Your search keyword '"Xiu-Feng, Wan"' showing total 2 results

1. Aerosol Transmission of Gull-Origin Iceland Subtype H10N7 Influenza A Virus in Ferrets.

Author

Minhui Guan, Hall, Jeffrey S., Xiaojian Zhang, Dusek, Robert J., Olivier, Alicia K., Liyuan Liu, Lei Li, Krauss, Scott, Danner, Angela, Tao Li, Rutvisuttinunt, Wiriya, Xiaoxu Lin, Hallgrimsson, Gunnar T., Ragnarsdottir, Sunna B., Vignisson, Solvi R., TeSlaa, Josh, Nashold, Sean W., Jarman, Richard, and Xiu-Feng Wan

Subjects

*INFLUENZA viruses, *FERRET, *WATER birds, *ANTIGENIC variation, *AEROSOLS, *AVIAN influenza

Abstract

Subtype H10 influenza A viruses (IAVs) have been recovered from domestic poultry and various aquatic bird species, and sporadic transmission of these IAVs from avian species to mammals (i.e., human, seal, and mink) are well documented. In 2015, we isolated four H10N7 viruses from gulls in Iceland. Genomic analyses showed four gene segments in the viruses were genetically associated with H10 IAVs that caused influenza outbreaks and deaths among European seals in 2014. Antigenic characterization suggested minimal antigenic variation among these H10N7 isolates and other archived H10 viruses recovered from human, seal, mink, and various avian species in Asia, Europe, and North America. Glycan binding preference analyses suggested that, similar to other avian-origin H10 IAVs, these gull-origin H10N7 IAVs bound to both avian-like alpha 2,3-linked sialic acids and human-like alpha 2,6-linked sialic acids. However, when the gull-origin viruses were compared with another Eurasian avian--origin H10N8 IAV, which caused human infections, the gull-origin virus showed significantly higher binding affinity to human-like glycan receptors. Results from ferret experiment demonstrated that a gull-origin H10N7 IAV replicated well in turbinate, trachea, and lung, but replication was most efficient in turbinate and trachea. This gull-origin H10N7 virus can be transmitted between ferrets through the direct contact and aerosol routes, without prior adaptation. Gulls share their habitat with other birds and mammals, and have frequent contact with humans; therefore, gull-origin H10N7 IAVs could pose a risk to public health. Surveillance and monitoring of these IAVs at the wild bird41 human interface should be continued. [ABSTRACT FROM AUTHOR]

Published

2019

2. Genetic Evidence Supports Sporadic and Independent Introductions of Subtype H5 Low-Pathogenic Avian Influenza A Viruses from Wild Birds to Domestic Poultry in North America.

Author

Lei Li, Bowman, Andrew S., DeLiberto, Thomas J., Killian, Mary L., Krauss, Scott, Nolting, Jacqueline M., Torchetti, Mia Kim, Ramey, Andrew M., Reeves, Andrew B., Stallknecht, David E., Webby, Richard J., and Xiu-Feng Wan

Subjects

*AVIAN influenza, *MIGRATORY birds, *BIOLOGICAL evolution, *EPIDEMICS, *GENETICS

Abstract

Wild-bird origin influenza A viruses (IAVs or avian influenza) have led to sporadic outbreaks among domestic poultry in the United States and Canada, resulting in economic losses through the implementation of costly containment practices and destruction of birds. We used evolutionary analyses of virus sequence data to determine that 78 H5 low-pathogenic avian influenza viruses (LPAIVs) isolated from domestic poultry in the United States and Canada during 2001 to 2017 resulted from 18 independent virus introductions from wild birds. Within the wild-bird reservoir, the hemagglutinin gene segments of H5 LPAIVs exist primarily as two cocirculating genetic sublineages, and our findings suggest that the H5 gene segments flow within each migratory bird flyway and among adjacent flyways, with limited exchange between the nonadjacent Atlantic and Pacific Flyways. Phylogeographic analyses provided evidence that IAVs from dabbling ducks and swans/geese contributed to the emergence of viruses among domestic poultry. H5 LPAIVs isolated from commercial farm poultry (i.e., turkey) that were descended from a single introduction typically remained a single genotype, whereas those from live-bird markets sometimes led to multiple genotypes, reflecting the potential for reassortment with other IAVs circulating within live-bird markets. H5 LPAIVs introduced from wild birds to domestic poultry represent economic threats to the U.S. poultry industry, and our data suggest that such introductions have been sporadic, controlled effectively through production monitoring and a stamping-out policy, and are, therefore, unlikely to result in sustained detections in commercial poultry operations. [ABSTRACT FROM AUTHOR]

Published

2018