肿瘤利用FTO介导的糖酵解代谢调节来逃避免疫监视。

Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance.

作者信息

Liu Yi, Liang Guanghao, Xu Hongjiao, Dong Wenxin, Dong Ze, Qiu Zhiwei, Zhang Zihao, Li Fangle, Huang Yue, Li Yilin, Wu Jun, Yin Shenyi, Zhang Yawei, Guo Peijin, Liu Jun, Xi Jianzhong Jeff, Jiang Peng, Han Dali, Yang Cai-Guang, Xu Meng Michelle

机构信息

Department of Basic Medical Sciences, School of Medicine, Institute for Immunology, Beijing Key Lab for Immunological Research on Chronic Diseases, THU-PKU Center for Life Sciences, Tsinghua University, Beijing 100084, China.

Key Laboratory of Genomic and Precision Medicine, Beijing Institute of Genomics, Chinese Academy of Sciences, Beijing 100101, China; College of Future Technology, Sino-Danish College, University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

Cell Metab. 2021 Jun 1;33(6):1221-1233.e11. doi: 10.1016/j.cmet.2021.04.001. Epub 2021 Apr 27.

DOI:10.1016/j.cmet.2021.04.001

PMID:33910046

Abstract

The ever-increasing understanding of the complexity of factors and regulatory layers that contribute to immune evasion facilitates the development of immunotherapies. However, the diversity of malignant tumors limits many known mechanisms in specific genetic and epigenetic contexts, manifesting the need to discover general driver genes. Here, we have identified the mA demethylase FTO as an essential epitranscriptomic regulator utilized by tumors to escape immune surveillance through regulation of glycolytic metabolism. We show that FTO-mediated mA demethylation in tumor cells elevates the transcription factors c-Jun, JunB, and C/EBPβ, which allows the rewiring of glycolytic metabolism. Fto knockdown impairs the glycolytic activity of tumor cells, which restores the function of CD8 T cells, thereby inhibiting tumor growth. Furthermore, we developed a small-molecule compound, Dac51, that can inhibit the activity of FTO, block FTO-mediated immune evasion, and synergize with checkpoint blockade for better tumor control, suggesting reprogramming RNA epitranscriptome as a potential strategy for immunotherapy.

摘要

对导致免疫逃逸的因素和调控层面复杂性的日益深入理解推动了免疫疗法的发展。然而，恶性肿瘤的多样性在特定的基因和表观遗传背景下限制了许多已知机制，这表明需要发现通用的驱动基因。在这里，我们确定了mA去甲基化酶FTO是肿瘤利用的一种关键的表观转录组调节因子，通过调节糖酵解代谢来逃避免疫监视。我们表明，肿瘤细胞中FTO介导的mA去甲基化提高了转录因子c-Jun、JunB和C/EBPβ的水平，这使得糖酵解代谢得以重新布线。敲低Fto会损害肿瘤细胞的糖酵解活性，从而恢复CD8 T细胞的功能，进而抑制肿瘤生长。此外，我们开发了一种小分子化合物Dac51，它可以抑制FTO的活性，阻断FTO介导的免疫逃逸，并与检查点阻断协同作用以更好地控制肿瘤，这表明重新编程RNA表观转录组是一种潜在的免疫治疗策略。

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肿瘤利用FTO介导的糖酵解代谢调节来逃避免疫监视。

Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance.

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