Norlander Allison E, Abney Masako, Zhang Jian, Polosukhin Vasiliy V, Thomas Christopher M, Ceneviva Zachary J, AlMotairy Raghad, Patel Rahi, Cephus Jacqueline-Yvonne, Toki Shinji, Zhou Weisong, Chatila Talal A, Newcomb Dawn C, Peebles R Stokes
Department of Cell Biology, Anatomy, and Physiology, Indiana University School of Medicine, Indianapolis, Ind; Krannert Cardiovascular Research Center, Department of Medicine, Indiana University School of Medicine, Indianapolis, Ind; Division of Allergy, Pulmonary, and Critical Care Medicine, Vanderbilt University School of Medicine, Nashville, Tenn.
Division of Allergy, Pulmonary, and Critical Care Medicine, Vanderbilt University School of Medicine, Nashville, Tenn.
J Allergy Clin Immunol. 2025 Aug 12. doi: 10.1016/j.jaci.2025.07.028.
T regulatory (Treg) cells dampen immune activation. Treg cells downregulate the type 2 response to innocuous environmental antigens that produce allergic airway inflammation; however, ST2-positive Treg cells promote allergic airway inflammation. Prostaglandin I (PGI), which signals through the G protein-coupled receptor IP, promotes Treg cell function in an ovalbumin-based model of allergic airway inflammation, suggesting a role for PGI signaling through the IP receptor augmenting β-catenin activity in Treg cells.
We sought to define the mechanisms responsible for PGI's promotion of Treg cell function in the context of an environmental allergen.
Treg cell-specific IP-deficient mice, Treg cell fate-tracking IP-deficient mice, and Treg cell-specific IP- and β-catenin-deficient mice were exposed to an Alternaria alternata extract sensitization and challenge model. Bronchoalveolar lavage fluid was evaluated for cell number, cell differential, and cytokines by ELISA. Lungs were evaluated by flow cytometry and histopathology.
Utilizing Treg cell-specific IP-deficient mice, we found that loss of PGI signaling impaired Treg cell-suppressive function in response to A alternata; specifically, we found enhanced type 2 cytokine production, eosinophil infiltration, vascular remodeling, and numbers of ST2-positive Treg cells compared to controls. We found that dual IP and β-catenin deficiency in Treg cells prevented the enhanced type 2 response and the further increase in ST2-positive Treg cells via prevention of an increase in GATA3 expression in response to A alternata.
Together, these data further support the importance of PGI signaling within Treg cells to their support functionality and demonstrate that PGI prevents Treg cell dysfunction through downregulation of β-catenin.
调节性T(Treg)细胞可抑制免疫激活。Treg细胞下调对无害环境抗原产生的2型反应,该反应会引发过敏性气道炎症;然而,ST2阳性Treg细胞会促进过敏性气道炎症。前列腺素I(PGI)通过G蛋白偶联受体IP发挥信号作用,在基于卵清蛋白的过敏性气道炎症模型中促进Treg细胞功能,提示PGI通过IP受体发出的信号增强了Treg细胞中的β-连环蛋白活性。
我们试图确定在环境变应原背景下PGI促进Treg细胞功能的机制。
将Treg细胞特异性IP缺陷小鼠、Treg细胞命运追踪IP缺陷小鼠以及Treg细胞特异性IP和β-连环蛋白双缺陷小鼠暴露于链格孢菌提取物致敏和激发模型。通过ELISA评估支气管肺泡灌洗液中的细胞数量、细胞分类和细胞因子。通过流式细胞术和组织病理学评估肺脏。
利用Treg细胞特异性IP缺陷小鼠,我们发现PGI信号缺失会损害Treg细胞对链格孢菌的抑制功能;具体而言,与对照组相比,我们发现2型细胞因子产生增加、嗜酸性粒细胞浸润、血管重塑以及ST2阳性Treg细胞数量增加。我们发现Treg细胞中IP和β-连环蛋白双缺陷可通过防止因链格孢菌而导致的GATA3表达增加,从而阻止2型反应增强和ST2阳性Treg细胞进一步增多。
总之,这些数据进一步支持了Treg细胞内PGI信号对其支持功能的重要性,并证明PGI通过下调β-连环蛋白来预防Treg细胞功能障碍。
