David J. Erle scite author profile

Asthma is an increasingly common disease that remains poorly understood and difficult to manage. This disease is characterized by airway hyperreactivity (AHR, defined by exaggerated airflow obstruction in response to bronchoconstrictors), mucus overproduction and chronic eosinophilic inflammation. AHR and mucus overproduction are consistently linked to asthma symptoms and morbidity. Asthma is mediated by Th2 lymphocytes, which produce a limited repertoire of cytokines, including interleukin-4 (IL-4), IL-5, IL-9 and IL-13. Although each of these cytokines has been implicated in asthma, IL-13 is now thought to be especially critical. In animal models of allergic asthma, blockade of IL-13 markedly inhibits allergen-induced AHR, mucus production and eosinophilia. Furthermore, IL-13 delivery to the airway causes all of these effects. IL-13 is thus both necessary and sufficient for experimental models of asthma. However, the IL-13-responsive cells causing these effects have not been identified. Here we show that mice lacking signal transducer and activator of transcription 6 (STAT6) were protected from all pulmonary effects of IL-13. Reconstitution of STAT6 only in epithelial cells was sufficient for IL-13-induced AHR and mucus production in the absence of inflammation, fibrosis or other lung pathology. These results demonstrate the importance of direct effects of IL-13 on epithelial cells in causing two central features of asthma.

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Detection of Succinate by Intestinal Tuft Cells Triggers a Type 2 Innate Immune Circuit

Nadjsombati

et al. 2018

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In the small intestine, type 2 responses are regulated by a signaling circuit that involves tuft cells and group 2 innate lymphoid cells (ILC2s). Here, we identified the microbial metabolite succinate as an activating ligand for small intestinal (SI) tuft cells. Sequencing analyses of tuft cells isolated from the small intestine, gall bladder, colon, thymus, and trachea revealed that expression of tuft cell chemosensory receptors is tissue specific. SI tuft cells expressed the succinate receptor (SUCNR1), and providing succinate in drinking water was sufficient to induce a multifaceted type 2 immune response via the tuft-ILC2 circuit. The helminth Nippostrongylus brasiliensis and a tritrichomonad protist both secreted succinate as a metabolite. In vivo sensing of the tritrichomonad required SUCNR1, whereas N. brasiliensis was SUCNR1 independent. These findings define a paradigm wherein tuft cells monitor microbial metabolites to initiate type 2 immunity and suggest the existence of other sensing pathways triggering the response to helminths.

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Tissue signals imprint ILC2 identity with anticipatory function

et al. 2018

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Group 2 innate lymphoid cells (ILC2s) are distributed systemically and produce type 2 cytokines in response to a variety of stimuli, including the epithelial cytokines interleukin (IL)-25, IL-33, and thymic stromal lymphopoietin (TSLP). Transcriptional profiling of ILC2s from different tissues, however, grouped ILC2s according to their tissue of origin, even in the setting of combined IL-25-, IL-33-receptor-, and TSLP-receptor-deficiency. Single-cell profiling confirmed a tissue-organizing transcriptome and identified ILC2 subsets expressing distinct activating receptors, including the major subset of skin ILC2s, which were activated preferentially by IL-18. Tissue ILC2 subsets were unaltered in number and expression in germ-free mice, suggesting that endogenous, tissue-derived signals drive the maturation of ILC2 subsets by controlling expression of distinct patterns of activating receptors, thus anticipating tissue-specific perturbations occurring later in life.

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Thymic tuft cells promote an IL-4-enriched medulla and shape thymocyte development

Miller

Proekt

Moltke

et al. 2018

Nature

239

362

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The thymus is responsible for generating a diverse yet self-tolerant pool of T cells. Although the thymic medulla consists mostly of developing and mature AIRE epithelial cells, recent evidence has suggested that there is far greater heterogeneity among medullary thymic epithelial cells than was previously thought. Here we describe in detail an epithelial subset that is remarkably similar to peripheral tuft cells that are found at mucosal barriers. Similar to the periphery, thymic tuft cells express the canonical taste transduction pathway and IL-25. However, they are unique in their spatial association with cornified aggregates, ability to present antigens and expression of a broad diversity of taste receptors. Some thymic tuft cells pass through an Aire-expressing stage and depend on a known AIRE-binding partner, HIPK2, for their development. Notably, the taste chemosensory protein TRPM5 is required for their thymic function through which they support the development and polarization of thymic invariant natural killer T cells and act to establish a medullary microenvironment that is enriched in the type 2 cytokine, IL-4. These findings indicate that there is a compartmentalized medullary environment in which differentiation of a minor and highly specialized epithelial subset has a non-redundant role in shaping thymic function.

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A tissue checkpoint regulates type 2 immunity

et al. 2016

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Group 2 innate lymphoid cells (ILC2s) and CD4+ T helper type 2 (Th2) cells are defined by their similar effector cytokines, which together mediate the features of allergic immunity. Here, we show that tissue ILC2s and Th2 cells differentiate independently but share overlapping effector function programs mediated by exposure to the tissue-derived cytokines interleukin (IL)-25, IL-33, and thymic stromal lymphopoietin (TSLP). Loss of these three tissue signals does not affect lymph node priming but abrogates terminal differentiation of effector Th2 cells and adaptive lung inflammation in a T cell-intrinsic manner. Our findings suggest how diverse perturbations activate type 2 immunity, uncovering a shared local tissue-elicited checkpoint that can be exploited to control both innate and adaptive allergic inflammation.

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David J. Erle

Direct effects of interleukin-13 on epithelial cells cause airway hyperreactivity and mucus overproduction in asthma

Detection of Succinate by Intestinal Tuft Cells Triggers a Type 2 Innate Immune Circuit

Tissue signals imprint ILC2 identity with anticipatory function

Thymic tuft cells promote an IL-4-enriched medulla and shape thymocyte development

A tissue checkpoint regulates type 2 immunity

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