Cytokine genes are regulated by multiple regulatory elements that confer tissue-specific and activation-dependent expression. The cis-regulatory elements of the gene encoding IL-9, a cytokine that promotes allergy, autoimmune inflammation and tumor immunity, have not been defined. Here we identify an enhancer (CNS-25) upstream of the Il9 gene that binds most transcription factors (TFs) that promote Il9 gene expression. Deletion of the enhancer in the mouse germline alters transcription factor binding to the remaining Il9 regulatory elements, and results in diminished IL-9 production in multiple cell types including Th9 cells, and attenuates IL-9-dependent immune responses. Moreover, deletion of the homologous enhancer (CNS-18) in primary human Th9 cultures results in significant decrease of IL-9 production. Thus, Il9 CNS-25/IL9 CNS-18 is a critical and conserved regulatory element for IL-9 production.
PARP-14, a member of the poly ADP-ribose polymerase super family, promotes T helper cell 2 (Th2) differentiation by regulating interleukin-4 (IL-4) and STAT6-dependent transcription. Yet, whether PARP-14 globally impacts gene regulation has not been determined. In this report, using an RNA pol II ChIP-seq approach, we identify genes in Th2 cells that are regulated by PARP-14, and either dependent or independent of ADP-ribosyltransferase catalytic activity. Our data demonstrate that PARP-14 enhances the expression of Th2 genes as it represses the expression of Th1-associated genes. Among the relevant targets are Signal Transducer and Activator of Transcription genes required for polarizing Th1 and Th2 cells. To define a mechanism for PARP-14 function, we use an informatics approach to identify putative PARP-14 DNA binding sites. Two putative PARP-14 binding motifs are identified in multiple Th2 cytokine genes, and we demonstrate that PARP-14 interacts with each motif using in vitro binding assays. Taken together our results indicate that PARP-14 is an important factor for T helper cell differentiation and it binds to specific DNA sequences to mediate its function.
Background: Bcl6 is required for the development of T follicular helper and regulatory (Tfh, Tfr) cells that regulate germinal center responses. Bcl6 also impacts the function of regulatory T (Treg) cells.
Objective:The goal of this study is to define the functions of Bcl6 in Treg cells including Tfr cells in the context of allergic airway inflammation (AAI). Methods: We employed a model of house dust mite (HDM) sensitization to challenge wild type, Bcl6 fl/fl Foxp3-Cre and Prdm1(Blimp1) fl/fl Foxp3-Cre mice to study the reciprocal roles of Bcl6 and Blimp1 in AAI. Results: In the HDM model, Tfr cells repress the production of IgE and Bcl6+ Treg cells suppress the generation of type 2 cytokine producing cells in the lungs. In mice with Bcl6deficient Treg cells, twice as many ST2 (IL-33R) + Tregs develop as observed in wild type mice. ST2 + Tregs in the context of AAI are Blimp1-dependent, express type 2 cytokines, and share features of visceral adipose tissue Treg cells. Bcl6-deficient Tregs are more susceptible, and Blimp1-deficient Tregs are resistant, to acquiring the ST2 + Treg cell phenotype in vitro and in vivo in response to IL-33. Bcl6-deficient ST2+ Tregs but not Bcl6-deficient ST2+ T conventional cells strongly promote AAI when transferred into recipient mice. Lastly, ST2 is required for the exacerbated AAI in Bcl6 fl/fl Foxp3-Cre mice. Conclusions: During AAI, Bcl6 and Blimp1 play dual roles in regulating Tfr activity in the germinal center and in the development of ST2 + Tregs that promote type 2 cytokine responses. Koh page 4 4 Key Messages: • Tfr cells limit IgE production in mice challenged by airway allergen • Bcl6 and Blimp1 reciprocally regulate ST2 + Treg development • ST2 + Tregs promote allergic airway inflammation Capsule Summary: Bcl6 attenuates allergic disease by promoting Tfr cell development to repress the allergen-specific humoral response and by limiting expansion of ST2 + Tregs.
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