Recruitment and training of alveolar macrophages after pneumococcal pneumonia
Emad I. Arafa, … , Lee J. Quinton, Joseph P. Mizgerd
Emad I. Arafa, … , Lee J. Quinton, Joseph P. Mizgerd
Published February 8, 2022
Citation Information: JCI Insight. 2022;7(5):e150239. https://doi.org/10.1172/jci.insight.150239.
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Research Article Immunology Pulmonology

Recruitment and training of alveolar macrophages after pneumococcal pneumonia

Abstract

Recovery from pneumococcal pneumonia remodels the pool of alveolar macrophages so that they exhibit new surface marker profiles, transcriptomes, metabolomes, and responses to infection. Mechanisms mediating alveolar macrophage phenotypes after pneumococcal pneumonia have not been delineated. IFN-γ and its receptor on alveolar macrophages were essential for certain, but not all, aspects of the remodeled alveolar macrophage phenotype. IFN-γ was produced by CD4+ T cells plus other cells, and CD4+ cell depletion did not prevent alveolar macrophage remodeling. In mice infected or recovering from pneumococcus, monocytes were recruited to the lungs, and the monocyte-derived macrophages developed characteristics of alveolar macrophages. CCR2 mediated the early monocyte recruitment but was not essential to the development of the remodeled alveolar macrophage phenotype. Lineage tracing demonstrated that recovery from pneumococcal pneumonias converted the pool of alveolar macrophages from being primarily of embryonic origin to being primarily of adult hematopoietic stem cell origin. Alveolar macrophages of either origin demonstrated similar remodeled phenotypes, suggesting that ontogeny did not dictate phenotype. Our data reveal that the remodeled alveolar macrophage phenotype in lungs recovered from pneumococcal pneumonia results from a combination of new recruitment plus training of both the original cells and the new recruits.

Authors

Emad I. Arafa, Anukul T. Shenoy, Kimberly A. Barker, Neelou S. Etesami, Ian M.C. Martin, Carolina Lyon De Ana, Elim Na, Christine V. Odom, Wesley N. Goltry, Filiz T. Korkmaz, Alicia K. Wooten, Anna C. Belkina, Antoine Guillon, E. Camilla Forsberg, Matthew R. Jones, Lee J. Quinton, Joseph P. Mizgerd

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Figure 6

Roles for the IFN-γ receptor on AM in their remodeling after pneumococcus infections.

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Roles for the IFN-γ receptor on AM in their remodeling after pneumococcu...
CD11c-Cre and IFNGR1-floxed mice were crossed to produce IFNGR1 mutation in CD11c+ cells. (A and B) Acute responses to IFN-γ. MFI of MHC-II and IFNGR1 were measured on AM, identified as live CD11c+SiglecF+CD64+ cells in single-cell suspensions from left lung lobes. Cre and Cre+ mice were instilled i.n. with 200 ng/mL IFN-γ and compared with uninstilled controls. Values are expressed as mean ± SEM. n = 4–9 mice/group. Two-way ANOVA followed by Tukey’s multiple comparison test was used to calculate significance. (CG) AM and T cells in the left lung lobes of mice with prior pneumococcal experience. (C) Enumeration of AM, identified as live CD11c+SiglecF+CD64+ cells. n = 14–26 mice per group. Values are expressed as mean ± SEM. Unpaired t tests were used to examine significance. (D) Enumeration of lung CD4+ resident memory T (TRM) cells, identified as extravascular CD4+CD69+CD11a+CD44+CD62L- cells, with numbers calculated from the frequency of total measured by FlowJo software in experienced lungs from Cre and Cre+ mice. n = 12–18 mice/group. Values are expressed as mean ± SEM. Unpaired t tests were used to examine significance. (EG) Median fluorescent intensity (MFI) of IFNGR1, Siglec F, and MHC-II, measured on AM in single-cell suspensions from left lung lobes. AM were identified as CD11c+SiglecF+CD64+ cells. n = 14–26 mice/group. Values are expressed as mean ± SEM. Unpaired t tests were used to examine significance.