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2019-9-20 3:45:47

Pulit-Penaloza JA, Belser JA, Tumpey TM, Maines TR. Swine-origin H1 influenza viruses isolated from humans exhibit sustained infectivity in an aerosol state. Appl Environ Microbiol. 2019 Mar 15.
submited by kickingbird at Mar, 17, 2019 19:3 PM from Appl Environ Microbiol. 2019 Mar 15.

The relative importance of influenza virus transmission via aerosols is not fully understood, but experimental data suggests that aerosol transmission may represent a critical mode of influenza virus spread among humans. Decades ago, prototypical laboratory strains of influenza were shown to persist in aerosols; however, there is a paucity of data available covering currently circulating influenza viruses, which differ significantly from their predecessors. In this study, we evaluated the longevity of influenza viruses in aerosols generated in the laboratory. We selected a panel of H1 viruses that exhibit diverse transmission profiles in the ferret model, including four human isolates of swine-origin (referred to as variant) and a seasonal strain. By measuring the ratio of viral RNA to infectious virus maintained in aerosols over time, we show that influenza viruses known to transmit efficiently through the air, display enhanced stability in an aerosol state for prolonged periods compared with those viruses that do not transmit as efficiently. We then assessed whether H1 influenza virus was still capable of infecting and causing disease in ferrets after being aged in suspended aerosols. Ferrets exposed to very low levels of influenza virus (≤17 PFU) in aerosols aged for 15 or 30 min, became infected, with 5/6 ferrets shedding virus in nasal washes at titers on par with ferrets who inhaled higher doses of unaged influenza virus. We describe here, an underreported characteristic of influenza viruses, stability in aerosols, and make a direct connection to the role it plays in influenza transmission.Importance Each time a swine influenza virus transmits to a human, it provides an opportunity for the virus to acquire adaptations needed for sustained human-to-human transmission. Here, we use aerobiology techniques to test the stability of swine-origin H1 subtype viruses in aerosols and evaluate their infectivity in ferrets. Our results show that highly transmissible influenza viruses display enhanced stability in an aerosol state compared with viruses that do not transmit as efficiently. Similar to human-adapted strains, swine-origin influenza viruses are infectious in ferrets at low doses even after prolonged suspension in the air. These data underscore the risk of airborne swine-origin influenza viruses, and support the need for continued surveillance and refinement of innovative laboratory methods to investigate mammalian exposure to inhaled pathogens. Determination of molecular markers that affect longevity of airborne influenza viruses will improve our ability to quickly identify emerging strains that present the greatest threat to public health.

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