Influenza Virus Infectivity and Virulence following Ocular-Only Aerosol Inoculation of Ferrets

Belser, Jessica A.; Gustin, Kortney M.; Katz, Jacqueline M.; Maines, Taronna R.; Tumpey, Terrence M.

doi:10.1128/jvi.01067-14

Cited by 31 publications

(37 citation statements)

References 25 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…4) (18), the sporadic and low-level detection of virus in NW samples from ferrets placed in direct contact with ferrets shedding virus to the environment suggests that ferrets in contact with infected ferrets were exposed to infectious virus but that the dose of NY/108 virus required for infection may be higher than what is typical for highly transmissible viruses in ferrets. The FID 50 of human and avian influenza viruses can be Ͻ10 infectious particles by intranasal or aerosol inoculation (19,23); ocular-only aerosol exposure of ferrets to Ͻ10 infectious particles of human and avian influenza viruses can result in robust infection (21). As such, our finding that ferrets exposed by the AR and concurrent ocular-aerosol inhalation routes to doses of 10 2.9 to 10 3.5 EID 50 of NY/108 virus did not become uniformly infected supports the suggestion that this virus has a higher threshold of infectivity and offers a possible explanation for why transmissibility in the ferret model was not observed, even though LPAI H7N2 viruses display a high capacity for transmission between shelter cats.…”

Section: Discussionmentioning

confidence: 99%

“…In addition to the inhalation of virus-containing aerosols, our laboratory has shown previously that ferrets may become productively infected with influenza virus following an ocular-only aerosol exposure or concurrent ocular-aerosol inhalation exposure (21,22). This work has revealed that very low levels of exposure of the ocular surface to aerosols can result in a productive respiratory infection in mammals, with heightened replication occurring when mammals are infected with aerosolized virus via both the ocular and respiratory routes.…”

mentioning

confidence: 93%

See 1 more Smart Citation

A Novel A(H7N2) Influenza Virus Isolated from a Veterinarian Caring for Cats in a New York City Animal Shelter Causes Mild Disease and Transmits Poorly in the Ferret Model

Belser

Pulit-Penaloza

Sun

et al. 2017

J Virol

Self Cite

View full text Add to dashboard Cite

In December 2016, a low-pathogenic avian influenza (LPAI) A(H7N2) virus was identified to be the causative source of an outbreak in a cat shelter in New York City, which subsequently spread to multiple shelters in the states of New York and Pennsylvania. One person with occupational exposure to infected cats became infected with the virus, representing the first LPAI H7N2 virus infection in a human in North America since 2003. Considering the close contact that frequently occurs between companion animals and humans, it was critical to assess the relative risk of this novel virus to public health. The virus isolated from the human case, A/New York/108/2016 (NY/108), caused mild and transient illness in ferrets and mice but did not transmit to naive cohoused ferrets following traditional or aerosol-based inoculation methods. The environmental persistence of NY/108 virus was generally comparable to that of other LPAI H7N2 viruses. However, NY/108 virus replicated in human bronchial epithelial cells with an increased efficiency compared with that of previously isolated H7N2 viruses. Furthermore, the novel H7N2 virus was found to utilize a relatively lower pH for hemagglutinin activation, similar to human influenza viruses. Our data suggest that the LPAI H7N2 virus requires further adaptation before representing a substantial threat to public health. However, the reemergence of an LPAI H7N2 virus in the northeastern United States underscores the need for continuous surveillance of emerging zoonotic influenza viruses inclusive of mammalian species, such as domestic felines, that are not commonly considered intermediate hosts for avian influenza viruses. IMPORTANCE Avian influenza viruses are capable of crossing the species barrier to infect mammals, an event of public health concern due to the potential acquisition of a pandemic phenotype. In December 2016, an H7N2 virus caused an outbreak in cats in multiple animal shelters in New York State. This was the first detection of this virus in the northeastern United States in over a decade and the first documented infection of a felid with an H7N2 virus. A veterinarian became infected following occupational exposure to H7N2 virus-infected cats, necessitating the evaluation of this virus for its capacity to cause disease in mammals. While the H7N2 virus was associated with mild illness in mice and ferrets and did not spread well between ferrets, it nonetheless possessed several markers of virulence for mammals. These data highlight the promiscuity of influenza viruses and the need for diligent surveillance across multiple species to quickly identify an emerging strain with pandemic potential.

show abstract

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 93%

A Novel A(H7N2) Influenza Virus Isolated from a Veterinarian Caring for Cats in a New York City Animal Shelter Causes Mild Disease and Transmits Poorly in the Ferret Model

Belser

Pulit-Penaloza

Sun

et al. 2017

J Virol

Self Cite

View full text Add to dashboard Cite

show abstract

“…Similarly, studies quantitating the 50% infectious dose of influenza viruses in the ferret (FID 50 ) have revealed that both avian and human influenza viruses are capable of high infectivity in this species, with doses under 10 PFU leading to productive ferret infection following inhalation of virus-containing aerosols (24,36). Low-dose infection has also been documented following inoculation of ferrets by the ocular route (28).…”

Section: Inoculation Dosementioning

confidence: 99%

“…2, there are a wide array of established inoculation methods in the ferret, which include (but are not limited to) the intranasal, tracheal, ocular, and gastric routes, all of which can modulate where virus is deposited, replicates, and spreads throughout the course of infection. Further variability may be present within each of these routes; for example, ocular inoculation of ferrets may be conducted with either a liquid suspension or via aerosol exposure, and gastric inoculation may be conducted via the use of an endoscope or by ingestion (26)(27)(28). Thus, care should be taken to choose the inoculation route which best emulates and reflects the parameter examined in the study.…”

Section: Inoculation Routementioning

confidence: 99%

“…For example, recent studies describing inoculation of ferrets by the aerosol exposure route (either whole-body or nose-only exposure) have been driven by efforts to more closely mimic a typical human airborne exposure to virus in this species (23,24), and studies examining the potential of virus infection of ferrets following consumption of infected meat have met a public health need (25,26). Modulation of the inoculation route can affect where the virus is deposited following exposure (24,27), where initial virus replication takes place (22,26), and the timing and extent of virus dissemination to other tissues (26,28,29). As shown in Fig.…”

Section: Inoculation Routementioning

confidence: 99%

See 1 more Smart Citation

Complexities in Ferret Influenza Virus Pathogenesis and Transmission Models

Belser

Eckert

Tumpey

et al. 2016

Microbiol Mol Biol Rev

Self Cite

View full text Add to dashboard Cite

SUMMARYFerrets are widely employed to study the pathogenicity, transmissibility, and tropism of influenza viruses. However, inherent variations in inoculation methods, sampling schemes, and experimental designs are often overlooked when contextualizing or aggregating data between laboratories, leading to potential confusion or misinterpretation of results. Here, we provide a comprehensive overview of parameters to consider when planning an experiment using ferrets, collecting data from the experiment, and placing results in context with previously performed studies. This review offers information that is of particular importance for researchers in the field who rely on ferret data but do not perform the experiments themselves. Furthermore, this review highlights the breadth of experimental designs and techniques currently available to study influenza viruses in this model, underscoring the wide heterogeneity of protocols currently used for ferret studies while demonstrating the wealth of information which can benefit risk assessments of emerging influenza viruses.

show abstract

Mammalian experimental models and implications for understanding zoonotic potential

Belser

Tumpey

2016

Animal Influenza

View full text Add to dashboard Cite

Influenza Virus Infectivity and Virulence following Ocular-Only Aerosol Inoculation of Ferrets

Cited by 31 publications

References 25 publications

A Novel A(H7N2) Influenza Virus Isolated from a Veterinarian Caring for Cats in a New York City Animal Shelter Causes Mild Disease and Transmits Poorly in the Ferret Model

A Novel A(H7N2) Influenza Virus Isolated from a Veterinarian Caring for Cats in a New York City Animal Shelter Causes Mild Disease and Transmits Poorly in the Ferret Model

Complexities in Ferret Influenza Virus Pathogenesis and Transmission Models

Mammalian experimental models and implications for understanding zoonotic potential

Contact Info

Product

Resources

About