Targeting ONECUT3 blocks glycolytic metabolism and potentiates anti-PD-1 therapy in pancreatic cancer.

IF 4.9 2区医学 Q2 CELL BIOLOGY

Cellular Oncology Pub Date : 2024-02-01 Epub Date: 2023-08-22 DOI:10.1007/s13402-023-00852-3

Peng-Cheng Chen, Yong Ning, Hui Li, Jin-Gen Su, Jiang-Bo Shen, Qing-Chun Feng, Shu-Heng Jiang, Pei-Dong Shi, Run-Sheng Guo

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Abstract

Background: Reprogramming glucose metabolism, also known as the Warburg effect (aerobic glycolysis), is a hallmark of cancers. Increased tumor glycolysis not only favors rapid cancer cell proliferation but reprograms the immune microenvironment to enable tumor progression. The transcriptional factor ONECUT3 plays key roles in the development of the liver and pancreas, however, limited is known about its oncogenic roles, particularly metabolic reprogramming.

Methods: Immunohistochemistry and Western blotting are applied to determine the expression pattern of ONECUT3 and its clinical relevance in pancreatic ductal adenocarcinoma (PDAC). Knockdown and overexpression strategies are employed to determine the in vitro and in vivo functions of ONECUT3. Chromatin immunoprecipitation, luciferase reporter assay, and gene set enrichment analysis are used to decipher the molecular mechanisms.

Results: The glycolytic metabolism is inversely associated with T-cell infiltration in PDAC. ONECUT3 is identified as a key regulator for PDAC glycolysis and CD8⁺ T-cell infiltration. Genetic silencing of ONECUT3 inhibits cell proliferation, promotes cell apoptosis, and reduces glycolytic metabolism as evidenced by glucose uptake, lactate production, and extracellular acidification rate. Opposite effects of ONECUT3 are observed in overexpression studies. ONECUT3 enhances aerobic glycolysis via transcriptional regulation of PDK1. Targeting ONECUT3 effectively suppresses tumor growth, increases CD8⁺ T-cell infiltration, and potentiates anti-PD-1 therapy in PDAC. Pharmacological inhibition of PDK1 also shows a synergistic effect with anti-PD-1 therapy. In clinical setting, ONECUT3 is closely associated with PDK1 expression and T-cell infiltration in PDAC and acts as an independent prognostic factor.

Conclusions: Our study reveals a previous unprecedented regulatory role of ONECUT3 in PDAC glycolysis and provides in vivo evidence that increased glycolysis is linked to an immunosuppressive microenvironment. Moreover, targeting ONECUT3-PDK1 axis may serve as a promising therapeutic approach for the treatment of PDAC.

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靶向 ONECUT3 可阻断糖酵解代谢并增强胰腺癌的抗 PD-1 治疗。

背景：葡萄糖代谢重编程，也称为沃伯格效应（有氧糖酵解），是癌症的一个特征。肿瘤糖酵解的增加不仅有利于癌细胞的快速增殖，还能重编程免疫微环境，使肿瘤得以进展。转录因子ONECUT3在肝脏和胰腺的发育过程中发挥着关键作用，然而，人们对它的致癌作用，尤其是代谢重编程作用了解有限：方法：应用免疫组化和 Western 印迹技术确定 ONECUT3 的表达模式及其在胰腺导管腺癌（PDAC）中的临床意义。采用基因敲除和过表达策略确定 ONECUT3 的体外和体内功能。染色质免疫共沉淀、荧光素酶报告分析和基因组富集分析被用来破译其分子机制：结果：糖代谢与 PDAC 中的 T 细胞浸润成反比。结果：糖酵解代谢与 PDAC 的 T 细胞浸润成反比，ONECUT3 是 PDAC 糖酵解和 CD8+ T 细胞浸润的关键调节因子。基因沉默ONECUT3可抑制细胞增殖、促进细胞凋亡并降低糖酵解代谢，葡萄糖摄取、乳酸生成和细胞外酸化率都证明了这一点。在过表达研究中观察到 ONECUT3 的相反作用。ONECUT3 通过转录调控 PDK1 增强有氧糖酵解。靶向 ONECUT3 能有效抑制肿瘤生长，增加 CD8+ T 细胞浸润，并增强 PDAC 的抗 PD-1 治疗效果。药理抑制 PDK1 还能与抗 PD-1 疗法产生协同效应。在临床环境中，ONECUT3与PDAC中PDK1的表达和T细胞浸润密切相关，是一个独立的预后因素：我们的研究揭示了 ONECUT3 在 PDAC 糖酵解中前所未有的调控作用，并提供了糖酵解增加与免疫抑制微环境相关的体内证据。此外，靶向 ONECUT3-PDK1 轴可能是治疗 PDAC 的一种有前景的治疗方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cellular Oncology ONCOLOGY-CELL BIOLOGY

CiteScore

10.30

自引率

1.50%

发文量

审稿时长

12 months

期刊介绍： The Official Journal of the International Society for Cellular Oncology Focuses on translational research Addresses the conversion of cell biology to clinical applications Cellular Oncology publishes scientific contributions from various biomedical and clinical disciplines involved in basic and translational cancer research on the cell and tissue level, technical and bioinformatics developments in this area, and clinical applications. This includes a variety of fields like genome technology, micro-arrays and other high-throughput techniques, genomic instability, SNP, DNA methylation, signaling pathways, DNA organization, (sub)microscopic imaging, proteomics, bioinformatics, functional effects of genomics, drug design and development, molecular diagnostics and targeted cancer therapies, genotype-phenotype interactions. A major goal is to translate the latest developments in these fields from the research laboratory into routine patient management. To this end Cellular Oncology forms a platform of scientific information exchange between molecular biologists and geneticists, technical developers, pathologists, (medical) oncologists and other clinicians involved in the management of cancer patients. In vitro studies are preferentially supported by validations in tumor tissue with clinicopathological associations.