Innate immune control of influenza virus interspecies adaptation.
Parker J DenzSamuel SpeaksAdam D KenneyAdrian C EddyJonathan L PapaJack E RoettgerSydney C ScaceEmily A HemannAdriana ForeroRichard John WebbyAndrew S BowmanJacob S YountPublished in: bioRxiv : the preprint server for biology (2023)
Influenza virus pandemics are caused by viruses from animal reservoirs that adapt to efficiently infect and replicate in human hosts. Here, we investigated whether Interferon-Induced Transmembrane Protein 3 (IFITM3), a host antiviral factor with known human deficiencies, plays a role in interspecies virus infection and adaptation. We found that IFITM3-deficient mice and human cells could be infected with low doses of avian influenza viruses that failed to infect WT counterparts, identifying a new role for IFITM3 in controlling the minimum infectious viral dose threshold. Remarkably, influenza viruses passaged through Ifitm3 -/- mice exhibited enhanced host adaptation, a result that was distinct from passaging in mice deficient for interferon signaling, which caused virus attenuation. Our data demonstrate that IFITM3 deficiency uniquely facilitates zoonotic influenza virus infections and subsequent adaptation, implicating IFITM3 deficiencies in the human population as a vulnerability for emergence of new pandemic viruses.
Keyphrases
- endothelial cells
- sars cov
- induced pluripotent stem cells
- high glucose
- innate immune
- pluripotent stem cells
- coronavirus disease
- climate change
- type diabetes
- high fat diet induced
- adipose tissue
- oxidative stress
- metabolic syndrome
- high resolution
- artificial intelligence
- machine learning
- insulin resistance
- immune response
- wild type
- binding protein
- deep learning
- electron transfer