Transcription Factors GATA-3 and RORγt Are Important for Determining the Phenotype of Allergic Airway Inflammation in a Murine Model of Asthma

Ano, Satoshi; Morishima, Yuko; Ishii, Yukio; Yoh, Keigyou; Yageta, Yuichi; Ohtsuka, Shigeo; Matsuyama, Masashi; Kawaguchi, Mio; Takahashi, Satoru; Hizawa, Nobuyuki

doi:10.4049/jimmunol.1202386

Cited by 90 publications

(84 citation statements)

References 42 publications

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“…It has been reported that this chemokine is upregulated in lung epithelial and endothelial cells during inflammation (49), suggesting that epithelial and endothelial cells might contribute to the production of CXCL5 enhanced by the cooperative action of IL-33 and IL-17A. It has been reported that Ag-induced AHR, neutrophilic inflammation, and ELR + CXC chemokine production, such as CXCL1 and CXCL2 in experimental asthmatic models associated with IL-17A using Th17 cell-reconstituted SCID and RORgt-tg mice, were steroid resistant (50,51). Consistent with these data, we found that dexamethasone failed to inhibit coadministration of IL-33-and IL-17A-induced AHR, neutrophilic inflammation, and ELR + CXC chemokine production, indicating that AHR and neutrophilic inflammation exacerbated by IL-33 and IL-17A were also steroid resistant.…”

Section: Discussionmentioning

confidence: 99%

IL-17A Promotes the Exacerbation of IL-33–Induced Airway Hyperresponsiveness by Enhancing Neutrophilic Inflammation via CXCR2 Signaling in Mice

Mizutani

Nabe

Yoshino

2014

The Journal of Immunology

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Neutrophilic airway inflammation is a hallmark of patients with severe asthma. Although we have reported that both IL-33 and IL-17A contributed to IgE-mediated neutrophilic inflammation in mice, the relationship remains unclear. In this article, we examined how IL-17A modifies IL-33–induced neutrophilic inflammation and airway hyperresponsiveness (AHR). IL-33 was intratracheally administered to BALB/c mice on days 0–2; furthermore, on day 7, the effect of the combination of IL-33 and IL-17A was evaluated. Compared with IL-33 or IL-17A alone, the combination exacerbated neutrophilic inflammation and AHR, associated with more increased levels of lung glutamic acid-leucine-arginine+ CXC chemokines, including CXCL1, CXCL2, and CXCL5, and infiltration by alveolar macrophages expressing CXCR2. Treatment with anti-CXCR2 mAb or depletion of alveolar macrophages repressed neutrophilic inflammation and AHR; in addition, depletion of neutrophils suppressed AHR. These findings prompted us to examine the role of CXCR2 in IgE-sensitized mice; a single treatment with anti-CXCR2 mAb in the seventh Ag challenge inhibited late-phase airway obstruction, AHR, and neutrophilic inflammation. In addition to inhibition, multiple treatments during the fourth to seventh challenge attenuated early-phase airway obstruction, eosinophilic inflammation, and goblet cell hyperplasia associated with the reduction of Th2 cytokine production, including IL-4, IL-5, and IL-13. Collectively, IL-33 cooperated with IL-17A to exacerbate AHR by enhancing neutrophilic inflammation via CXCR2 signaling; furthermore, CXCR2 signaling derived Th2 responses. We thus suggest the underlying mechanisms of IL-33 and IL-17A in allergic asthma and CXCR2 as potential therapeutic targets for the disease.

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Section: Discussionmentioning

confidence: 99%

IL-17A Promotes the Exacerbation of IL-33–Induced Airway Hyperresponsiveness by Enhancing Neutrophilic Inflammation via CXCR2 Signaling in Mice

Mizutani

Nabe

Yoshino

2014

The Journal of Immunology

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“…7A). The expression of MIP-2 is significantly elevated in ovalbumin-dependent mouse model of asthma (30). In allergic airway inflammation, the expression of MIP-2 is increased (31).…”

Section: Mip-2 Is Regulated By Mir-26a/-26b and Cox-2-cytokinementioning

confidence: 94%

MicroRNA-26a/-26b-COX-2-MIP-2 Loop Regulates Allergic Inflammation and Allergic Inflammation-promoted Enhanced Tumorigenic and Metastatic Potential of Cancer Cells

Kwon

Kim

Eom

et al. 2015

Journal of Biological Chemistry

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Background:The molecular mechanism of COX-2-mediated allergic inflammation remains unknown. Results: miR-26a/-26b target COX-2 and regulate allergic inflammation-promoted enhanced tumorigenic and metastatic potential of cancer cells. Conclusion:The miR-26a/-26b-COX-2-MIP-2 loop regulates a positive feedback between allergic inflammation and tumor metastasis. Significance: The miR-26a/-26b-COX-2-MIP-2 loop can be employed for the development of anti-allergy and anti-cancer drugs.

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“…Several other groups have generated Tg mice with overexpression of Gata3 and have consistently reported enhanced eosinophilic airway inflammation (33)(34)(35)(36). In chronic models that involve repeated allergen exposure, enforced Gata3 expression was associated with increased subepithelial fibrosis and airway smooth muscle hyperplasia (35).…”

Section: Discussionmentioning

confidence: 99%

“…These CD2-Gata3 Tg mice lacked Th1-mediated hypersensitivity responses and showed reduced differentiation or activity of the Th17 cell subset, and protection from autoimmune encephalomyelitis and rheumatoid arthritis (29,31,32). Overexpression of Gata3 in T cells has been associated with enhanced Th2 responses and eosinophilic airway inflammation in vivo (33)(34)(35)(36). However, effects of Gata3 overexpression on the ILC2 population in AAI remain unknown.…”

mentioning

confidence: 99%

Enforced Expression of Gata3 in T Cells and Group 2 Innate Lymphoid Cells Increases Susceptibility to Allergic Airway Inflammation in Mice

KleinJan

Wolterink

Levani

et al. 2014

The Journal of Immunology

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Airway inflammation in allergic asthma reflects a threshold response of the innate immune system, including group 2 innate lymphoid cells (ILC2), followed by an adaptive Th2 cell–mediated response. Transcription factor Gata3 is essential for differentiation of both Th2 cells and ILC2. We investigated the effects of enforced Gata3 expression in T cells and ILC2 on the susceptibility of mice to allergic airway inflammation (AAI). We used CD2-Gata3 transgenic (Tg) mice with enforced Gata3 expression driven by the CD2 promoter, which is active both in T cells and during ILC2 development. CD2-Gata3 Tg mice and wild-type (WT) littermates were analyzed in mild models of AAI without adjuvants. Whereas OVA allergen exposure did not induce inflammation in WT controls, CD2-Gata3 Tg mice showed clear AAI and enhanced levels of IL-5 and IL-13 in bronchoalveolar lavage. Likewise, in house dust mite–driven asthma, CD2-Gata3 Tg mice were significantly more susceptible to AAI than WT littermates, whereby both ILC2 and Th2 cells were important cellular sources of IL-5 and IL-13 in bronchoalveolar lavage and lung tissue. Compared with WT littermates, CD2-Gata3 Tg mice contained increased numbers of ILC2, which expressed high levels of IL-33R and contributed significantly to early production of IL-4, IL-5, and IL-13. CD2-Gata3 Tg mice also had a unique population of IL-33–responsive non-B/non-T lymphoid cells expressing IFN-γ. Enforced Gata3 expression is therefore sufficient to enhance Th2 and ILC2 activity, and leads to increased susceptibility to AAI after mild exposure to inhaled harmless Ags that otherwise induce Ag tolerance.

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Transcription Factors GATA-3 and RORγt Are Important for Determining the Phenotype of Allergic Airway Inflammation in a Murine Model of Asthma

Cited by 90 publications

References 42 publications

IL-17A Promotes the Exacerbation of IL-33–Induced Airway Hyperresponsiveness by Enhancing Neutrophilic Inflammation via CXCR2 Signaling in Mice

IL-17A Promotes the Exacerbation of IL-33–Induced Airway Hyperresponsiveness by Enhancing Neutrophilic Inflammation via CXCR2 Signaling in Mice

MicroRNA-26a/-26b-COX-2-MIP-2 Loop Regulates Allergic Inflammation and Allergic Inflammation-promoted Enhanced Tumorigenic and Metastatic Potential of Cancer Cells

Enforced Expression of Gata3 in T Cells and Group 2 Innate Lymphoid Cells Increases Susceptibility to Allergic Airway Inflammation in Mice

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