Seasonal influenza viruses decay more rapidly at intermediate humidity in droplets containing saliva compared to respiratory mucus

Author:

Rockey Nicole C.ORCID,Le Sage Valerie,Marr Linsey C.,Lakdawala Seema S.ORCID

Abstract

AbstractExpulsions of virus-laden aerosols or droplets are an important source of onward respiratory virus transmission and can originate from both the oral and nasal cavity of an infected host. However, the presence of infectious influenza virus in the oral cavity during infection has not been widely considered, and thus little work has explored the environmental persistence of influenza virus in oral cavity expulsions that may facilitate transmission. Using the ferret model, we detected infectious virus in the nasal and oral cavities, suggesting that virus can be expelled into the environment from either anatomical site. We also assessed the stability of two influenza A viruses (H1N1 and H3N2) in droplets of human saliva or respiratory mucus over a range of relative humidities. We observed that influenza virus infectivity decays rapidly in saliva droplets at intermediate relative humidity, while viruses in airway surface liquid droplets retain infectivity. Virus inactivation was not associated with bulk protein content, salt content, or droplet drying time. Instead, we found that saliva droplets exhibited distinct inactivation kinetics during the wet and dry phases at intermediate relative humidity and that droplet residue morphology may lead to the elevated first-order inactivation rate observed during the dry phase. Additionally, distinct differences in crystalline structure and nanobead localization were observed between saliva and airway surface liquid droplets. Together, our work demonstrates that different respiratory fluids exhibit unique virus persistence profiles and suggests that influenza viruses expelled from the oral cavity may contribute to virus transmission in low and high humidity environments.ImportanceDetermining how viruses persist in the environment is important for mitigating transmission risk. Expelled infectious droplets and aerosols are composed of respiratory fluids, including saliva and complex mucus mixtures, but how influenza viruses survive in such fluids is largely unknown. Here, we find that infectious influenza virus is present in the oral cavity of infected ferrets, suggesting that saliva-containing expulsions can play a role in onward transmission. Additionally, influenza virus in droplets composed of saliva degrades more rapidly than virus within respiratory mucus. Droplet composition impacts the crystalline structure and virus localization in dried droplets. These results suggest that viruses from distinct sites in the respiratory tract could have variable persistence in the environment, which will impact viral transmission fitness.

Publisher

Cold Spring Harbor Laboratory

Reference44 articles.

1. Mortality, morbidity, and hospitalisations due to influenza lower respiratory tract infections, 2017: an analysis for the Global Burden of Disease Study 2017;Lancet Respir Med,2019

2. Routes of influenza transmission

3. Transmissibility and transmission of respiratory viruses;Nat Rev Microbiol,2021

4. Fluid Dynamics of Respiratory Infectious Diseases

5. Pöhlker ML , Krüger OO , Förster J-D , Berkemeier T , Elbert W , Fröhlich-Nowoisky J , Pöschl U , Pöhlker C , Bagheri G , Bodenschatz E , Huffman JA , Scheithauer S , Mikhailov E . 2021. Respiratory aerosols and droplets in the transmission of infectious diseases. arXiv.

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