Naiqian Niu scite author profile

CD4 T helper (Th) type 1 and Th2 cells have been identified in the airways of asthmatic patients. Th2 cells are believed to contribute to pathogenesis of the disease, but the role of Th1 cells is not well defined. In a mouse model, we previously reported that transferred T cell receptor–transgenic Th2 cells activated in the respiratory tract led to airway inflammation with many of the pathologic features of asthma, including airway eosinophilia and mucus production. Th1 cells caused inflammation with none of the pathology associated with asthma. In this report, we investigate the role of Th1 cells in regulating airway inflammation. When Th1 and Th2 cells are transferred together into recipient mice, there is a marked reduction in airway eosinophilia and mucus staining. To address the precise role of Th1 cells, we asked (i), Are Th2-induced responses inhibited by interferon (IFN)-γ? and (ii) Can Th1 cells induce eosinophilia and mucus in the absence of IFN-γ? In IFN-γ receptor−/− recipient mice exposed to inhaled antigen, the inhibitory effects of Th1 cells on both airway eosinophilia and mucus production were abolished. In the absence of IFN-γ receptor signaling, Th1 cells induced mucus but not eosinophilia. Thus, we have identified new regulatory pathways for mucus production; mucus can be induced by Th2 and non-Th2 inflammatory responses in the lung, both of which are inhibited by IFN-γ. The blockade of eosinophilia and mucus production by IFN-γ likely occurs through different inhibitory pathways that are activated downstream of Th2 cytokine secretion and require IFN-γ signaling in tissue of recipient mice.

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Interleukin-13 Mediates a Fundamental Pathway for Airway Epithelial Mucus Induced by CD4 T Cells and Interleukin-9

Whittaker

Niu

Temann

et al. 2002

Am J Respir Cell Mol Biol

169

125

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Mucus hyperproduction in asthma results from Th2-induced airway inflammation. Controversy exists about the precise mechanism of this Th2 effect. Although we showed that mucus can be induced by Th2 cells in the absence of interleukin (IL)-4, IL-5, eosinophils, and mast cells, but not without IL-4Ralpha signaling, others demonstrated that IL-4 and IL-9 can directly stimulate airway epithelial mucus. Using a system in which in vitro-generated T cell receptor transgenic Th2 cells are transferred into recipient mice and activated in the respiratory tract with inhaled antigen, we now show that CD4 Th cells can stimulate mucus only through a common, IL-13-mediated pathway. All Th cytokines depend on IL-13 for this effect and IL-13 acts, not through intermediate inflammatory cells, but on structural cells within the lung, likely the airway epithelium itself. The potency of IL-13 is shown, requiring its complete blockade for a significant reduction in mucus production. We show that mucus induction by Th2 cells does not require nuclear factor-kappaB, unlike mucins induced by gram-negative infection. These studies define in vivo pathways that lead to mucus induction and indicate that, whereas IL-13 mediates a dominant pathway for CD4 Th induced inflammation, other inflammatory stimuli activate the epithelium to produce mucus by different pathways.

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VEGF controls lung Th2 inflammation via the miR-1–Mpl (myeloproliferative leukemia virus oncogene)–P-selectin axis

Takyar

Vasavada

Zhang

et al. 2013

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Naiqian Niu

T Helper 1 Cells and Interferon γ Regulate Allergic Airway Inflammation and Mucus Production

Interleukin-13 Mediates a Fundamental Pathway for Airway Epithelial Mucus Induced by CD4 T Cells and Interleukin-9

VEGF controls lung Th2 inflammation via the miR-1–Mpl (myeloproliferative leukemia virus oncogene)–P-selectin axis

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