation of clade 2.3.4.4b H5Ny highly pathogenic avian influenza viruses (HPAIVs) in poultry and wild birds, increasing mammal infections, continues to pose a public health threat and may even form a pandemic. An efficacious vaccine against H5Ny HPAIVs is crucial for emergency use and pandemic preparedness. In this study, we developed a parainfluenza virus 5 (PIV5)-based vaccine candidate expressing hemagglutinin (HA) protein of clade 2.3.4.4b H5 HPAIV, termed rPIV5-H5, and evaluated its safety and efficacy in mice and ferrets. Our results demonstrated that intranasal immunization with a single dose of rPIV5-H5 could stimulate H5-specific antibody responses, moreover, a prime-boost regimen using rPIV5-H5 stimulated robust humoral, cellular, and mucosal immune responses in mice. Challenge study showed that rPIV5-H5 prime-boost regimen provided sterile immunity against lethal clade 2.3.4.4b H5N1 virus infection in mice and ferrets. Notably, rPIV5-H5 prime-boost regimen provided protection in mice against challenge with lethal doses of heterologous clades 2.2, 2.3.2, and 2.3.4 H5N1, and clade 2.3.4.4h H5N6 viruses. These results revealed that rPIV5-H5 can elicit protective immunity against a diverse clade of highly pathogenic H5Ny virus infection in mammals, highlighting the potential of rPIV5-H5 as a pan-H5 influenza vaccine candidate for emergency use. [ABSTRACT FROM AUTHOR]

Published

2024

12. Novel Avian Influenza Virus (H5N1) Clade 2.3.4.4b Reassortants in Migratory Birds, China.

Author

Jing Yang, Chunge Zhang, Yue Yuan, Ju Sun, Lu Lu, Honglei Sun, Heting Sun, Dong Chu, Siyuan Qin, Jianjun Chen, Chengbo Zhang, Xiyan Hao, Weifeng Shi, Wenjun Liu, Gao, George F., Digard, Paul, Lycett, Samantha, and Yuhai Bi

Abstract

Two novel reassortant highly pathogenic avian influenza viruses (H5N1) clade 2.3.4.4b.2 were identified in dead migratory birds in China in November 2021. The viruses probably evolved among wild birds through different flyways connecting Europe and Asia. Their low antigenic reaction to vaccine antiserum indicates high risks to poultry and to public health. [ABSTRACT FROM AUTHOR]

Published

2023

13. Increased public health threat of avian-origin H3N2 influenza virus caused by its evolution in dogs.

Author

Mingyue Chen, Yanli Lyu, Fan Wu, Ying Zhang, Hongkui Li, Rui Wang, Yang Liu, Xinyu Yang, Liwei Zhou, Ming Zhang, Qi Tong, Honglei Sun, Juan Pu, Jinhua Liu, and Yipeng Sun

Subjects

*INFLUENZA A virus, H3N2 subtype, *INFLUENZA viruses, *AVIAN influenza A virus, *DOGS, *SEASONAL influenza, *VIRAL ecology

Abstract

Influenza A viruses in animal reservoirs repeatedly cross species barriers to infect humans. Dogs are the closest companion animals to humans, but the role of dogs in the ecology of influenza viruses is unclear. H3N2 avian influenza viruses were transmitted to dogs around 2006 and have formed stable lineages. The long-term epidemic of avian-origin H3N2 virus in canines offers the best models to investigate the effect of dogs on the evolution of influenza viruses. Here, we carried out a systematic and comparative identification of the biological characteristics of H3N2 canine influenza viruses (CIVs) isolated worldwide over 10 years. We found that, during adaptation in dogs, H3N2 CIVs became able to recognize the human-like SAα2,6-Gal receptor, showed gradually increased hemagglutination (HA) acid stability and replication ability in human airway epithelial cells, and acquired a 100% transmission rate via respiratory droplets in a ferret model. We also found that human populations lack immunity to H3N2 CIVs, and even preexisting immunity derived from the present human seasonal influenza viruses cannot provide protection against H3N2 CIVs. Our results showed that canines may serve as intermediates for the adaptation of avian influenza viruses to humans. Continuous surveillance coordinated with risk assessment for CIVs is necessary. [ABSTRACT FROM AUTHOR]

Published

2023

14. Characteristics of Braced Excavation under Asymmetrical Loads.

Author

Changjie Xu, Yuanlei Xu, Honglei Sun, and Qizhi Chen

Subjects

*EXCAVATION, *INFORMATION asymmetry, *FINITE element method, *MECHANICAL loads, *ENVIRONMENTAL monitoring, *CIVIL engineering

Abstract

Numerous excavation practices have shown that large discrepancies exist between field monitoring data and calculated results when the conventional symmetry-plane method (with half-width) is used to design the retaining structure under asymmetrical loads. To examine the characteristics of a retaining structure under asymmetrical loads, we use the finite element method (FEM) to simulate the excavation process under four different groups of asymmetrical loads and create an integrated model to tackle this problem. The effects of strut stiffness and wall length are also investigated. The results of numerical analysis clearly imply that the deformation and bending moment of diaphragm walls are distinct on different sides, indicating the need for different rebar arrangements when the excavation is subjected to asymmetrical loads. This study provides a practical approach to designing excavations under asymmetrical loads. We analyze and compare the monitoring and calculation data at different excavation stages and find some general trends. Several guidelines on excavation design under asymmetrical loads are drawn. [ABSTRACT FROM AUTHOR]

Published

2013

15. A Single Amino Acid at the Hemagglutinin Cleavage Site Contributes to the Pathogenicity and Neurovirulence of H5N1 Influenza Virus in Mice.

Author

Yi Zhang, Yipeng Sun, Honglei Sun, Juan Pu, Yuhai Bi, Yi Shi, Xishan Lu, Jing Li, Qingyu Zhu, Gao, George F., Yang, Hanchun, and Liu, Jinhua

Subjects

*HEMAGGLUTININ genetics, *PHYSIOLOGICAL effects of amino acids, *MICROBIAL virulence, *INFLUENZA A virus, H5N1 subtype, *LABORATORY mice, *PHENOTYPES, *DELETION mutation

Abstract

H5 influenza viruses containing a motif of multiple basic amino acids at the hemagglutinin (HA) cleavage site (HACS) are highly pathogenic in chicken but display different virulence phenotypes in mammals. Previous studies have shown that multiple basic amino acids of H5N1 influenza virus are a prerequisite for lethality in mice. However, it remains unclear which specific residue at the cleavage site affects the pathogenicity of H5N1 in mammals. A comprehensive genetic analysis of the H5N1 HACS showed that residues at P6 (position 325, by H3 numbering) were the most polymorphic, including serine (S), arginine (R), deletion (*), glycine (G), and isoleucine (I). To determine whether a single residue at P6 could affect virulence, we introduced different mutations at P6 of an avirulent clade 7 H5N1 strain, rg325G, by reverse genetics. Among the recombinant viruses, the rg325S virus showed the highest cleavage efficiency in vitro. All these viruses were highly pathogenic in chicken but exhibited different virulences in mice. The rg325S virus exhibited the highest pathogenicity in terms of unrestricted organ tropism and neurovirulence. Remarkably, the HA-325S substitution dramatically increased the pathogenicity of H5N1 viruses of other clades, including clades 2.2,2.3.2, and 2.3.4, indicating that this residue impacts genetically divergent H5N1 viruses. An analysis of predicted structures containing these mutations showed that the cleavage site loop with 325S was the most exposed, which might be responsible for the efficient cleavage and high virulence. Our results demonstrate that an amino acid substitution at the P6 cleavage site alone could modulate the virulence of H5N1 in mice. [ABSTRACT FROM AUTHOR]

Published

2012

16. Identification of swine influenza A virus and Stenotrophomonas maltophilia co-infection in Chinese pigs.

Author

Dongjun Hou, Yuhai Bi, Honglei Sun, Jun Yang, Guanghua Fu, Yipeng Sun, Jinhua Liu, and Juan Pu

Subjects

*INFLUENZA viruses, *STENOTROPHOMONAS maltophilia, *MICROBIAL virulence, *SWINE influenza, *MICROBIAL sensitivity tests

Abstract

Background: Influenza virus virulence can be exacerbated by bacterial co-infections. Swine influenza virus (SIV) infection together with some bacteria is found to enhance pathogenicity. Methods: SIV-positive samples suspected of containing bacteria were used for bacterial isolation and identification. Antimicrobial susceptibility testing was performed by disc diffusion methods. To investigate the interaction of SIV and the bacteria in vitro, guinea pigs were used as mammalian hosts to determine the effect on viral susceptibility and transmissibility. Differences in viral titers between groups were compared using Student's t-test. Results: During surveillance for SIV in China from 2006 to 2009, seven isolates (24.14%) of 29 influenza A viruses were co-isolated with Stenotrophomonas maltophilia from nasal and tracheal swab samples of pigs. Antimicrobial susceptibility testing showed that the bacteria possessed a high level of resistance towards clinically used antibiotics. To investigate the interaction between these two microorganisms in influencing viral susceptibility and transmission in humans, guinea pigs were used as an infection model. Animals were inoculated with SIV or S. maltophilia alone or co-infected with SIV and S. maltophilia. The results showed that although no transmission among guinea pigs was observed, virus-bacteria co-infections resulted in higher virus titers in nasal washes and trachea and a longer virus shedding period. Conclusions: This is the first report of influenza virus co-infection with S. maltophilia in the Chinese swine population. Increased replication of virus by co-infection with multidrug resistant bacteria might increase the infection rate of SIV in humans. The control of S. maltophilia in clinics will contribute to reducing the spread of SIV in pigs and humans. [ABSTRACT FROM AUTHOR]

Published

2012

17. Organic−Inorganic Hybrid Membranes with Simultaneously Enhanced Flux and Selectivity.

Author

Fubing Peng, Lianyu Lu, Honglei Sun, Fusheng Pan, and Zhongyi Jiang

Subjects

*POLYMERS, *ALCOHOL, *PERMEABILITY, *GRAPHITE

Abstract

Tradeoff phenomenon is a sticky problem, which has been perplexing researchers in the polymeric membrane area for quite a long time. Since the inherent limitation of polymeric membrane and inorganic membrane, organic−inorganic hybrid membrane seems a feasible solution because it effectively combines the rigidity of inorganic moiety and the flexibility of polymer moiety. This study demonstrated such kind of hybrid organic−inorganic membrane composed of poly(vinyl alcohol) (PVA) and crystalline flake graphite and found that simultaneous increase of permeability and selectivity of the hybrid membranes in pervaporation separation of benzene and cyclohexane mixtures was achieved. More specifically, the hybrid membranes showed about 4-fold permeation flux and 6-fold separation factor increase in comparison to pure PVA membrane. In addition, it was found that pervaporation properties of the hybrid membranes were quite sensitive to both graphite particle size and content. [ABSTRACT FROM AUTHOR]

Published

2007

18. Reassortment with Dominant Chicken H9N2 Influenza Virus Contributed to the Fifth H7N9 Virus Human Epidemic.

Author

Juan Pu, Yanbo Yin, Jiyu Liu, Xinyu Wang, Yong Zhou, Zejiang Wang, Yipeng Sun, Honglei Sun, Fangtao Li, Jingwei Song, Runkang Qu, Weihua Gao, Dongdong Wang, Zhen Wang, Shijie Yan, Mingyue Chen, Jinfeng Zeng, Zhimin Jiang, Haoran Sun, and Yanan Zong

Subjects

*INFLUENZA A virus, H7N9 subtype, *INFLUENZA A virus, *INFLUENZA viruses, *CHICKEN diseases, *AVIAN influenza A virus, *VIRUS diseases

Abstract

H9N2 avian influenza virus (AIV) is regarded as a principal donor of viral genes through reassortment to cocirculating influenza viruses that can result in zoonotic reassortants. Whether H9N2 virus can maintain a sustained evolutionary impact on such reassortants is unclear. Since 2013, avian H7N9 virus had caused five sequential human epidemics in China; the fifth wave in 2016 to 2017 was by far the largest, but the mechanistic explanation behind the scale of infection is not clear. Here, we found that just prior to the fifth H7N9 virus epidemic, H9N2 viruses had phylogenetically mutated into new subclades, changed antigenicity, and increased their prevalence in chickens vaccinated with existing H9N2 vaccines. In turn, the new H9N2 virus subclades of PB2 and PA genes, housing mammalian adaptive mutations, were reassorted into cocirculating H7N9 virus to create a novel dominant H7N9 virus genotype that was responsible for the fifth H7N9 virus epidemic. H9N2-derived PB2 and PA genes in H7N9 virus conferred enhanced polymerase activity in human cells at 33°C and 37°C and increased viral replication in the upper and lower respiratory tracts of infected mice, which could account for the sharp increase in human cases of H7N9 virus infection in the 2016-2017 epidemic. The role of H9N2 virus in the continual mutation of H7N9 virus highlights the public health significance of H9N2 virus in the generation of variant reassortants of increasing zoonotic potential. [ABSTRACT FROM AUTHOR]

Published

2021

19. Neurovirulence of Avian Influenza Virus Is Dependent on the Interaction of Viral NP Protein with FMRP in the Murine Brain.

Author

Xuxiao Zhang, Juan Pu, Yipeng Sun, Yuhai Bi, Zhimin Jiang, Guanlong Xu, Hongyu Zhang, Jing Cao, Kin-Chow Chang, Jinhua Liu, and Honglei Sun

Subjects

*AVIAN influenza A virus, *VIRAL proteins, *HEMAGGLUTININ, *BASIC proteins, *AVIAN influenza, *CARRIER proteins, *PLANT viruses, CENTRAL nervous system infections

Abstract

Avian influenza viruses (AIVs) are zoonotic viruses that exhibit a range of infectivity and severity in the human host. Severe human cases of AIV infection are often accompanied by neurological symptoms; however, the factors involved in the infection of the central nervous system (CNS) are not well known. In this study, we discovered that the avian-like sialic acid (SA)--a2,3-galactose ( a2,3-Gal) receptor is highly presented in mammalian (human and mouse) brains. In the generation of a mouse-adapted neurotropic H9N2 AIV (SD16-MA virus) in BALB/c mice, we identified key adaptive mutations in its hemagglutinin (HA) and polymerase basic protein 2 (PB2) genes that conferred viral replication ability in the mouse brain. The SD16-MA virus showed binding affinity for the avian-like SA--a2,3-Gal receptor, enhanced viral RNP polymerase activity, and increased viral protein production and transport that culminated in elevated progeny virus production and severe pathogenicity. We further established that host fragile X mental retardation protein (FMRP), a highly expressed protein in the brain that is physically associated with viral nucleocapsid protein (NP) to facilitate RNP assembly and export, was an essential host factor for the neuronal replication of neurotropic AIVs (H9N2, H5N1, and H10N7 viruses). Our study identified a mechanistic process for AIVs to acquire neurovirulence in mice. [ABSTRACT FROM AUTHOR]

Published

2021

20. Truncation of PA-X contributes to virulence and transmission of H3N8 and H3N2 canine influenza viruses in dogs.

Author

Litao Liu, Shikai Song, Ye Shen, Chao Ma, Tong Wang, Qi Tong, Honglei Sun, Juan Pu, Iqbal, Munir, Jinhua Liu, and Yipeng Sun

Subjects

*INFLUENZA A virus, *INFLUENZA viruses, *AVIAN influenza A virus, *GENE expression profiling, *DOGS, *RECOMBINANT viruses, *PLASMIDS

Abstract

Equine-origin H3N8 and avian-origin H3N2 canine influenza viruses (CIVs) prevalent in dogs are thought to pose a public health threat arising from intimate contact between dogs and humans. However, our understanding of CIV virulence is still limited. Influenza A virus PA-X is a fusion protein encoded in part by a +1 frameshifted open reading frame (X-ORF) in segment 3. The X-ORF can be translated in full-length (61 amino acids) or truncated (41 amino acids) form. Genetic analysis indicated that the X-ORFs of equine H3N8 and avian H3N2 influenza viruses encoded 61 amino acids but were truncated after introduction into dogs. To determine the effect of PA-X truncation on the biological characteristics of CIVs, we constructed four recombinant viruses on H3N8 and H3N2 CIV backgrounds bearing truncated or full-length PA-Xs. We observed that truncation of PA-X increased growth of both H3N8 and H3N2 CIVs in MDCK cells and suppressed expression from co-transfected plasmids in MDCK cells. Furthermore, truncation of PA-X enhanced viral pathogenicity in dogs as shown by aggravated clinical symptoms and histopathological changes, increased viral replication in the respiratory system, and prolonged virus shedding. Additionally, CIVs with truncated PA-Xs were transmitted more efficiently in dogs. Global gene expression profiling of the lungs of infected dogs revealed that differentially expressed genes were mainly associated with inflammatory responses, which might contribute to the pathogenicity of PA-X-truncated CIVs. Our findings revealed that truncation of PA-X might be important for the adaptation of influenza viruses to dogs. [ABSTRACT FROM AUTHOR]

Published

2020

21. An R195K Mutation in the PA-X Protein Increases the Virulence and Transmission of Influenza A Virus in Mammalian Hosts.

Author

Yipeng Sun, Zhe Hu, Xuxiao Zhang, Mingyue Chen, Zhen Wang, Guanlong Xu, Yuhai Bi, Qi Tong, Mingyang Wang, Honglei Sun, Juan Pu, Iqbal, Munir, and Jinhua Liu

Subjects

*H1N1 influenza, *INFLUENZA A virus, *INFLUENZA A virus, H7N9 subtype, *AVIAN influenza A virus, *REVERSE genetics, *FERRET

Abstract

In the 21st century, the emergence of H7N9 and H1N1/2009 influenza viruses, originating from animals and causing severe human infections, has prompted investigations into the genetic alterations required for cross-species transmission. We previously found that replacement of the human-origin PA gene segment in avian influenza virus (AIV) could overcome barriers to cross-species transmission. Recently, it was reported that the PA gene segment encodes both the PA protein and a second protein, PA-X. Here, we investigated the role of PA-X. We found that an H9N2 avian influenza reassortant virus bearing a human-origin H1N1/2009 PA gene was attenuated in mice after the loss of PA-X. Reverse genetics analyses of PA-X substitutions conserved in human influenza viruses indicated that R195K, K206R, and P210L substitutions conferred significantly increased replication and pathogenicity on H9N2 virus in mice and ferrets. PA-X R195K was present in all human H7N9 and H1N1/2009 viruses and predominated in human H5N6 viruses. Compared with PA-X 195R, H7N9 influenza viruses bearing PA-X 195K showed increased replication and transmission in ferrets. We further showed that PA-X 195K enhanced lung inflammatory responses, potentially due to decreased host shutoff function. A competitive transmission study in ferrets indicated that 195K provides a replicative advantage over 195R in H1N1/2009 viruses. In contrast, PA-X 195K did not influence the virulence of H9N2 AIV in chickens, suggesting that the effects of the substitution were mammal specific. Therefore, future surveillance efforts should scrutinize this region of PA-X because of its potential impact on cross-species transmission of influenza viruses. [ABSTRACT FROM AUTHOR]

Published

2020

22. Near-band digital predistortion for wideband power amplifiers with mmWave non-contiguous carrier aggregation.

Author

Chao Yu, Na Yang, Honglei Sun, Xing-Wang Wu, Jianfeng Zhai, and Xiao-Wei Zhu

Subjects

*BROADBAND communication systems, *POWER amplifiers, *WIRELESS communications, *ELECTRICAL engineering, *ELECTRONICS

Abstract

A near-band digital predistortion technique is proposed to linearise a wideband power amplifier (PA) with millimetre wave (mmWave) non-contiguous carrier aggregation (CA). The proposed method employs low-bandwidth linearisation architecture to only focus on the in-band compensation and part of the out-of-band (OOB) distortion suppression, which largely alleviate the bandwidth limitation for baseband operation. Experiments have been carried out on an mmWave PA with the centre frequency of 41 GHz. Good measurement results can be achieved when the PA is excited by a very wideband modulated signal with 1001 CA configuration and the total bandwidth of 640 MHz. [ABSTRACT FROM AUTHOR]

Published

2017

23. Canine Influenza Virus A(H3N2) Clade with Antigenic Variation, China, 2016-2017.

Author

Yanli Lyu, Shikai Song, Liwei Zhou, Guoxia Bing, Qian Wang, Haoran Sun, Mingyue Chen, Junyi Hu, Mingyang Wang, Honglei Sun, Juan Pu, Zhaofei Xia, Jinhua Liu, Yipeng Sun, Lyu, Yanli, Song, Shikai, Zhou, Liwei, Bing, Guoxia, Wang, Qian, and Sun, Haoran

Subjects

*INFLUENZA viruses, *DOGS, *ORTHOMYXOVIRUSES, *CANIS, *GENOMES

Abstract

During 2012-2017, we collected throat swabs from dogs in China to characterize canine influenza virus (CIV) A(H3N2) isolates. A new antigenically and genetically distinct CIV H3N2 clade possessing mutations associated with mammalian adaptation emerged in 2016 and replaced previously circulating strains. This clade probably poses a risk for zoonotic infection. [ABSTRACT FROM AUTHOR]

Published

2019

24. Genotypic and pathotypic characterization of Newcastle disease virus isolated from racing pigeons in China.

Author

Mengda Liu, Yajin Qu, Fangkun Wang, Sidang Liu, and Honglei Sun

Subjects

*NEWCASTLE disease virus, *AMINO acid sequence, *PIGEONS, *VIRUS phylogeny, *ISOLATION of biotechnological microorganisms, *DISEASES

Abstract

A Newcastle disease virus (NDV) isolated from an outbreak in racing pigeons in China was characterized in this study. Complete gene of the NDV isolate was sequenced and phylogenetic analysis. Pathogenicity experiment was carried out in pigeons, chickens, and ducks. Phylogenetic analysis revealed that the strain clustered with the Class II viruses, has highly phylogenetically similar to NDV strains isolated from pigeons in China, but was distant from the viruses prevalence in chickens and vaccine strains used in China. The deduced amino acid sequence of the cleavage site of the fusion (F) protein confirmed that the isolate contained the virulent motif 112RRQKRF117 at the cleavage site, but it caused no appearance disease in chickens and ducks. However, the isolate had virulence in pigeons, resulting in severe nervous signs and highly mortality. Pigeons were considered as a potential source of NDV infection and disease for commercial poultry flocks. Therefore, new vaccines to prevent the NDV infection in the pigeon flocks should be developed as soon as possible, and strict biosecurity measures should be taken to reduce the risk of pigeon Newcastle disease outbreaks. [ABSTRACT FROM AUTHOR]

Published

2015

25. Serological survey of canine H3N2, pandemic H1N1/09, and human seasonal H3N2 influenza viruses in cats in northern China, 2010-2014.

Author

Xuxiao Zhang, Ye Shen, Lijie Du, Ran Wang, Bo Jiang, Honglei Sun, Juan Pu, Degui Lin, Ming Wang, Jinhua Liu, and Yipeng Sun

Subjects

*INFLUENZA A virus, H3N2 subtype, *CAT diseases, *SEROPREVALENCE, *INFLUENZA A virus, *DISEASE prevalence, *IMMUNOGLOBULINS

Abstract

Background: The close contact between cats and humans poses a threat to public health because of the potential zoonotic transmission of influenza viruses to humans. Therefore, we examined the seroprevalence of pandemic H1N1/09, canine H3N2, and human H3N2 viruses in pet cats in northern China from 2010 to 2014. Finding: Of 1794 serum samples, the seropositivity rates for H1N1/09, canine H3N2, and human H3N2 were 5.7%, 0.7%, and 0.4%, respectively. The seropositivity rate for H1N1/09 in cats was highest in 2010 (8.3%), and then declined continuously thereafter. Cats older than 10 years were most commonly seropositive for the H1N1/09 virus. Conclusions: Our findings emphasize the need for continuous surveillance of influenza viruses in cats in China. [ABSTRACT FROM AUTHOR]

Published

2015

26. Evolution of the H9N2 influenza genotype that facilitated the genesis of the novel H7N9 virus.

Author

Juan Pu, Shuoguo Wang, Yanbo Yin, Guozhong Zhang, Carter, Robert A., Jinliang Wang, Guanlong Xu, Honglei Sun, Min Wang, Chu Wen, Yandi Wei, Dongdong Wang, Baoli Zhu, Gordon Lemmon, Yuannian Jiao, Susu Duan, Qian Wang, Qian Du, Meng Sun, and Jinnan Bao

Subjects

*GENOTYPES, *INFLUENZA A virus, H7N9 subtype, *VACCINATION, *PANDEMICS, *H1N1 influenza

Abstract

The emergence of human infection with a novel H7N9 influenza virus in China raises a pandemic concern. Chicken H9N2 viruses provided all six of the novel reassortant's internal genes. However, it is not fully understood how the prevalence and evolution of these H9N2 chicken viruses facilitated the genesis of the novel H7N9 viruses. Here we show that over more than 10 y of cocirculation of multiple H9N2 genotypes, a genotype (G57) emerged that had changed antigenicity and improved adaptability in chickens. It became predominant in vaccinated farm chickens in China, caused widespread outbreaks in 2010-2013 before the H7N9 viruses emerged in humans, and finally provided all of their internal genes to the novel H7N9 viruses. The prevalence and variation of H9N2 influenza virus in farmed poultry could provide an important early warning of the emergence of novel reassortants with pandemic potential. [ABSTRACT FROM AUTHOR]

Published

2015

27. Evolution of the H9N2 influenza genotype that facilitated the genesis of the novel H7N9 virus.

Author

Juan Pu, Shuoguo Wang, Yanbo Yin, Guozhong Zhang, Carter, Robert A., Jinliang Wang, Guanlong Xu, Honglei Sun, Min Wang, Chu Wen, Yandi Wei, Dongdong Wang, Baoli Zhu, Lemmon, Gordon, Yuannian Jiao, Susu Duan, Qian Wang, Qian Du, Meng Sun, and Jinnan Bao

Subjects

*GENOTYPES, *INFECTION, *H1N1 influenza, *GENE expression, *ANTIGENS

Abstract

The emergence of human infection with a novel H7N9 influenza virus in China raises a pandemic concern. Chicken H9N2 viruses provided all six of the novel reassortant's internal genes. However, it is not fully understood how the prevalence and evolution of these H9N2 chicken viruses facilitated the genesis of the novel H7N9 viruses. Here we show that over more than 10 y of cocirculation of multiple H9N2 genotypes, a genotype (G57) emerged that had changed antigenicity and improved adaptability in chickens. It became predominant in vaccinated farm chickens in China, caused widespread outbreaks in 2010-2013 before the H7N9 viruses emerged in humans, and finally provided all of their internal genes to the novel H7N9 viruses. The prevalence and variation of H9N2 influenza virus in farmed poultry could provide an important early warning of the emergence of novel reassortants with pandemic potential. [ABSTRACT FROM AUTHOR]

Published

2015

28. Hemagglutinin mutation D222N of the 2009 pandemic H1N1 influenza virus alters receptor specificity without affecting virulence in mice.

Author

Weili Kong, Linqing Liu, Yu Wang, Huijie Gao, Kai Wei, Honglei Sun, Yipeng Sun, Jinhua Liu, Guangpeng Ma, and Juan Pu

Subjects

*HEMAGGLUTININ, *LABORATORY mice, *GENETIC mutation, *INFLUENZA viruses, *VIRUS diseases, *RECOMBINANT viruses

Abstract

The D222N hemagglutinin (HA) mutation within the receptor-binding site was detected with higher frequencies in severe cases of 2009 pandemic H1N1 (pdmH1N1) infections. The impact of this mutation was investigated in vitro and in vivo using recombinant viruses. The recombinant D222N virus grew to significantly lower viral titers than the WT in A549 but not in MDCK cells. A dose-dependent glycan array analysis with the D222N virus showed a modest increase in the binding avidity to human-like (α-2,6 sialylated glycan) receptors and avian-like (α-2,3 sialylated glycan) receptors than the WT virus. The D222N HA mutation resulted in slight weight loss, lower lung titers, inflammatory cytokines and alveolar inflammation in mice than the WT virus. This may or may not be associated with severe clinical outcomes reported in humans. [ABSTRACT FROM AUTHOR]

Published

2014

29. Naturally Occurring Mutations in the PA Gene Are Key Contributors to Increased Virulence of Pandemic H1N1/09 Influenza Virus in Mice.

Author

Yipeng Sun, Qi Xu, Ye Shen, Linqing Liu, Kai Wei, Honglei Sun, Juan Pu, Kin-Chow Chang, and Jinhua Liu

Subjects

*INFLUENZA A virus, H1N1 subtype, *VIRUS virulence, *LABORATORY mice, *REVERSE genetics, *MICROBIAL virulence -- Molecular aspects, *GENETIC mutation

Abstract

The article discusses the study of the impact of naturally occurring mutations in the PA gene in enhancing the virulence of Pandemic H1N1/09 Influenza Virus in mice. Topics discussed include examination of molecular basis of virulence of the viruses by reverse genetics on the basis of two H1N1/09 virus isolates including A/California/04/2009 and A/swine/Shandong/731/2009, effect of the introduction of virulence markers on pathogenicity and evaluation of virulence determinants of H1N1/09.

Published

2014

30. Structures and Receptor Binding of Hemagglutinins from Human-Infecting H7N9 Influenza Viruses.

Author

Yi Shi, Wei Zhang, Fei Wang, Jianxun Qi, Ying Wu, Hao Song, Feng Gao, Yuhai Bi, Yanfang Zhang, Zheng Fan, Chengfeng Qin, Honglei Sun, Jinhua Liu, Joel Haywood, Wenjun Liu, Weimin Gong, Dayan Wang, Yuelong Shu, Yu Wang, and Jinghua Yan

Subjects

*MOLECULAR structure, *H5N1 Influenza, *HEMAGGLUTININ, *PROTEIN binding, *GENETIC mutation, *AMINO acids

Abstract

An avian-origin human-infecting influenza (H7N9) virus was recently identified in China. We have evaluated the viral hemagglutinin (HA) receptor-binding properties of two human H7N9 isolates, A/Shanghai/1/2013 (SH-H7N9) (containing the avian-signature residue Gln226) and A/Anhui/1/2013 (AH-H7N9) (containing the mammalian-signature residue Leu226). We found that SH-H7N9 HA preferentially binds the avian receptor analog, whereas AH-H7N9 HA binds both avian and human receptor analogs. Furthermore, an AH-H7N9 mutant HA (Leu226 → Gln) was found to exhibit dual receptor-binding property, indicating that other amino acid substitutions contribute to the receptor-binding switch. The structures of SH-H7N9 HA, AH-H7N9 HA, and its mutant in complex with either avian or human receptor analogs show how AH-H7N9 can bind human receptors while still retaining the avian receptor-binding property. [ABSTRACT FROM AUTHOR]

Published

2013

31. Amino Acid 316 of Hemagglutinin and the Neuraminidase Stalk Length Influence Virulence of H9N2 Influenza Virus in Chickens and Mice.

Author

Yipeng Sun, Yuanyuan Tan, Kai Wei, Honglei Sun, Yi Shi, Juan Pu, Hanchun Yang, Gao, George F., Yanbo Yin, Wenhai Feng, Perez, Daniel R., and Jinhua Liu

Subjects

*INFLUENZA A virus, *HEMAGGLUTININ, *NEURAMINIDASE, *ERYTHROCYTES, *ENZYMES

Abstract

H9N2 influenza viruses with an A316S substitution in hemagglutinin (HA) and a shorter neuraminidase (NA) stalk have become predominant in China. The A316S was shown to increase HA cleavage efficiency when combined with short stalk NA, and the short stalk NA improved NA enzyme activity and release of virus from erythrocytes. Single mutations or combinations of these mutations strengthened the virulence of H9N2 virus in chickens and mice. [ABSTRACT FROM AUTHOR]

Published

2013