IL-10 sensing by lung interstitial macrophages prevents bacterial dysbiosis-driven pulmonary inflammation and maintains immune homeostasis

Seung Hyeon Kim; Zachary White; Anastasiia Gainullina; Soeun Kang; Jiseon Kim; Joseph R. Dominguez; Yeonwoo Choi; Ivan Cabrera; Madison Plaster; Michihiro Takahama; Rafael S. Czepielewski; Jinki Yeom; Matthias Gunzer; Nissim Hay; Odile David; Nicolas Chevrier; Teruyuki Sano; Ki Wook Kim

doi:10.1016/j.immuni.2025.04.004

IL-10 sensing by lung interstitial macrophages prevents bacterial dysbiosis-driven pulmonary inflammation and maintains immune homeostasis

Seung Hyeon Kim, Zachary White, Anastasiia Gainullina, Soeun Kang, Jiseon Kim, Joseph R. Dominguez, Yeonwoo Choi, Ivan Cabrera, Madison Plaster, Michihiro Takahama, Rafael S. Czepielewski, Jinki Yeom, Matthias Gunzer, Nissim Hay, Odile David, Nicolas Chevrier, Teruyuki Sano, Ki Wook Kim

Physiology

Research output: Contribution to journal › Article › peer-review

Abstract

Crosstalk between the immune system and the microbiome is critical for maintaining immune homeostasis. Here, we examined this communication and the impact of immune-suppressive IL-10 signaling on pulmonary homeostasis. We found that IL-10 sensing by interstitial macrophages (IMs) is required to prevent spontaneous lung inflammation. Loss of IL-10 signaling in IMs initiated an inflammatory cascade through the activation of classical monocytes and CD4⁺ T cell subsets, leading to chronic lung inflammation with age. Analyses of antibiotic-treated and germ-free mice established that lung inflammation in the animals lacking IL-10 signaling was triggered by commensal bacteria. 16S rRNA sequencing revealed Delftia acidovorans and Rhodococcus erythropolis as potential drivers of lung inflammation. Intranasal administration of these bacteria or transplantation of human fecal microbiota elicited lung inflammation in gnotobiotic Il10-deficient mice. These findings highlight that IL-10 sensing by IMs contributes to pulmonary homeostasis by preventing lung inflammation caused by commensal dysbiosis.

Original language	English (US)
Pages (from-to)	1306-1326.e7
Journal	Immunity
Volume	58
Issue number	5
DOIs	https://doi.org/10.1016/j.immuni.2025.04.004
State	Published - May 13 2025

Keywords

Delftia acidovorans
IL-10
IL-10R
Rhodococcus erythropolis
Th1 and Th17 cells
commensal bacteria
gut-lung axis
interstitial macrophages
lung inflammation
monocyte-derived macrophages

ASJC Scopus subject areas

Immunology and Allergy
Immunology
Infectious Diseases

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.immuni.2025.04.004

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Kim, S. H., White, Z., Gainullina, A., Kang, S., Kim, J., Dominguez, J. R., Choi, Y., Cabrera, I., Plaster, M., Takahama, M., Czepielewski, R. S., Yeom, J., Gunzer, M., Hay, N., David, O., Chevrier, N., Sano, T., & Kim, K. W. (2025). IL-10 sensing by lung interstitial macrophages prevents bacterial dysbiosis-driven pulmonary inflammation and maintains immune homeostasis. Immunity, 58(5), 1306-1326.e7. https://doi.org/10.1016/j.immuni.2025.04.004

Kim, SH, White, Z, Gainullina, A, Kang, S, Kim, J, Dominguez, JR, Choi, Y, Cabrera, I, Plaster, M, Takahama, M, Czepielewski, RS, Yeom, J, Gunzer, M, Hay, N, David, O, Chevrier, N, Sano, T & Kim, KW 2025, 'IL-10 sensing by lung interstitial macrophages prevents bacterial dysbiosis-driven pulmonary inflammation and maintains immune homeostasis', Immunity, vol. 58, no. 5, pp. 1306-1326.e7. https://doi.org/10.1016/j.immuni.2025.04.004

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abstract = "Crosstalk between the immune system and the microbiome is critical for maintaining immune homeostasis. Here, we examined this communication and the impact of immune-suppressive IL-10 signaling on pulmonary homeostasis. We found that IL-10 sensing by interstitial macrophages (IMs) is required to prevent spontaneous lung inflammation. Loss of IL-10 signaling in IMs initiated an inflammatory cascade through the activation of classical monocytes and CD4+ T cell subsets, leading to chronic lung inflammation with age. Analyses of antibiotic-treated and germ-free mice established that lung inflammation in the animals lacking IL-10 signaling was triggered by commensal bacteria. 16S rRNA sequencing revealed Delftia acidovorans and Rhodococcus erythropolis as potential drivers of lung inflammation. Intranasal administration of these bacteria or transplantation of human fecal microbiota elicited lung inflammation in gnotobiotic Il10-deficient mice. These findings highlight that IL-10 sensing by IMs contributes to pulmonary homeostasis by preventing lung inflammation caused by commensal dysbiosis.",

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AU - Kim, Seung Hyeon

AU - White, Zachary

AU - Gainullina, Anastasiia

AU - Kang, Soeun

AU - Kim, Jiseon

AU - Dominguez, Joseph R.

AU - Choi, Yeonwoo

AU - Cabrera, Ivan

AU - Plaster, Madison

AU - Takahama, Michihiro

AU - Czepielewski, Rafael S.

AU - Yeom, Jinki

AU - Gunzer, Matthias

AU - Hay, Nissim

AU - David, Odile

AU - Chevrier, Nicolas

AU - Sano, Teruyuki

AU - Kim, Ki Wook

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Y1 - 2025/5/13

N2 - Crosstalk between the immune system and the microbiome is critical for maintaining immune homeostasis. Here, we examined this communication and the impact of immune-suppressive IL-10 signaling on pulmonary homeostasis. We found that IL-10 sensing by interstitial macrophages (IMs) is required to prevent spontaneous lung inflammation. Loss of IL-10 signaling in IMs initiated an inflammatory cascade through the activation of classical monocytes and CD4+ T cell subsets, leading to chronic lung inflammation with age. Analyses of antibiotic-treated and germ-free mice established that lung inflammation in the animals lacking IL-10 signaling was triggered by commensal bacteria. 16S rRNA sequencing revealed Delftia acidovorans and Rhodococcus erythropolis as potential drivers of lung inflammation. Intranasal administration of these bacteria or transplantation of human fecal microbiota elicited lung inflammation in gnotobiotic Il10-deficient mice. These findings highlight that IL-10 sensing by IMs contributes to pulmonary homeostasis by preventing lung inflammation caused by commensal dysbiosis.

AB - Crosstalk between the immune system and the microbiome is critical for maintaining immune homeostasis. Here, we examined this communication and the impact of immune-suppressive IL-10 signaling on pulmonary homeostasis. We found that IL-10 sensing by interstitial macrophages (IMs) is required to prevent spontaneous lung inflammation. Loss of IL-10 signaling in IMs initiated an inflammatory cascade through the activation of classical monocytes and CD4+ T cell subsets, leading to chronic lung inflammation with age. Analyses of antibiotic-treated and germ-free mice established that lung inflammation in the animals lacking IL-10 signaling was triggered by commensal bacteria. 16S rRNA sequencing revealed Delftia acidovorans and Rhodococcus erythropolis as potential drivers of lung inflammation. Intranasal administration of these bacteria or transplantation of human fecal microbiota elicited lung inflammation in gnotobiotic Il10-deficient mice. These findings highlight that IL-10 sensing by IMs contributes to pulmonary homeostasis by preventing lung inflammation caused by commensal dysbiosis.

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KW - lung inflammation

KW - monocyte-derived macrophages

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IL-10 sensing by lung interstitial macrophages prevents bacterial dysbiosis-driven pulmonary inflammation and maintains immune homeostasis

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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