Lung-resident memory B cells protect against bacterial pneumonia
Kimberly A. Barker, … , Lee J. Quinton, Joseph P. Mizgerd
Kimberly A. Barker, … , Lee J. Quinton, Joseph P. Mizgerd
Published June 1, 2021
Citation Information: J Clin Invest. 2021;131(11):e141810. https://doi.org/10.1172/JCI141810.
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Research Article Immunology Pulmonology

Lung-resident memory B cells protect against bacterial pneumonia

Abstract

Lung-resident memory B cells (BRM cells) are elicited after influenza infections of mice, but connections to other pathogens and hosts — as well as their functional significance — have yet to be determined. We postulate that BRM cells are core components of lung immunity. To test this, we examined whether lung BRM cells are elicited by the respiratory pathogen pneumococcus, are present in humans, and are important in pneumonia defense. Lungs of mice that had recovered from pneumococcal infections did not contain organized tertiary lymphoid organs, but did have plasma cells and noncirculating memory B cells. The latter expressed distinctive surface markers (including CD69, PD-L2, CD80, and CD73) and were poised to secrete antibodies upon stimulation. Human lungs also contained B cells with a resident memory phenotype. In mice recovered from pneumococcal pneumonia, depletion of PD-L2+ B cells, including lung BRM cells, diminished bacterial clearance and the level of pneumococcus-reactive antibodies in the lung. These data define lung BRM cells as a common feature of pathogen-experienced lungs and provide direct evidence of a role for these cells in pulmonary antibacterial immunity.

Authors

Kimberly A. Barker, Neelou S. Etesami, Anukul T. Shenoy, Emad I. Arafa, Carolina Lyon de Ana, Nicole M.S. Smith, Ian M.C. Martin, Wesley N. Goltry, Alexander M.S. Barron, Jeffrey L. Browning, Hasmeena Kathuria, Anna C. Belkina, Antoine Guillon, Xuemei Zhong, Nicholas A. Crossland, Matthew R. Jones, Lee J. Quinton, Joseph P. Mizgerd

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Figure 2

Pneumococcal exposure elicits clusters of EV memory B cells in the lung.

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Pneumococcal exposure elicits clusters of EV memory B cells in the lung....
Immunofluorescence staining (20×) for B220 (red), CD4 (green), and nuclei (DAPI, blue) of representative naive (A) and experienced (B) lungs. H&E staining of representative naive (C) and experienced (D) lungs. (E and F) Left panels: Magnified view of 2 immune cell clusters in D. Right panels: Immunohistochemical staining for CD19 (red) and CD4 (cyan) in serial sections of the same lungs imaged in the left panels. Scale bars: 75 μm (A and B); 500 μm (C and D); 100 μm (E and F). (G) Representative gating of i.v. CD45+CD19+ cells (IV B cells) and i.v. CD45CD19+ cells (EV B cells) in lungs of naive and experienced mice. (H) IgD expression on IV and EV B cells in experienced lungs (left) and percentages of IV and EV B cells that are IgD in experienced lungs (right; Mann-Whitney U test, *P < 0.0001). (I) Percentages of IgD+ and IgD B cells among live lung cells in the IV and EV compartments of naive and experienced mice analyzed between 4 and 12 weeks after the previous Sp19F exposure (2-way ANOVA, *P = 0.029, **P = 0.0006, ***P < 0.0001). (J) IgD EV B cells in naive and experienced lungs at the indicated times after lung exposure (2-way ANOVA, *P = 0.01, **P = 0.0054, ***P < 0.0001). (K) CD38 expression on EV IgD B cells (each red curve from 1 of 5 different mice) and on EV CD45 cells (shaded curve, representative). A, airway; pa, pulmonary artery.