Elevated temperature inhibits SARS-CoV-2 replication in respiratory epithelium independently of IFN-mediated innate immune defenses

Herder, Vanessa; Dee, Kieran; Wojtus, Joanna K.; Epifano, Ilaria; Goldfarb, Daniel; Rozario, Christoforos; Gu, Quan; Filipe, Ana da Silva; Nomikou, Kyriaki; Nichols, Jenna; Jarrett, Ruth F.; Stevenson, Andrew; McFarlane, Steven; Stewart, Meredith; Szemiel, Agnieszka M.; Pinto, Rute Maria; Garriga, Andreu Masdefiol; Davis, Chris; Allan, Jay; Graham, Sheila V.; Boutell, Chris

doi:10.1371/journal.pbio.3001065

Cited by 29 publications

(25 citation statements)

References 78 publications

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“…Nonetheless, as fever is an evolutionary conserved response to viral and bacterial infections (64,65), it would be of interest to assess the viral replication efficiency and host response dynamics at hyperthermic temperatures (39 -41°C) during ICV and IDV infection in different host species. Especially as, in contrast to lower ambient temperatures, viral replication in human airway epithelial cells has previously been described to be restricted at high ambient temperatures independently of the host IFN-mediated antiviral immune response (66). Therefore, given the economic importance of pigs and cows and their role as a host reservoir of potential emerging diseases, detailed thermal mapping at different anatomical regions in the respiratory tract, as well as determining the influence of hyperthermic temperatures on ICV and IDV replication efficiency and cross species transmission among these host species remain warranted.…”

Section: Discussionmentioning

confidence: 99%

Time-resolved characterization of the innate immune response in the respiratory epithelium of human, porcine, and bovine during influenza virus infection

et al. 2022

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Viral cross-species transmission is recognized to be a major threat to both human and animal health, however detailed information on determinants underlying virus host tropism and susceptibility is missing. Influenza C and D viruses (ICV, IDV) are two respiratory viruses that share up to 50% genetic similarity, and both employ 9-O-acetylated sialic acids to enter a host cell. While ICV infections are mainly restricted to humans, IDV possesses a much broader host tropism and has shown to have a zoonotic potential. This suggests that additional virus–host interactions play an important role in the distinct host spectrum of ICV and IDV. In this study, we aimed to characterize the innate immune response of the respiratory epithelium of biologically relevant host species during influenza virus infection to identify possible determinants involved in viral cross-species transmission. To this end, we performed a detailed characterization of ICV and IDV infection in primary airway epithelial cell (AEC) cultures from human, porcine, and bovine origin. We monitored virus replication kinetics, cellular and host tropism, as well as the host transcriptional response over time at distinct ambient temperatures. We observed that both ICV and IDV predominantly infect ciliated cells, independently from host and temperature. Interestingly, temperature had a profound influence on ICV replication in both porcine and bovine AEC cultures, while IDV replicated efficiently irrespective of temperature and host. Detailed time-resolved transcriptome analysis revealed both species-specific and species uniform host responses and highlighted 34 innate immune-related genes with clear virus-specific and temperature-dependent profiles. These data provide the first comprehensive insights into important common and species-specific virus-host dynamics underlying the distinct host tropism of ICV and IDV, as well as possible determinants involved in viral cross-species transmission.

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Section: Discussionmentioning

confidence: 99%

Time-resolved characterization of the innate immune response in the respiratory epithelium of human, porcine, and bovine during influenza virus infection

et al. 2022

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“…Fever-like temperatures have been shown to reduce transcription of SARS-CoV-2 and hence their replication in respiratory epithelium. This phenomenon was specifically due to inhibition of transcription since the virus entry into the cells was intact [87] . The mechanism of the temperature dependence remains to be determined.…”

Section: Transcriptionmentioning

confidence: 99%

The life and death of RNA across temperatures

Becskei

Rahaman

2022

Computational and Structural Biotechnology Journal

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“…2 ). An additional increase in temperature to 39°C and 40°C limited the rate of viral RNA synthesis and reduced the viral titer even further ( 53 ) ( Fig. 2 ).…”

Section: Temperature Impact On Virus Replication Transcription and Rn...mentioning

confidence: 99%

“…The temperature at which RNA synthesis and virion assembly take place impacts the folding of RNA secondary structures in the genome and protein-RNA and protein-protein interactions, as well as the conformation and activity of viral enzymes ( 48 – 52 ). The temperature at the time of the infection also affects the innate immune response triggered by the infection and production of viral RNA molecules ( 53 – 55 ) and thereby viral growth and the transmission efficiency. Knowledge of the impact of temperature on viral RNA synthesis, the immune response, and the stability of RNA viruses in different environments is important for our understanding of their transmissibility and the design of antiviral strategies, as well as for estimating the likelihood that humans may contract spillover RNA viruses in the future.…”

Section: Introductionmentioning

confidence: 99%

Decoding the Role of Temperature in RNA Virus Infections

Bisht

Velthuis

2022

mBio

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RNA viruses include respiratory viruses, such as coronaviruses and influenza viruses, as well as vector-borne viruses, like dengue and West Nile virus. RNA viruses like these encounter various environments when they copy themselves and spread from cell to cell or host to host. Ex vivo differences, such as geographical location and humidity, affect their stability and transmission, while in vivo differences, such as pH and host gene expression, impact viral receptor binding, viral replication, and the host immune response against the viral infection.

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Elevated temperature inhibits SARS-CoV-2 replication in respiratory epithelium independently of IFN-mediated innate immune defenses

Cited by 29 publications

References 78 publications

Time-resolved characterization of the innate immune response in the respiratory epithelium of human, porcine, and bovine during influenza virus infection

Time-resolved characterization of the innate immune response in the respiratory epithelium of human, porcine, and bovine during influenza virus infection

The life and death of RNA across temperatures

Decoding the Role of Temperature in RNA Virus Infections

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