State Key Laboratory of Quality Research in Chinese Medicines, Macau Institute for Applied Research in Medicine and Health , Macau University of Science and Technology , Avenida Wai Long , Taipa , Macau 999078 , People's Republic of China.
Mol Pharm. 2019 Feb 4;16(2):798-807. doi: 10.1021/acs.molpharmaceut.8b01063. Epub 2019 Jan 22.
RORγt is the master transcription factor of IL-17 cytokine expression and Th17 lymphocyte differentiation, which are responsible for the induction of many autoimmune diseases. Recently, RORγt has become an attractive target for drug development to treat these types of diseases, and the field of RORγt antagonist research is now extremely competitive. In our current study, molecular docking was applied to demonstrate that cardenolides, including uscharin, calactin, and calotropin derived from Calotropis gigantea, probably directly bind to RORγt. Therefore, the inhibitory effect was further validated using a luciferase reporter assay. Because RORγt is the key transcriptional factor for Th17 differentiation, the effects of these compounds on Th17 differentiation were studied by flow cytometry. The results showed that uscharin, calactin, and calotropin inhibited Th17 differentiation from 100 to 500 nM. Furthermore, uscharin had a better effect than digoxin, a well-known inverse agonist of RORγt, in reducing Th17 polarization. Additionally, the effects of the cardenolides on the differentiation of other Th lineages, including Th1, Th2, and Treg, were investigated. Uscharin suppressed Th1, Th2, and Treg cell differentiation, while calactin suppressed the differentiation of Th1 cells, and calotropin did not influence the other T cell subsets, indicating that calactin suppressed Th1 and Th17 differentiation, and calotropin selectively quenched Th17 polarization. Structural analysis of the three compounds showed that the selectivity of uscharin, calactin, and calotropin on the suppression of the different subsets of T cells is correlated to the minor differences in their chemical structures. Collectively, calactin and calotropin have greater potential to be developed as lead compounds than uscharin to treat autoimmune diseases mediated by Th17 and/or Th1 cells.
RORγt 是 IL-17 细胞因子表达和 Th17 淋巴细胞分化的主要转录因子,负责诱导许多自身免疫性疾病。最近,RORγt 已成为开发治疗这些类型疾病药物的有吸引力的靶点,并且 RORγt 拮抗剂研究领域现在竞争非常激烈。在我们目前的研究中,应用分子对接表明,卡烯内酯,包括从萝芙木属植物中提取的乌沙里定、卡拉汀和卡萝丁,可能直接与 RORγt 结合。因此,进一步通过荧光素酶报告基因检测验证了抑制作用。因为 RORγt 是 Th17 分化的关键转录因子,所以通过流式细胞术研究了这些化合物对 Th17 分化的影响。结果表明,乌沙里定、卡拉汀和卡萝丁在 100 至 500 nM 浓度下抑制 Th17 分化。此外,乌沙里定在减少 Th17 极化方面的效果优于地高辛,地高辛是 RORγt 的一种已知反向激动剂。此外,还研究了卡烯内酯对其他 Th 谱系,包括 Th1、Th2 和 Treg 分化的影响。乌沙里定抑制 Th1、Th2 和 Treg 细胞分化,而卡拉汀抑制 Th1 细胞分化,而卡萝丁不影响其他 T 细胞亚群,表明卡拉汀抑制 Th1 和 Th17 分化,而卡萝丁选择性抑制 Th17 极化。对这三种化合物的结构分析表明,乌沙里定、卡拉汀和卡萝丁对不同 T 细胞亚群的抑制作用的选择性与它们化学结构的微小差异有关。总之,卡拉汀和卡萝丁比乌沙里定更有潜力成为治疗由 Th17 和/或 Th1 细胞介导的自身免疫性疾病的先导化合物。
