A stimulus‐contingent positive feedback loop enables IFN‐β dose‐dependent activation of pro‐inflammatory genes

Wilder, Catera L.; Lefaudeux, Diane; Mathenge, Raisa; Kishimoto, Kensei; Munoz, Alma Zuniga; Nguyen, Minh Anh; Meyer, Aaron S.; Cheng, Quen J.; Hoffmann, Alexander

doi:10.15252/msb.202211294

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2024

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Cited by 7 publications

References 87 publications

(112 reference statements)

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Structure–function of type I and III interferons

de Weerd,

Kurowska,

Mendoza

et al. 2024

Current Opinion in Immunology

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Structure–function of type I and III interferons

de Weerd,

Kurowska,

Mendoza

et al. 2024

Current Opinion in Immunology

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Transcriptional control of interferon-stimulated genes

Babadei,

Strobl,

Müller

et al. 2024

Journal of Biological Chemistry

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Type III interferons suppress influenza A virus infection independently of STAT activation by triggering cell death

Prus,

Grabowski,

Koza

et al. 2024

Preprint

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Type III interferons (IFN-λ1–λ4) are known to limit influenza infectionsin vivoand are non-redundant to type I interferons (IFN-α and IFN-β). Here, we demonstratedin vitrothat type III interferons secreted by infected epithelial cells limit infection with influenza A virus (IAV). This effect occurs independently of STAT1 and STAT2 activation. Knockout of the IFN-λ receptor subunit IFNLR1 results in a slight reduction of STAT1/2 phosphorylation during infection with IAV, but leads to a substantially increased fraction of IAV-infected cells and higher levels of viral RNA and protein in the cell population. In contrast, knockout of the IFN-β receptor subunit IFNAR1 results in a pronounced reduction of STAT1/2 phosphorylation but a smaller increase in IAV proliferation. We propose that type III interferons limit the spread of IAV by promoting death of IAV-infected cells and demonstrate that the ratio of dying to infected cells is lower in IFNLR1 KO cells compared to wild-type cells. Overall, our results suggest an additional non-transcriptional role of type III interferons in the control of viral infection.Key pointsIFNAR1 deficiency leads to a significant reduction of STAT1/2 activation in cell populations infected with IAV and a small decrease in IAV proliferation.IFNLR1 deficiency leads to a small reduction of STAT1/2 activation in cell populations infected with IAV and a significant increase in IAV proliferation.IFN-λ controls the proliferation of IAV (but not RSV) independently of STAT1/2 signaling.IFN-λ signaling increases the ratio of the dead to the infected cells, likely promoting death in IAV-infected cells.

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A stimulus‐contingent positive feedback loop enables IFN‐β dose‐dependent activation of pro‐inflammatory genes

Cited by 7 publications

References 87 publications

Structure–function of type I and III interferons

Structure–function of type I and III interferons

Transcriptional control of interferon-stimulated genes

Type III interferons suppress influenza A virus infection independently of STAT activation by triggering cell death

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