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Deficiency of metabolic regulator PKM2 activates the pentose phosphate pathway and generates TCF1 progenitor CD8 T cells to improve immunotherapy.代谢调节因子 PKM2 的缺乏会激活磷酸戊糖途径,并产生 TCF1 祖细胞 CD8+T 细胞,从而改善免疫治疗。
Nat Immunol. 2024 Oct;25(10):1884-1899. doi: 10.1038/s41590-024-01963-1. Epub 2024 Sep 26.
2
Multimodal stimulation screens reveal unique and shared genes limiting T cell fitness.多模态刺激筛选揭示了限制 T 细胞适应性的独特和共享基因。
Cancer Cell. 2024 Apr 8;42(4):623-645.e10. doi: 10.1016/j.ccell.2024.02.016. Epub 2024 Mar 14.
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Epigenetic regulation of the nuclear genome associated with mitochondrial dysfunction in Leber's hereditary optic neuropathy (LHON).与Leber遗传性视神经病变(LHON)中线粒体功能障碍相关的核基因组表观遗传调控。
Hum Genome Var. 2024 Jan 25;11(1):6. doi: 10.1038/s41439-023-00258-5.
4
CD8+ T cell metabolic flexibility elicited by CD28-ARS2 axis-driven alternative splicing of PKM supports antitumor immunity.CD28-ARS2 轴驱动的 PKM 选择性剪接激活的 CD8+ T 细胞代谢灵活性支持抗肿瘤免疫。
Cell Mol Immunol. 2024 Mar;21(3):260-274. doi: 10.1038/s41423-024-01124-2. Epub 2024 Jan 18.
5
Mitochondria-ER contact mediated by MFN2-SERCA2 interaction supports CD8 T cell metabolic fitness and function in tumors.MFN2-SERCA2 相互作用介导的线粒体-内质网接触支持肿瘤中 CD8 T 细胞的代谢适应性和功能。
Sci Immunol. 2023 Sep 29;8(87):eabq2424. doi: 10.1126/sciimmunol.abq2424. Epub 2023 Sep 22.
6
Membrane-localized neoantigens predict the efficacy of cancer immunotherapy.膜定位的新抗原预测癌症免疫疗法的疗效。
Cell Rep Med. 2023 Aug 15;4(8):101145. doi: 10.1016/j.xcrm.2023.101145. Epub 2023 Aug 7.
7
Cytosolic and mitochondrial translation elongation are coordinated through the molecular chaperone TRAP1 for the synthesis and import of mitochondrial proteins.细胞质和线粒体的翻译延伸通过分子伴侣 TRAP1 进行协调,以合成和导入线粒体蛋白。
Genome Res. 2023 Aug;33(8):1242-1257. doi: 10.1101/gr.277755.123. Epub 2023 Jul 24.
8
Linoleic acid potentiates CD8 T cell metabolic fitness and antitumor immunity.亚油酸增强 CD8 T 细胞代谢适应性和抗肿瘤免疫。
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An Overview: The Diversified Role of Mitochondria in Cancer Metabolism.概述:线粒体在癌症代谢中的多样化作用。
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Optimal CD8 T cell effector function requires costimulation-induced RNA-binding proteins that reprogram the transcript isoform landscape.最佳的 CD8 T 细胞效应功能需要共刺激诱导的 RNA 结合蛋白,这些蛋白可重新编程转录本异构体景观。
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丙酮酸激酶M2激活可重编程CD8 T细胞中的线粒体,增强效应功能及抗PD1治疗的疗效。

Pyruvate kinase M2 activation reprograms mitochondria in CD8 T cells, enhancing effector functions and efficacy of anti-PD1 therapy.

作者信息

Mortazavi Farsani Seyedeh Sahar, Soni Jignesh, Jin Lu, Yadav Anil Kumar, Bansal Shivani, Mi Tian, Hilakivi-Clarke Leena, Clarke Robert, Youngblood Benjamin, Cheema Amrita, Verma Vivek

机构信息

The Hormel Institute, University of Minnesota, Austin, MN 55912, USA.

Department of Oncology, Georgetown Lombardi Comprehensive Cancer Center, Georgetown University, Washington, DC 20057, USA.

出版信息

Cell Metab. 2025 Jun 3;37(6):1294-1310.e7. doi: 10.1016/j.cmet.2025.03.003. Epub 2025 Apr 7.

DOI:10.1016/j.cmet.2025.03.003
PMID:40199327
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12137016/
Abstract

Mitochondria regulate T cell functions and response to immunotherapy. We show that pyruvate kinase M2 (PKM2) activation enhances mitochondria-dependent effector functions in CD8 and chimeric antigen receptor (CAR)-T cells. Multi-omics and C-glucose tracer studies showed that PKM2 agonism alters one-carbon metabolism, decreasing methionine levels, resulting in hypomethylated nuclear and mitochondrial DNA and enhancing mitochondrial biogenesis and functions. PKM2 activation increased the recall responses and anti-tumor functions of CD8 T cells, enhancing adoptive cell therapy. In preclinical models, the PKM2 agonist induced CD8 T cell-dependent anti-tumor responses that synergized with anti-programmed death 1 (PD1) therapy. Immunologically, PKM2 agonists boosted the activation of effector T cells while reducing FoxP3 T regulatory (Treg) cells in the tumors. The anti-PD1 combination enhanced the frequency of tumor-specific activated CD8 T cells. Together, PKM2 agonism increased mitochondrial functions supporting cell cytotoxicity. Hence, pharmacological targeting of PKM2 can be a clinically viable strategy for enhancement of adoptive cell therapy, in situ anti-tumor immune responses, and immune checkpoint blockade therapy. VIDEO ABSTRACT.

摘要

线粒体调节T细胞功能及对免疫疗法的反应。我们发现丙酮酸激酶M2(PKM2)激活可增强CD8和嵌合抗原受体(CAR)-T细胞中线粒体依赖性效应功能。多组学和C-葡萄糖示踪研究表明,PKM2激动作用改变一碳代谢,降低蛋氨酸水平,导致核DNA和线粒体DNA低甲基化,并增强线粒体生物发生和功能。PKM2激活增加了CD8 T细胞的回忆反应和抗肿瘤功能,增强了过继性细胞疗法。在临床前模型中,PKM2激动剂诱导了与抗程序性死亡1(PD1)疗法协同的CD8 T细胞依赖性抗肿瘤反应。在免疫学上,PKM2激动剂增强效应T细胞的激活,同时减少肿瘤中的FoxP3调节性T(Treg)细胞。抗PD1联合疗法增加了肿瘤特异性活化CD8 T细胞的频率。总之,PKM2激动作用增强了支持细胞毒性的线粒体功能。因此,PKM2的药理学靶向可能是增强过继性细胞疗法、原位抗肿瘤免疫反应和免疫检查点阻断疗法的一种临床可行策略。视频摘要。