Literature detail

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

Honglei Sun¹ Juan Pu¹ Yandi Wei¹ Yipeng Sun¹ Jiao Hu² Litao Liu¹ Guanlong Xu¹ Weihua Gao¹ Chong Li¹ Xuxiao Zhang¹ Yinhua Huang¹ Kin-Chow Chang³ Xiufan Liu² Jinhua Liu⁴

Affiliations 4 institutions

Key Laboratory of Animal Epidemiology and Zoonosis, Ministry of Agriculture, College of Veterinary Medicine and State Key Laboratory of Agrobiotechnology, China Agricultural University, Beijing, China.
Animal Infectious Disease Laboratory, College of Veterinary Medicine, Yangzhou University, Yangzhou, China.
School of Veterinary Medicine and Science, University of Nottingham Sutton Bonington Campus, Sutton Bonington, United Kingdom.
Key Laboratory of Animal Epidemiology and Zoonosis, Ministry of Agriculture, College of Veterinary Medicine and State Key Laboratory of Agrobiotechnology, China Agricultural University, Beijing, China [email protected].

PMID 27122581 2016 J Virol eng epublish

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Article

Publication summary

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. Extended epizootics and panzootics of H5N1 viruses have led to the emergence of the novel 2.3.4.4 clade of H5 virus subtypes, including H5N2, H5N6, and H5N8 reassortants. Avian H5N6 viruses from this clade have caused three fatalities out of six severe human infections in China since the first case in 2014. However, the biological properties of this subtype, especially the pathogenicity and transmission in mammals, are not known. Here, we found that natural avian H5N6 viruses have acquired a high affinity for human-type virus receptor. Compared to the parental clade 2.3.4 H5N1 virus, emergent H5N6 isolates showed less severe pathogenicity in mice and ferrets but acquired efficient in-contact transmission in ferrets. These findings suggest that the threat of avian H5N6 viruses to humans should not be ignored.

Virus Attachment Animals China Disease Models, Animal Epithelial Cells Female Ferrets Hemagglutinin Glycoproteins, Influenza Virus Humans Influenza A virus Influenza, Human Male Mice Mice, Inbred BALB C Orthomyxoviridae Infections Phylogeny Reassortant Viruses Receptors, Cell Surface

Structured evidence records

Evidence records

7 total

Host Range Experiment 3 records

Host Range Experiment Extraction confidence 1.00

Key finding

Avian H5N6 influenza viruses from waterfowl in China were experimentally shown to infect and transmit efficiently among ferrets, indicating mammalian host adaptation.

Virus

Host

Location

Supporting text

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. The emergent H5N6 viruses were fully infective and highly transmissible by direct contact in ferrets.

Method: experimental infection; transmission assay
Experimental system: in vivo animal experiment

Host Range Experiment Extraction confidence 1.00

Key finding

H5N6 influenza viruses isolated from waterfowl were experimentally tested in mice, where they showed infectivity with lower pathogenicity than parental H5N1.

Virus

Host

Location

Supporting text

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. Compared to the parental H5N1 virus, the emergent H5N6 isolates showed less severe pathogenicity in mice.

Method: experimental infection; pathogenicity assay
Experimental system: in vivo animal experiment

Host Range Experiment Extraction confidence 1.00

Key finding

Avian H5N6 influenza viruses were shown to bind efficiently to human-like SAα2,6Gal-linked receptors and attach to human tracheal epithelial and alveolar cells.

Virus

Host

Location

Supporting text

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.

Method: receptor-binding assay; cell attachment assay
Sample type: tracheal epithelial cells; alveolar cells
Experimental system: in vitro cell culture

Genomic Evolution 1 records

Genomic Evolution Extraction confidence 0.70

Key finding

H5N6 avian influenza viruses from China share high genomic sequence similarity with the human H5N6 isolate A/Guangzhou/39715/2014, indicating recent evolution from a common lineage.

Virus

Host

Location

Supporting text

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.

Genes or proteins: Hemagglutinin Glycoproteins
Analysis methods: phylogenetic analysis; sequence similarity comparison

Molecular Adaptation 1 records

Molecular Adaptation Extraction confidence 0.95

Key finding

H5N6 avian influenza viruses have adapted to recognize the human-type sialic acid receptor (SAα2,6Gal) and gained efficient contact transmission in mammalian hosts.

Virus

Host

Location

Supporting text

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. Compared to the parental clade 2.3.4 H5N1 virus, emergent H5N6 isolates showed less severe pathogenicity in mice and ferrets but acquired efficient in-contact transmission in ferrets.

Genes or proteins: Hemagglutinin Glycoprotein
Receptors: human-type sialic acid receptor; SAα2,6Gal-linked receptor
Mechanism types: receptor_binding; tissue_tropism; pathogenicity; transmission_fitness

Receptor Usage 1 records

Receptor Usage Extraction confidence 1.00

Key finding

H5N6 viruses showed acquired binding affinity for the human-like SAα2,6Gal-linked sialic acid receptor, enabling attachment to human respiratory epithelial cells.

Virus

Host

Location

Supporting text

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.

Method: receptor-binding affinity assay
Receptors: SAα2,6Gal-linked receptor

Spillover Event 1 records

Spillover Event Extraction confidence 0.90

Key finding

Highly pathogenic avian influenza H5N6 viruses originating from waterfowl in China were directly transmitted to humans, causing six severe and fatal infections.

Virus

Host

Location

Supporting text

Since May 2014, highly pathogenic avian influenza H5N6 virus has been reported to cause six severe human infections three of which were fatal.

Study design: case report
Transmission direction: animal-to-human
Geographic raw: China
Country inferred: China

Citation context

References

36 references

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Evidence overview

Evidence 7

Types 5

Virus 1

Host 5

Evidence types

Host Range Experiment 3 Genomic Evolution 1 Molecular Adaptation 1 Receptor Usage 1 Spillover Event 1

Linked entities

Viruses

Hosts

Locations

Publication metadata

Journal: Journal of virology
Volume / Issue / Pages: 90 / 14 / 6235-6243
ISSN: 1098-5514
Journal country: United States
DOI: 10.1128/JVI.00127-16