Our objective is to define molecular signals that lead to activation of the mucosal immune system leading to autoimmune intestinal inflammation. We believe that these signals will lead to identification of therapeutic targets and help understand the pathogenesis of several human diseases including Inflammatory Bowel Disease (IBD). Th17 cells are highly proinflammatory cells that are critical for different autoimmune diseases. We have developed a research program that is aimed to elucidate the balance between inflammatory Th17 cells and the anti-inflammatory, regulatory T cells, Tregs. Our observation is that the balance between Th17 and Tregs is essential for tissue homeostasis in the gut. Thus, to identify novel regulators with Th17 cells, we performed temporal gene expression profiling of Th17 cells during differentiation. We found a target - SGK1, a kinase that is highly expressed in both Th17 and Tregs and regulates sodium intake of a cell. We discovered that SGK1 is critical stabilizing the Th17 cell phenotype. We also showed that a modest increase in salt concentration induces SGK1 expression and enhances Th17 cell. The goal of this proposal is to understand that the chronic high salt intake in western diets, on a genetically susceptible background, may act as a trigger for developing IBD by inducing pathogenic Th17 cells and disarming protective Tregs via SGK1. Furthermore, such study will ultimately facilitate the identification of environment triggers for the development of pathogenic Th17 cells and autoimmune diseases. We will then 1) investigate whether SGK1 regulates the reciprocal differentiation of Foxp3+ Treg and Th17 cell; 2) test that high salt intake can influenc the IBD development via induction of pathogenic Th17 and disarming Tregs mediated by SGK1; 3) computationally reconstruct an unbiased, mechanistic network within T cells of the interactions between proteins and genes that mediate the effect of high salt. This will allow us to identify potential key regulators and drug targets that may overlap with IBD-susceptibility genes, and to examine with targeted perturbation their roles in influencing Th17/Treg balance and development of IBD. We can then explore the potential therapeutic approaches for IBD and other autoimmune diseases. My short-term goal is to learn more about IBD research and understand the underlying T cell intrinsic and environmental cues that induce autoimmune T cells are induced to mediate gut autoimmunity. My long-term goal is to develop into an independent investigator in an academic setting. My research program will focus on the identification of new factors which can regulate T cell subsets differentiation and triggers for T cell- mediated autoimmune disorders, with the ultimate goal of identifying novel targets for therapeutic interventions for these diseases.

Public Health Relevance

Dietary factors, changes in microbiome, smoking and environmental pollutants could all play a role in the pathogenesis of IBD. In this proposal, our objective is to understand how increase in salt concentration effects mucosal inflammation with direct relevance to Crohn's disease (CD) and Ulcerative Colitis (UC). This project will help identify a novel and modifiable gut-environmental interaction that regulates IBD.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Transition Award (R00)
Project #
4R00AI110649-02
Application #
9067630
Study Section
Special Emphasis Panel (NSS)
Program Officer
Prograis, Lawrence J
Project Start
2015-09-01
Project End
2017-08-31
Budget Start
2015-09-01
Budget End
2016-08-31
Support Year
2
Fiscal Year
2015
Total Cost
$249,000
Indirect Cost
$108,685
Name
Brigham and Women's Hospital
Department
Type
DUNS #
030811269
City
Boston
State
MA
Country
United States
Zip Code
02115
Wu, Chuan; Chen, Zuojia; Xiao, Sheng et al. (2018) SGK1 Governs the Reciprocal Development of Th17 and Regulatory T Cells. Cell Rep 22:653-665
Wu, Chuan; Chen, Zuojia; Dardalhon, Valerie et al. (2017) The transcription factor musculin promotes the unidirectional development of peripheral Treg cells by suppressing the TH2 transcriptional program. Nat Immunol 18:344-353
Kishi, Yasuhiro; Kondo, Takaaki; Xiao, Sheng et al. (2016) Protein C receptor (PROCR) is a negative regulator of Th17 pathogenicity. J Exp Med 213:2489-2501
Shim, Hyeseok; Wu, Chuan; Ramsamooj, Shivan et al. (2016) Deletion of the gene Pip4k2c, a novel phosphatidylinositol kinase, results in hyperactivation of the immune system. Proc Natl Acad Sci U S A 113:7596-601
Meyer Zu Horste, Gerd; Wu, Chuan; Wang, Chao et al. (2016) RBPJ Controls Development of Pathogenic Th17 Cells by Regulating IL-23 Receptor Expression. Cell Rep 16:392-404
Wei, Jun; Long, Lingyun; Yang, Kai et al. (2016) Autophagy enforces functional integrity of regulatory T cells by coupling environmental cues and metabolic homeostasis. Nat Immunol 17:277-85
Kurdi, Ahmed T; Bassil, Ribal; Olah, Marta et al. (2016) Tiam1/Rac1 complex controls Il17a transcription and autoimmunity. Nat Commun 7:13048
Gaublomme, Jellert T; Yosef, Nir; Lee, Youjin et al. (2015) Single-Cell Genomics Unveils Critical Regulators of Th17 Cell Pathogenicity. Cell 163:1400-12
Wang, Chao; Yosef, Nir; Gaublomme, Jellert et al. (2015) CD5L/AIM Regulates Lipid Biosynthesis and Restrains Th17 Cell Pathogenicity. Cell 163:1413-27