Macrophage migration inhibitory factor enhances influenza-associated mortality in mice
Candice A. Smith, Daniel J. Tyrell, Upasana A. Kulkarni, Sherri Wood, Lin Leng, Rachel L. Zemans, Richard Bucala, Daniel R. Goldstein
Candice A. Smith, Daniel J. Tyrell, Upasana A. Kulkarni, Sherri Wood, Lin Leng, Rachel L. Zemans, Richard Bucala, Daniel R. Goldstein
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Research Article Immunology Infectious disease

Macrophage migration inhibitory factor enhances influenza-associated mortality in mice

Abstract

Influenza-associated mortality continues to occur annually despite available antiviral therapies. New therapies that improve host immunity could reduce influenza virus disease burden. Targeting macrophage migration inhibitory factor (MIF) has improved the outcomes of certain inflammatory diseases, but its role in influenza viral infection is unclear. Here, we showed that, during influenza viral infection, Mif-deficient mice have less inflammation, viral load, and mortality compared with WT control mice; conversely, Tg mice, overexpressing Mif in alveolar epithelial cells, had higher inflammation, viral load, and mortality. Antibody-mediated blockade of MIF in WT mice during influenza viral infection improved their survival. Mif-deficient murine lungs showed reduced levels of parkin, a mitophagy protein that negatively regulates antiviral signaling, prior to infection and augmented antiviral type I/III IFN levels in the airspaces after infection as compared with WT lungs. Additionally, in vitro assays with human lung epithelial cells showed that treatment with recombinant human MIF increased the percentage of influenza virus–infected cells. In conclusion, our study reveals that MIF impairs antiviral host immunity and increases inflammation during influenza infection and suggests that targeting MIF could be therapeutically beneficial during influenza viral infection.

Authors

Candice A. Smith, Daniel J. Tyrell, Upasana A. Kulkarni, Sherri Wood, Lin Leng, Rachel L. Zemans, Richard Bucala, Daniel R. Goldstein

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Figure 4

Mif expression correlates with higher parkin levels in lung lysate preinfection.

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Mif expression correlates with higher parkin levels in lung lysate prei...
Lung lysate parkin/β-actin protein measured by Western blot at baseline and 3 DPI: (A) IFN-λ levels in 1 DPI lung lysate. Lung lysate protein measured by Western blot at 1 DPI: (B) parkin normalized to β-actin. (C) Representative image of blot. (D) Violin plot of parkin normalized to β-actin. (E) A representative image of blot. Statistical differences were determined by 1-way ANOVA followed by Tukey multiple comparisons test (D) or 1-way ANOVA comparing the mean of each group to Mif+/+ data followed by Holm-Sidak test for multiple comparisons (A and B). The violin plots are closed curves representing data distribution and encapsulate the median, range, and interquartilerange, with each symbol representing a biological replicate (A, B, and D). Data are representative of 2 independent experiments, with n = 4–5 biological replicates/group (D), or pooled samples from 5–8 biological replicates/group (A and B). *P < 0.05, **P < 0.01.