Lung-resident eosinophils represent a distinct regulatory eosinophil subset
Claire Mesnil, … , Thomas Marichal, Fabrice Bureau
Claire Mesnil, … , Thomas Marichal, Fabrice Bureau
Published August 22, 2016
Citation Information: J Clin Invest. 2016;126(9):3279-3295. https://doi.org/10.1172/JCI85664.
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Research Article Immunology Pulmonology

Lung-resident eosinophils represent a distinct regulatory eosinophil subset

Abstract

Increases in eosinophil numbers are associated with infection and allergic diseases, including asthma, but there is also evidence that eosinophils contribute to homeostatic immune processes. In mice, the normal lung contains resident eosinophils (rEos), but their function has not been characterized. Here, we have reported that steady-state pulmonary rEos are IL-5–independent parenchymal Siglec-FintCD62L+CD101lo cells with a ring-shaped nucleus. During house dust mite–induced airway allergy, rEos features remained unchanged, and rEos were accompanied by recruited inflammatory eosinophils (iEos), which were defined as IL-5–dependent peribronchial Siglec-FhiCD62LCD101hi cells with a segmented nucleus. Gene expression analyses revealed a more regulatory profile for rEos than for iEos, and correspondingly, mice lacking lung rEos showed an increase in Th2 cell responses to inhaled allergens. Such elevation of Th2 responses was linked to the ability of rEos, but not iEos, to inhibit the maturation, and therefore the pro-Th2 function, of allergen-loaded DCs. Finally, we determined that the parenchymal rEos found in nonasthmatic human lungs (Siglec-8+CD62L+IL-3Rlo cells) were phenotypically distinct from the iEos isolated from the sputa of eosinophilic asthmatic patients (Siglec-8+CD62LloIL-3Rhi cells), suggesting that our findings in mice are relevant to humans. In conclusion, our data define lung rEos as a distinct eosinophil subset with key homeostatic functions.

Authors

Claire Mesnil, Stéfanie Raulier, Geneviève Paulissen, Xue Xiao, Mark A. Birrell, Dimitri Pirottin, Thibaut Janss, Philipp Starkl, Eve Ramery, Monique Henket, Florence N. Schleich, Marc Radermecker, Kris Thielemans, Laurent Gillet, Marc Thiry, Maria G. Belvisi, Renaud Louis, Christophe Desmet, Thomas Marichal, Fabrice Bureau

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Figure 8

Localization, morphology, and phenotype of lung rEos and iEos in humans.

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Localization, morphology, and phenotype of lung rEos and iEos in humans....
(A) Representative Congo red– and MBP-stained lung sections of healthy human donors and asthmatic patients. Arrows indicate Congo red– and MBP-positive eosinophils, respectively. (B) Quantification of parenchymal and peribronchial eosinophils in Congo red–stained lung sections. Eos, eosinophils. (CE) Parenchymal eosinophils from normal lung tissue (rEos) and eosinophils from the sputa of eosinophilic asthmatic patients (iEos) were analyzed morphologically and phenotypically. (C) Dot plots of living singlet CD45+SSChi cells according to surface Siglec-8 and CD125 expression. Insets depict a representative photograph of FACS-sorted rEos and iEos. (D) Representative flow cytometric histograms of Siglec-8, CD62L, CD101, and IL-3R expression on rEos and iEos. (E) Quantification of Siglec-8, CD62L, CD101, and IL-3R expression levels on the surface of rEos and iEos, expressed as the FC increase in MFI as compared with the control MFI. Number are the P values for comparisons that were not significant (P > 0.05). (B and E) Data shown represent the mean ± SEM as well as individual values. Each dot represents a single individual analyzed (n = 5–8/group) (see also Supplemental Methods and Supplemental Tables 1–3). *P <0.05 and **P < 0.01, by nonparametric Mann-Whitney U test. Scale bars: 10 μm and 2 μm (insets in A).