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基于2-(吡咯烷-1-基甲基)-1-吡咯的ST2抑制剂的构效关系及其对肥大细胞活化的抑制作用研究

Studies of Structure-Activity Relationship of 2-(Pyrrolidin-1ylmethyl)-1-pyrrole-Based ST2 Inhibitors and Their Inhibition of Mast Cells Activation.

作者信息

Yuan Xinrui, Rech Jason C, Ramaraju Andhavaram, Patil Amol D, Rajanayake Krishani, Yuan Hebao, Kazemi Sabzvar Mona, Mandal Mousumi, Cho Eun Bee, Wen Bo, Jiang Jianxiong, Leo M Dennis, Singh Udai P, Sun Duxin, Yang Chao-Yie

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy, University of Tennessee Health Science Center, Memphis, Tennessee 38163, United States.

Department of Internal Medicine, Hematology and Oncology, Michigan Center for Therapeutic Innovation, Ann Arbor, Michigan 48109, United States.

出版信息

ACS Med Chem Lett. 2024 Oct 18;15(11):2053-2059. doi: 10.1021/acsmedchemlett.4c00459. eCollection 2024 Nov 14.

DOI:10.1021/acsmedchemlett.4c00459
PMID:39563831
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11571090/
Abstract

ST2 belongs to the interleukin 1 receptor family and is expressed in immune cells including certain CD4 T cells and mast cells. Binding of ST2 with interleukin 33 (IL-33) induces downstream signaling that activates NF-κB pathway. Although the ST2/IL-33 axis exerts immune tolerance via expansion of regulator T cells, the same axis also activates a subset of immune cells to produce proinflammatory cytokines in host defense or in tissue repair. Here, we reported the development of ST2 inhibitors with improved inhibitory activities against ST2 and metabolic stability based on a previous lead, . Using the human mast cell line (LAD2), we showed that ST2 inhibitors mitigated ST2 upregulation and reduced IL-1β released through degranulation, demonstrating that small-molecule ST2 inhibitors effectively attenuated the ST2/IL-33 signaling in human mast cells. Further optimization of the compounds may lay the foundation for developing ST2 inhibitors for the treatment of mast cells mediated diseases.

摘要

ST2属于白细胞介素1受体家族,在包括某些CD4 T细胞和肥大细胞在内的免疫细胞中表达。ST2与白细胞介素33(IL-33)结合会诱导下游信号传导,激活NF-κB通路。尽管ST2/IL-33轴通过调节性T细胞的扩增发挥免疫耐受作用,但同一轴也会激活一部分免疫细胞,在宿主防御或组织修复过程中产生促炎细胞因子。在此,我们报道了基于先前的先导化合物开发出的对ST2具有更高抑制活性和代谢稳定性的ST2抑制剂。使用人肥大细胞系(LAD2),我们发现ST2抑制剂减轻了ST2的上调,并减少了通过脱颗粒释放的IL-1β,这表明小分子ST2抑制剂有效地减弱了人肥大细胞中的ST2/IL-33信号传导。对这些化合物的进一步优化可能为开发用于治疗肥大细胞介导疾病的ST2抑制剂奠定基础。

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