Literature detail

Transmission of H7N9 Influenza Viruses with a Polymorphism at PB2 Residue 627 in Chickens and Ferrets.

Geraldine S M Luk¹ Connie Y H Leung² Sin Fun Sia² Ka-Tim Choy² Jie Zhou² Candy C K Ho² Peter P H Cheung² Elaine F Lee¹ Chris K L Wai¹ Pamela C H Li¹ Sin-Ming Ip¹ Leo L M Poon² William G Lindsley³ Malik Peiris⁴ Hui-Ling Yen⁴

Affiliations 4 institutions

Agriculture, Fisheries and Conservation Department, The Government of Hong Kong SAR, Hong Kong.
School of Public Health, LKS Faculty of Medicine, The University of Hong Kong, Hong Kong.
Allergy and Clinical Immunology Branch, Health Effects Laboratory Division, National Institute for Occupational Safety and Health, Morgantown, West Virginia, USA.
School of Public Health, LKS Faculty of Medicine, The University of Hong Kong, Hong Kong [email protected] [email protected].

PMID 26202239 2015 J Virol eng ppublish

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Article

Publication summary

Poultry exposure is a major risk factor for human H7N9 zoonotic infections, for which the mode of transmission remains unclear. We studied the transmission of genetically related poultry and human H7N9 influenza viruses differing by four amino acids, including the host determinant PB2 residue 627. A/Silkie chicken/HK/1772/2014 (SCk1772) and A/HK/3263/14 (HK3263) replicated to comparable titers in chickens, with superior oropharyngeal over cloacal shedding; both viruses transmitted efficiently among chickens via direct contact but inefficiently via the airborne route. Interspecies transmission via the airborne route was observed for ferrets exposed to the SCk1772- or HK3263-infected chickens, while low numbers of copies of influenza viral genome were detected in the air, predominantly at particle sizes larger than 4 μm. In ferrets, the human isolate HK3263 replicated to higher titers and transmitted more efficiently via direct contact than SCk1772. We monitored "intrahost" and "interhost" adaptive changes at PB2 residue 627 during infection and transmission of the Sck1772 that carried E627 and HK3263 that carried V/K/E polymorphism at 60%, 20%, and 20%, respectively. For SCk1772, positive selection for K627 over E627 was observed in ferrets during the chicken-to-ferret or ferret-to-ferret transmission. For HK3263 that contained V/K/E polymorphism, mixed V627 and E627 genotypes were transmitted among chickens while either V627 or K627 was transmitted to ferrets with a narrow transmission bottleneck. Overall, our results suggest direct contact as the main mode for H7N9 transmission and identify the PB2-V627 genotype with uncompromised fitness and transmissibility in both avian and mammalian species. We studied the modes of H7N9 transmission, as this information is crucial for developing effective control measures for prevention. Using chicken (SCk1772) and human (HK3263) H7N9 isolates that differed by four amino acids, including the host determinant PB2 residue 627, we observed that both viruses transmitted efficiently among chickens via direct contact but inefficiently via the airborne route. Chicken-to-ferret transmission via the airborne route was observed, along with the detection of viral genome in the air at low copy numbers. In ferrets, HK3263 transmitted more efficiently than SCk1772 via direct contact. During the transmission of SCk1772 that contained E and HK3263 that contained V/K/E polymorphism at PB2 residue 627, positive selections of E627 and K627 were observed in chickens and ferrets, respectively. In addition, PB2-V627 was transmitted and stably maintained in both avian and mammalian species. Our results support applying intervention strategies that minimize direct and indirect contact at the poultry markets during epidemics.

Polymorphism, Genetic Air Microbiology Animals Chickens Ferrets Genome, Viral Host-Pathogen Interactions Humans Influenza A Virus, H7N9 Subtype Influenza in Birds Influenza, Human Orthomyxoviridae Infections Poultry Diseases RNA, Viral RNA-Dependent RNA Polymerase Species Specificity Viral Proteins Zoonoses

Structured evidence records

Evidence records

6 total

Cross Species Transmission 2 records

Cross Species Transmission Extraction confidence 0.95

Key finding

H7N9 influenza viruses transmit efficiently among chickens through direct contact.

Virus

Host

Location

Supporting text

Both viruses transmitted efficiently among chickens via direct contact but inefficiently via the airborne route.

Method: direct contact transmission study
Study design: animal experiment
Transmission direction: animal-to-animal

Cross Species Transmission Extraction confidence 0.95

Key finding

H7N9 influenza viruses can transmit from chickens to ferrets via the airborne route.

Virus

Host

Location

Supporting text

Interspecies transmission via the airborne route was observed for ferrets exposed to the SCk1772- or HK3263-infected chickens.

Method: airborne transmission study
Study design: animal experiment
Transmission direction: animal-to-animal

Host Range Experiment 2 records

Host Range Experiment Extraction confidence 0.90

Key finding

Poultry- and human-origin H7N9 isolates replicated efficiently in chickens and transmitted among chickens via direct contact but poorly by the airborne route.

Virus

Host

Location

Supporting text

A/Silkie chicken/HK/1772/2014 (SCk1772) and A/HK/3263/14 (HK3263) replicated to comparable titers in chickens, with superior oropharyngeal over cloacal shedding; both viruses transmitted efficiently among chickens via direct contact but inefficiently via the airborne route.

Method: experimental infection; transmission assay
Sample type: oropharyngeal; cloacal
Experimental system: in vivo animal experiment

Host Range Experiment Extraction confidence 0.90

Key finding

Chicken-to-ferret transmission of H7N9 occurred via airborne exposure, and the human isolate replicated and transmitted more efficiently in ferrets than the chicken isolate.

Virus

Host

Location

Supporting text

Interspecies transmission via the airborne route was observed for ferrets exposed to the SCk1772- or HK3263-infected chickens. In ferrets, the human isolate HK3263 replicated to higher titers and transmitted more efficiently via direct contact than SCk1772.

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

Molecular Adaptation 1 records

Molecular Adaptation Extraction confidence 0.95

Key finding

Positive selection for PB2 K627 occurred in ferrets and maintenance of PB2 V627 in both avian and mammalian hosts indicates H7N9 polymerase adaptation influencing cross-species transmission.

Virus

Host

Location

Supporting text

For SCk1772, positive selection for K627 over E627 was observed in ferrets during the chicken-to-ferret or ferret-to-ferret transmission. For HK3263 that contained V/K/E polymorphism, mixed V627 and E627 genotypes were transmitted among chickens while either V627 or K627 was transmitted to ferrets with a narrow transmission bottleneck.

Genes or proteins: PB2
Mutations: PB2 E627K; PB2 V627; PB2 E627
Mechanism types: polymerase_activity; host_adaptation; replication_efficiency

Spillover Event 1 records

Spillover Event Extraction confidence 0.95

Key finding

H7N9 influenza viruses transmitted from infected chickens to ferrets via airborne exposure.

Virus

Host

Location

Supporting text

Interspecies transmission via the airborne route was observed for ferrets exposed to the SCk1772- or HK3263-infected chickens, while low numbers of copies of influenza viral genome were detected in the air, predominantly at particle sizes larger than 4 μm.

Method: airborne exposure; viral genome detection
Study design: animal experiment
Transmission direction: animal-to-human

Citation context

References

53 references

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Evidence overview

Evidence 6

Types 4

Virus 1

Host 2

Evidence types

Cross Species Transmission 2 Host Range Experiment 2 Molecular Adaptation 1 Spillover Event 1

Linked entities

Viruses

Hosts

Locations

Publication metadata

Journal: Journal of virology
Volume / Issue / Pages: 89 / 19 / 9939-51
ISSN: 1098-5514
Journal country: United States
DOI: 10.1128/JVI.01444-15