Pneumonia recovery reprograms the alveolar macrophage pool
Antoine Guillon, Emad I. Arafa, Kimberly A. Barker, Anna C. Belkina, Ian Martin, Anukul T. Shenoy, Alicia K. Wooten, Carolina Lyon De Ana, Anqi Dai, Adam Labadorf, Jaileene Hernandez Escalante, Hans Dooms, Hélène Blasco, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Joseph P. Mizgerd
Antoine Guillon, Emad I. Arafa, Kimberly A. Barker, Anna C. Belkina, Ian Martin, Anukul T. Shenoy, Alicia K. Wooten, Carolina Lyon De Ana, Anqi Dai, Adam Labadorf, Jaileene Hernandez Escalante, Hans Dooms, Hélène Blasco, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Joseph P. Mizgerd
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Research Article Pulmonology

Pneumonia recovery reprograms the alveolar macrophage pool

Abstract

Community-acquired pneumonia is a widespread disease with significant morbidity and mortality. Alveolar macrophages are tissue-resident lung cells that play a crucial role in innate immunity against bacteria that cause pneumonia. We hypothesized that alveolar macrophages display adaptive characteristics after resolution of bacterial pneumonia. We studied mice 1 to 6 months after self-limiting lung infections with Streptococcus pneumoniae, the most common cause of bacterial pneumonia. Alveolar macrophages, but not other myeloid cells, recovered from the lung showed long-term modifications of their surface marker phenotype. The remodeling of alveolar macrophages was (a) long-lasting (still observed 6 months after infection), (b) regionally localized (observed only in the affected lobe after lobar pneumonia), and (c) associated with macrophage-dependent enhanced protection against another pneumococcal serotype. Metabolomic and transcriptomic profiling revealed that alveolar macrophages of mice that recovered from pneumonia had new baseline activities and altered responses to infection that better resembled those of adult humans. The enhanced lung protection after mild and self-limiting bacterial respiratory infections includes a profound remodeling of the alveolar macrophage pool that is long-lasting; compartmentalized; and manifest across surface receptors, metabolites, and both resting and stimulated transcriptomes.

Authors

Antoine Guillon, Emad I. Arafa, Kimberly A. Barker, Anna C. Belkina, Ian Martin, Anukul T. Shenoy, Alicia K. Wooten, Carolina Lyon De Ana, Anqi Dai, Adam Labadorf, Jaileene Hernandez Escalante, Hans Dooms, Hélène Blasco, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Joseph P. Mizgerd

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Figure 4

Effects of time on the remodeling of alveolar macrophage surface markers.

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Effects of time on the remodeling of alveolar macrophage surface markers...
Alveolar macrophages from lung single-cell suspensions of naive and experienced mice were gated as described in Figure 2, and MFI of surface markers was shown for lungs collected (A) 3 months or (B) 6 months after i.t. instillations of serotype 19F pneumococcus (for the experienced mice) or sterile saline (for naive). Data in A and in B were each collected across 2 independent experiments, and asterisks (*) represent comparisons reaching statistical significance (P < 0.05) using unpaired 2-tailed Student’s t tests. (C) To determine effects of age in the absence of experimental infection, alveolar macrophages from lung single-cell suspensions were collected from naive mice of varying ages, as indicated. Data from C were from a single experiment, and asterisk (*) represents statistically significant (P < 0.05) effects of age using 1-way ANOVA. For all panels, each individual dot represents a single mouse, with horizontal lines representing group means.