Jared Travers scite author profile

Signal Transducer and Activator of Transcription (STAT) family members direct the differentiation of T helper cells, with specific STAT proteins promoting distinct effector subsets. STAT6 is required for the development of T helper 2 (Th2) cells, whereas STAT3 promotes differentiation of Th17 and follicular helper T cell subsets. We demonstrated that STAT3 was also activated during Th2 cell development and was required for the expression of Th2-cell associated cytokines and transcription factors. STAT3 bound directly to Th2-cell associated gene loci and was required for the ability of STAT6 to bind target genes. In vivo, STAT3-deficiency in T cells eliminated the allergic inflammation in mice sensitized and challenged with ovalbumin, or transgenic for constitutively active STAT6. Thus, STAT3 cooperates with STAT6 in promoting Th2 cell development. These results demonstrate that differentiating T helper cells integrate multiple STAT protein signals during Th2 cell development.

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Eosinophilic esophagitis–linked calpain 14 is an IL-13–induced protease that mediates esophageal epithelial barrier impairment

Davis

et al. 2016

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We recently identified a genome-wide genetic association of eosinophilic esophagitis (EoE) at 2p23 spanning the calpain 14 (CAPN14) gene, yet the causal mechanism has not been elucidated. We now show that recombinant CAPN14 cleaves a calpain-specific substrate and is inhibited by 4 classical calpain inhibitors: MDL-28170, acetyl-calpastatin, E-64, and PD151746. CAPN14 is specifically induced (>100-fold) in esophageal epithelium after IL-13 treatment. Epithelial cells overexpressing CAPN14 display impaired epithelial architecture, characterized by acantholysis, epidermal clefting, and epidermolysis. CAPN14 overexpression impairs epithelial barrier function, as demonstrated by decreased transepithelial resistance (2.1-fold) and increased FITC-dextran flux (2.6-fold). Epithelium with gene-silenced CAPN14 demonstrates increased dilated intercellular spaces (5.5-fold) and less organized basal cell layering (1.5-fold) following IL-13 treatment. Finally, CAPN14 overexpression results in loss of desmoglein 1 (DSG1) expression, whereas the IL-13–induced loss of DSG1 is normalized by CAPN14 gene silencing. Importantly, these findings were specific to CAPN14, as they were not observed with modulation of CAPN1 expression. These results, along with the potent induction of CAPN14 by IL-13 and genetic linkage of EoE to the CAPN14 gene locus, demonstrate a molecular and cellular pathway that contributes to T helper type 2 responses in mucosal epithelium.

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Eosinophils in mucosal immune responses

2015

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Eosinophils, multifunctional cells that contribute to both innate and adaptive immunity, are involved in the initiation, propagation and resolution of immune responses, including tissue repair. They achieve this multifunctionality by expression of a diverse set of activation receptors, including those that directly recognize pathogens and opsonized targets, and by their ability to store and release preformed cytotoxic mediators that participate in host defense, to produce a variety of de novo pleotropic mediators and cytokines and to interact directly and indirectly with diverse cell types, including adaptive and innate immunocytes and structural cells. Herein, we review the basic biology of eosinophils and then focus on new emerging concepts about their role in mucosal immune homeostasis, particularly maintenance of intestinal IgA. We review emerging data about their development and regulation and describe new concepts concerning mucosal eosinophilic diseases. We describe recently developed therapeutic strategies to modify eosinophil levels and function and provide collective insight about the beneficial and detrimental functions of these enigmatic cells.

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Profound loss of esophageal tissue differentiation in patients with eosinophilic esophagitis

Rochman

Travers

Miracle

et al. 2017

Journal of Allergy and Clinical Immunology

105

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Background A key question in the allergy field is to understand how tissue specific disease is manifested. Eosinophilic esophagitis (EoE) is an emerging tissue specific allergic disease whose pathogenesis remains unclear. Objective Herein, we tested the hypothesis that a defect in tissue specific esophageal genes is an integral part of EoE pathogenesis. Methods We interrogated the pattern of expression of esophagus-specific signature genes derived from the Human Protein Atlas in the EoE transcriptome and in EPC2 esophageal epithelial cells. Western blot and immunofluorescence were used for evaluating expression of esophageal proteins in control and active EoE biopsies. Whole-exome sequencing (WES) was performed to identify mutations in esophagus-specific genes. Results We found that ~39% of the esophagus-specific transcripts were altered in EoE, with ~90% being downregulated. The majority of transcriptional changes observed in esophagus-specific genes were reproduced in vitro in esophageal epithelial cells differentiated in the presence of IL-13. Functional enrichment analysis revealed keratinization and differentiation as the most affected biological processes, and identified IL-1 cytokines and serine peptidase inhibitors (SERPINs) as the most dysregulated esophagus-specific protein families in EoE. Accordingly, EoE biopsies evidenced a profound loss of tissue differentiation, decreased expression of keratin 4 and cornulin and elevated expression of keratin 5 and 14. Whole-exome sequencing of 33 unrelated EoE cases revealed 39 rare mutations in 18 esophagus-specific differentially expressed genes. Conclusions A tissue-centered analysis has revealed a profound loss of esophageal tissue differentiation (identity) as an integral and specific part of the pathophysiology of EoE, and implicated protease- and IL-1–related activities as putative central pathways in disease pathogenesis.

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Jared Travers

The Transcription Factor STAT3 Is Required for T Helper 2 Cell Development

Eosinophilic esophagitis–linked calpain 14 is an IL-13–induced protease that mediates esophageal epithelial barrier impairment

Eosinophils in mucosal immune responses

Profound loss of esophageal tissue differentiation in patients with eosinophilic esophagitis

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