Author
Listed:
- Shuying Yi
(Taishan Medical University
Taishan Medical University)
- Jing Zhai
(Taishan Medical University)
- Rui Niu
(Taishan Medical University)
- Guangming Zhu
(Taishan Medical University)
- Meixiang Wang
(Fudan University)
- Jianguo Liu
(Taishan Medical University)
- Hua Huang
(Taishan Medical University)
- Yaping Wang
(Taishan Medical University)
- Xiuli Jing
(Taishan Medical University)
- Li Kang
(Taishan Medical University
Taishan Medical University)
- Wengang Song
(Taishan Medical University
Taishan Medical University)
- Yufang Shi
(Shanghai Institutes for Biological Sciences)
- Hua Tang
(Taishan Medical University
Fudan University)
Abstract
Eosinophil infiltration, a hallmark of allergic asthma, is essential for type 2 immune responses. How the initial eosinophil recruitment is regulated by lung dendritic cell (DC) subsets during the memory stage after allergen challenge is unclear. Here, we show that the initial eosinophil infiltration is dependent on lung cDC1s, which require nitric oxide (NO) produced by inducible NO synthase from lung CD24−CD11b+ DC2s for inducing CCL17 and CCL22 to attract eosinophils. During late phase responses after allergen challenge, lung CD24+ cDC2s inhibit eosinophil recruitment through secretion of TGF-β1, which impairs the expression of CCL17 and CCL22. Our data suggest that different lung antigen-presenting cells modulate lung cDC1-mediated eosinophil recruitment dynamically, through secreting distinct soluble factors during the memory stage of chronic asthma after allergen challenge in the mouse.
Suggested Citation
Shuying Yi & Jing Zhai & Rui Niu & Guangming Zhu & Meixiang Wang & Jianguo Liu & Hua Huang & Yaping Wang & Xiuli Jing & Li Kang & Wengang Song & Yufang Shi & Hua Tang, 2018.
"Eosinophil recruitment is dynamically regulated by interplay among lung dendritic cell subsets after allergen challenge,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06316-9
DOI: 10.1038/s41467-018-06316-9
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