Hypoxia-induced RCOR2 promotes macrophage M2 polarization and CD8⁺ T-cell exhaustion by enhancing LIF transcription in hepatocellular carcinoma.

IF 10.6 1区医学 Q1 IMMUNOLOGY

Journal for Immunotherapy of Cancer Pub Date : 2025-10-05 DOI:10.1136/jitc-2025-012314

Wenbo Jia, Jinyi Wang, Weiming Yang, Zhijie Ding, Litao Liang, Chao Xu, Yanzhi Feng, Qingpeng Lv, Deming Zhu, Wenhu Zhao, Xiangyu Ling, Yong Yan, Xiaoming Ai, Yongping Zhou, Lianbao Kong, Wenzhou Ding

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引用次数: 0

Abstract

Background: The hypoxic microenvironment plays a crucial role in regulating the progression of hepatocellular carcinoma (HCC) and facilitating immune evasion. It is essential to gain a more comprehensive understanding of the pathways through which hypoxia influences HCC progression and immune evasion.

Methods: We employed RNA sequencing, The Cancer Genome Atlas (TCGA) data analysis, clinical data analysis of HCC, and tissue microarray immunohistochemical analysis to identify key genes associated with hypoxia regulation and immune evasion. We investigated the biological functions of REST corepressor 2 (RCOR2) in tumor progression and immune evasion through mass cytometry, multiplex immunofluorescence, an orthotopic liver transplantation tumor model, in vitro co-culture systems, flow cytometry, and immunohistochemical analysis. Additionally, we used molecular techniques such as RNA sequencing, chromatin immunoprecipitation sequencing, and mass spectrometry to gain deeper insights into the potential molecular mechanisms underlying RCOR2.

Results: We found that the hypoxia-related factor RCOR2 is upregulated in HCC and is associated with a poor prognosis. RCOR2 enhances the glycolytic process in HCC cells, thereby promoting the proliferation and metastasis of HCC cells under hypoxic conditions. Additionally, RCOR2 facilitates the M2 polarization of macrophages and contributes to the exhaustion of CD8⁺ T cells. Mechanistically, the hypoxic microenvironment increases the expression of RCOR2 through hypoxia-inducible factor 1-alpha. Concurrently, this microenvironment inhibits the ubiquitin-mediated degradation of RCOR2 by promoting its sumoylation, which facilitates its translocation to the nucleus. The sumoylation of RCOR2 further enhances the transcriptional activity of leukemia inhibitory factor (LIF). LIF, derived from HCC, contributes to the M2 polarization of macrophages, thereby facilitating immune evasion and playing a role in resistance to programmed cell death protein 1 (PD-1) therapies.

Conclusions: Our research reveals that the RCOR2/LIF axis within the hypoxic microenvironment of HCC plays a significant role in immune evasion and identifies novel biomarkers associated with tumor resistance to anti-PD-1 therapy. This study provides potential therapeutic targets for HCC.

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缺氧诱导的RCOR2通过增强肝癌中LIF转录促进巨噬细胞M2极化和CD8+ t细胞耗竭。

背景：低氧微环境在调节肝细胞癌（HCC）的进展和促进免疫逃避中起着至关重要的作用。因此，有必要更全面地了解缺氧影响HCC进展和免疫逃避的途径。方法：采用RNA测序、癌症基因组图谱（TCGA）数据分析、HCC临床数据分析和组织芯片免疫组化分析等方法，鉴定与缺氧调节和免疫逃避相关的关键基因。我们通过大量细胞术、多重免疫荧光、原位肝移植肿瘤模型、体外共培养系统、流式细胞术和免疫组织化学分析来研究REST协同抑制因子2 （RCOR2）在肿瘤进展和免疫逃避中的生物学功能。此外，我们使用RNA测序、染色质免疫沉淀测序和质谱等分子技术来深入了解RCOR2潜在的分子机制。结果：我们发现缺氧相关因子RCOR2在HCC中表达上调，并与预后不良相关。RCOR2增强HCC细胞的糖酵解过程，从而促进缺氧条件下HCC细胞的增殖和转移。此外，RCOR2促进巨噬细胞的M2极化，并有助于CD8+ T细胞的衰竭。在机制上，缺氧微环境通过缺氧诱导因子1- α增加RCOR2的表达。同时，这种微环境通过促进RCOR2的sumoylation抑制了泛素介导的RCOR2降解，从而促进了RCOR2易位到细胞核。RCOR2的sumoylation进一步增强了白血病抑制因子（leukemia inhibitory factor， LIF）的转录活性。来自HCC的LIF有助于巨噬细胞的M2极化，从而促进免疫逃避，并在抵抗程序性细胞死亡蛋白1 （PD-1）治疗中发挥作用。结论：我们的研究表明，HCC缺氧微环境中的RCOR2/LIF轴在免疫逃避中发挥重要作用，并鉴定出与肿瘤抗pd -1治疗耐药相关的新生物标志物。该研究为HCC提供了潜在的治疗靶点。

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

Journal for Immunotherapy of Cancer Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

17.70

自引率

4.60%

发文量

522

审稿时长

18 weeks

期刊介绍： The Journal for ImmunoTherapy of Cancer (JITC) is a peer-reviewed publication that promotes scientific exchange and deepens knowledge in the constantly evolving fields of tumor immunology and cancer immunotherapy. With an open access format, JITC encourages widespread access to its findings. The journal covers a wide range of topics, spanning from basic science to translational and clinical research. Key areas of interest include tumor-host interactions, the intricate tumor microenvironment, animal models, the identification of predictive and prognostic immune biomarkers, groundbreaking pharmaceutical and cellular therapies, innovative vaccines, combination immune-based treatments, and the study of immune-related toxicity.