Project description:Irisin improves obesity and glucose intolerance through an IL-33-ST2 pathway

Project description:Visceral adipose tissue (VAT) is an endocrine organ critical for energy storage and metabolic homeostasis. Its function, at least in part, is controlled by immune cells, including Foxp3+ regulatory T (Treg) cells, which restrain VAT inflammation and glucose intolerance. Here we uncover that the VAT harbours two distinct Treg cell populations, prototypical ST2+ Treg cells, that are enriched in males and depend on the cytokine IL-33 and the transcription factor PPAR and a previously uncharacterized population of VAT Treg cells that express the chemokine receptor CXCR3+, are enriched in females and depend on the transcription factor T-bet. We further show that the transcription factor GATA3 promoted differentiation of ST2+ VAT Treg cells and together with PPAR and IL-33 repressed the differentiation of CXCR3+ Treg cells. CXCR3+ VAT Treg cells developed from naïve Treg cells in a cytokine IFN- dependent manner. Finally, we demonstrate that ST2+ Treg cells promoted glucose tolerance, while CXCR3+ Treg cells limited VAT inflammation in a sex specific manner. This study for the first time establishes how inflammation determines the developmental trajectories of two functionally and molecularly distinct Treg cell types in the VAT.

Project description:Visceral adipose tissue (VAT) is an endocrine organ critical for energy storage and metabolic homeostasis. Its function, at least in part, is controlled by immune cells, including Foxp3+ regulatory T (Treg) cells, which restrain VAT inflammation and glucose intolerance. Here we uncover that the VAT harbours two distinct Treg cell populations, prototypical ST2+ Treg cells, that are enriched in males and depend on the cytokine IL-33 and the transcription factor PPAR and a previously uncharacterized population of VAT Treg cells that express the chemokine receptor CXCR3+, are enriched in females and depend on the transcription factor T-bet. We further show that the transcription factor GATA3 promoted differentiation of ST2+ VAT Treg cells and together with PPAR and IL-33 repressed the differentiation of CXCR3+ Treg cells. CXCR3+ VAT Treg cells developed from naïve Treg cells in a cytokine IFN- dependent manner. Finally, we demonstrate that ST2+ Treg cells promoted glucose tolerance, while CXCR3+ Treg cells limited VAT inflammation in a sex specific manner. This study for the first time establishes how inflammation determines the developmental trajectories of two functionally and molecularly distinct Treg cell types in the VAT.

Project description:Visceral adipose tissue (VAT) is an endocrine organ critical for energy storage and metabolic homeostasis. Its function, at least in part, is controlled by immune cells, including Foxp3+ regulatory T (Treg) cells, which restrain VAT inflammation and glucose intolerance. Here we uncover that the VAT harbours two distinct Treg cell populations, prototypical ST2+ Treg cells, that are enriched in males and depend on the cytokine IL-33 and the transcription factor PPAR and a previously uncharacterized population of VAT Treg cells that express the chemokine receptor CXCR3+, are enriched in females and depend on the transcription factor T-bet. We further show that the transcription factor GATA3 promoted differentiation of ST2+ VAT Treg cells and together with PPAR and IL-33 repressed the differentiation of CXCR3+ Treg cells. CXCR3+ VAT Treg cells developed from naïve Treg cells in a cytokine IFN- dependent manner. Finally, we demonstrate that ST2+ Treg cells promoted glucose tolerance, while CXCR3+ Treg cells limited VAT inflammation in a sex specific manner. This study for the first time establishes how inflammation determines the developmental trajectories of two functionally and molecularly distinct Treg cell types in the VAT.

Project description:The effects of IL-33 on ST2+ Treg cells were not studied thouroughly. We FACS-sorted in vitro expanded ST2+ Treg cells from C57BL/6 Foxp3-IRES-mRFP (B6 FIR) mice. We next used RNA-seq techonology to define how recombinant IL-33 (rIL-33) may impact mouse Treg by to assessing the transcriptome of IL-33-stimulated ST2+ Treg cells compared to that of untreated ST2+ Treg cells. Our data revealed that ST2+ Treg stimulated with rIL-33 for 6 hours exhibited increased expression of Il10 and Il13 compared to unstimulated ST2+ Treg cells.

Project description:IL-33 is constitutively expressed in many epithelial tissues at steady state and signals through the receptor, ST2. IL-33 is released upon tissue injury and functions as an endogenous danger signal to alert the immune system to tissue damage. Here we investigate the physiological role of the IL-33/ST2 axis in skin homeostasis and cancer development. We show that expression of IL-33 differentiates malignant from normal/benign human tissues and that in mouse models of cutaneous squamous cell carcinoma the IL-33/ST2 axis protects against carcinogenesis. Tissue Treg are the predominant cells expressing ST2 in the skin and localise around the hair follicle and IL-33+ epithelial cells (EC). Adoptive transfer experiments demonstrate that skin Treg regulate EC differentiation, minimizes mutational load and retrains cancer development following exposure to an environmental carcinogen. Our findings indicate an important role for direct EC-Treg cross-talk as an early checkpoint to contain tissue damage and carcinogenesis.

Project description:The IL-33 receptor ST2 is differentially expressed by colonic lamina propria Treg cells Microarray of sort-purified Foxp3+ Treg cells from colonic lamina propria over mesenteric lymph node

Project description:Tregs are highly enriched in the eVAT of male mice. We show that ST2+ VAT Tregs preferentially upregulate and depend on Srebf2-mediated cholesterol metabolism compared their spleen Treg or ST2- VAT Treg counterparts. However, it is unclear whether this increased reliance on cholesterol metabolism is a consequence elevated IL-33 signaling in ST2+ Tregs. Therefore, the goal of experiment is to determine whether IL-33 signaling influences Srebf2-dependent cholesterol gene expression in ST2+ eVAT Tregs in vivo.

Project description:The IL-33 receptor ST2 is differentially expressed by colonic lamina propria Treg cells

Project description:Hepatitis B virus (HBV) infection is a globally significant threaten to global health, with the potential to progress to hepatitis and hepatocellular carcinoma (HCC). Despite the availability of a vaccine, a population with non-responders, emphasizing the need for continued research into HBV-mediated immune responses. Interleukin-33 (IL-33) has emerged as a pivotal player in chronic inflammation and cancer, yet its role in specific viral contexts remains elusive. Here, we demonstrate the immune mechanisms underlying HBV infection and its contribution to HCC development. HBV with liver carcinogens induced IL-33 expression. Utilizing IL-33 and ST2 knockout mice, we demonstrate impaired HBV- mediated tumor progression, highlighting the critical involvement of IL-33 axis. Furthermore, we identify ST2 positive regulatory T cells (Treg) is a major effector cells with IL-33 in HBV-infected mice. ST2-deficient Tregs triggers immune cell infiltration, accompanied by reduced expression of immunosuppressive cytokines such as IL-10. Blocking this axis with STATIN, IL-33 inhibitor, shows promise therapeutic drug in chronic hepatitis and HCC in human subjects. In conclusion, our study reveals that IL-33/Treg axis as a critical mediator in hepatitis and its cancer development.