Abstract
Bacterial co-infections represent a major clinical complication of influenza. Host-derived interferon (IFN) increases susceptibility to bacterial infections following influenza, but the relative roles of type-I versus type-II IFN remain poorly understood. We have used novel mouse models of co-infection in which colonizing pneumococci were inoculated into the upper respiratory tract; subsequent sublethal influenza virus infection caused the bacteria to enter the lungs and mediate lethal disease. Compared to wild-type mice or mice deficient in only one pathway, mice lacking both IFN pathways demonstrated the least amount of lung tissue damage and mortality following pneumococcal-influenza virus superinfection. Therapeutic neutralization of both type-I and type-II IFN pathways similarly provided optimal protection to co-infected wild-type mice. The most effective treatment regimen was staggered neutralization of the type-I IFN pathway early during co-infection combined with later neutralization of type-II IFN, which was consistent with the expression and reported activities of these IFNs during superinfection. These results are the first to directly compare the activities of type-I and type-II IFN during superinfection and provide new insights into potential hostdirected targets for treatment of secondary bacterial infections during influenza. Copyright:
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CITATION STYLE
Barman, T. K., Racine, R., Bonin, J. L., Califano, D., Salmon, S. L., & Metzgeri, D. W. (2021). Sequential targeting of interferon pathways for increased host resistance to bacterial superinfection during influenza. PLoS Pathogens, 17(3). https://doi.org/10.1371/journal.ppat.1009405
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