Zuochen Du, Jinzhi Wang, Qian Liu, Di Yang, Xiaoyu Sun, Lu Huang, Pei Huang, Xingye Tang, Heather Miller, Lisa Westerberg, Yoshimura Akihiko, Lu Yang, Xingrong Du, Chaohong Liu
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引用次数: 0
摘要
细胞代谢是调控调节性T细胞(Tregs)分化和功能的关键。然而,协调细胞代谢调节Treg活性的潜在机制尚不完全清楚。作为脂质代谢的关键分子,SHIP-1在Tregs中的作用尚不清楚。在这项研究中,我们发现SHIP-1 Treg KO小鼠(在调节性T细胞中特异性删除SHIP-1)具有严重的自身免疫,胸腺中Treg增加,外周T细胞稳态被破坏。机制上,CD4Cre Ship-1flox/flox小鼠中Treg前体增加,SHIP-1 KO Treg迁移和稳定性降低,导致脾脏中Treg减少。此外,SHIP-1 KO小鼠的Tregs抑制功能减弱,同时促进抗肿瘤免疫。有趣的是,在SHIP-1 KO Tregs中,PI3K-mTORC1信号轴增强,而mTORC2信号轴没有增强。在体内用雷帕霉素处理SHIP-1 Treg KO小鼠,恢复了异常Treg百分比和外周T细胞稳态,并恢复了Treg抑制功能。此外,SHIP-1抑制剂对野生型小鼠的抗肿瘤活性增强。我们的研究强调了SHIP-1-PI3K-mTORC1轴调控Treg分化和功能,它是癌症治疗的潜在靶点。
SHIP-1 regulates the differentiation and function of Tregs via inhibiting mTORC1 activity.
Cell metabolism is crucial for orchestrating the differentiation and function of regulatory T cells (Tregs). However, the underlying mechanism that coordinates cell metabolism to regulate Treg activity is not completely understood. As a pivotal molecule in lipid metabolism, the role of SHIP-1 in Tregs remains unknown. In this study, we found SHIP-1 Treg KO mice (SHIP-1 specifically deleted in regulatory T cells) had severe autoimmunity with increased Tregs in the thymus and disrupted peripheral T cell homeostasis. Mechanistically, CD4Cre Ship-1flox/flox mice were found to have increased Treg precursors and SHIP-1 KO Tregs had reduced migration and stability, which caused decreased Tregs in the spleen. Additionally, the suppressive function of Tregs from SHIP-1 KO mice was diminished, along with their promotion of anti-tumor immunity. Interestingly, the PI3K-mTORC1, but not mTORC2, signaling axis was enhanced in SHIP-1 KO Tregs. In vivo treatment of SHIP-1 Treg KO mice with rapamycin rescued the abnormal Treg percentages and peripheral T cell homeostasis, as well as Treg suppressive function. Furthermore, the treatment of wild-type mice with SHIP-1 inhibitor enhanced anti-tumor activity. Our study highlights the SHIP-1-PI3K-mTORC1 axis that regulates Treg differentiation and function, and it is a potential target for cancer treatment.
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Journal Name: Cellular and Molecular Life Sciences (CMLS)
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