Phosphatase wild-type p53-induced phosphatase 1 controls the development of TH9 cells and allergic airway inflammation - 06/06/18
, Lianfeng Zhang, PhD d, ⁎ , Yong Zhao, MD, PhD a, ⁎ Abstract |
Background |
Allergic asthma is one of the most common diseases worldwide, resulting in a burden of diseases. No available therapeutic regimens can cure asthma thus far.
Objective |
We sought to identify new molecular targets for TH9 cell–mediated allergic airway inflammation.
Methods |
Wild-type p53-induced phosphatase 1 (Wip1) gene knockout mice, Wip1 inhibitor–treated mice, and ovalbumin-induced allergic airway inflammation mouse models were used to characterize the roles of Wip1 in allergic airway inflammation. The induction of TH cell subsets in vitro, real-time PCR, immunoblots, luciferase assays, and chromatin immunoprecipitation assays were used to determine the regulatory pathways of Wip1 in TH9 differentiation.
Results |
Here we demonstrate that Wip1-deficient mice are less prone to allergic airway inflammation, as indicated by the decreased pathologic alterations in lungs. Short-term treatment with a Wip1-specific inhibitor significantly ameliorates allergic inflammation progression. Intriguingly, Wip1 selectively impaired TH9 but not TH1, TH2, and TH17 cell differentiation. Biochemical assays show that Wip1 deficiency increases c-Jun/c-Fos activity in a c-Jun N-terminal kinase–dependent manner and that c-Jun/c-Fos directly binds to Il9 promoter and inhibits Il9 transcription.
Conclusion |
Wip1 controls TH9 cell development through regulating c-Jun/c-Fos activity on the Il9 promoter and is important for the pathogenesis of allergic airway inflammation. These findings shed light on the previously unrecognized roles of Wip1 in TH9 cell differentiation. The inhibitory effects of a Wip1 inhibitor on the pathogenesis of allergic airway inflammation can have important implications for clinical application of Wip1 inhibitors in allergy therapies.
Le texte complet de cet article est disponible en PDF.Graphical abstract |
Key words : Allergy, Wip1, TH9 cell development, IL-9, phosphatase
Abbreviations used : AP-1, BAL, BATF, ChIP, dLN, Foxp3, H&E, IRF4, iTreg, JNK, KO, MAPK, MCP-1, NF-κB, OVA, p38MAPK, PAS, Rag2, sRaw, STAT, Treg, Wip1
Plan
| Supported by grants from the National Natural Science Foundation for General and Key Programs (81130055, 81530049, and 31470860 to Y.Z.), the National Basic Research Program of China (2014ZX10002002-001-002 to J.L. and Y.Z.), the Knowledge Innovation Program of Chinese Academy of Sciences (XDA04020202-19 to Y.Z.), CAS China Manned Space Flight Engineering Project of Life Science Experiments, the CAS/SAFEA International Partnership Program for Creative Research Teams (to Y.Z.), and the “215” high-level health technology project (2011 to J.L.). |
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| Disclosure of potential conflict of interest: J. Lv receives grant support from the National Basic Research Program of China. Y. Zhao receives grant support from the National Natural Science Foundation for General and Key Programs, National Basic Research Program of China, Knowledge Innovation Program of Chinese Academy of Sciences, CAS China Manned Space Flight Engineering Project of life science experiments, and CAS/SAFEA International Partnership Program for Creative Research Teams. The rest of the authors declare that they have no relevant conflicts of interest. |
Vol 141 - N° 6
P. 2168-2181 - juin 2018 Retour au numéro
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