Hongyi Lin , Shuncang Zhu , Yinhao Chen , Jinpeng Lu , Chengke Xie , Chengyu Liao , Xiaoxiao Huang , Ge Li , Yongding Wu , Zhiyuan Li , Jianfei Hu , Xinquan Lin , Yifeng Tian , Qiaowei Li , Zuwei Wang , Shi Chen
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C11-BODIPY staining, FerroOrange staining, the glutathione ratio, malondialdehyde quantification, and transmission electron microscopy were employed to assess ferroptosis. RNA pulldown, mass spectrometry, RNA immunoprecipitation, and coimmunoprecipitation assays were conducted to investigate the molecular mechanisms involved. A HuNSG mouse xenograft tumour model was utilized to validate therapeutic agents.</div></div><div><h3>Results</h3><div>A circRNA derived from TRIP12 (cTRIP12) was identified in PDAC samples resistant to ferroptosis. cTRIP12 knockdown increased the sensitivity of PDAC cells to ferroptosis and immunotherapy. Subsequent mechanistic studies revealed that cTRIP12 specifically binds to the O-linked N-acetylglucosamine transferase (OGT) protein and increases intracellular O-GlcNAcylation levels, leading to increased protein levels of ferritin heavy chain (FTH) and PD-L1 in tumour cells. Notably, high cTRIP12 expression suppressed ferroptosis sensitivity and increased immune resistance in PDAC cells by functioning as a protein scaffold through its interaction with OGT and protein kinase R-like endoplasmic reticulum kinase (PERK). cTRIP12 inhibition induced ferroptosis in PDAC cells by reducing FTH and PD-L1 expression and synergistically increased the immunotherapy efficacy. In vivo animal experiments confirmed that the triple therapy consisting of GSK2656157, erastin, and anti-CTLA-4 effectively suppressed the progression of PDAC in tumours with high cTRIP12 expression.</div></div><div><h3>Conclusion</h3><div>We elucidated the molecular mechanisms underlying the simultaneous occurrence of ferroptosis resistance and immune suppression in PDAC patients. Our study provides a novel therapeutic strategy that could promote ferroptosis in tumour cells and increase immunotherapy efficacy.</div></div>","PeriodicalId":51022,"journal":{"name":"Drug Resistance Updates","volume":"81 ","pages":"Article 101240"},"PeriodicalIF":21.7000,"publicationDate":"2025-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Targeting cTRIP12 counteracts ferroptosis resistance and augments sensitivity to immunotherapy in pancreatic cancer\",\"authors\":\"Hongyi Lin , Shuncang Zhu , Yinhao Chen , Jinpeng Lu , Chengke Xie , Chengyu Liao , Xiaoxiao Huang , Ge Li , Yongding Wu , Zhiyuan Li , Jianfei Hu , Xinquan Lin , Yifeng Tian , Qiaowei Li , Zuwei Wang , Shi Chen\",\"doi\":\"10.1016/j.drup.2025.101240\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Aims</h3><div>Current therapeutic strategies for pancreatic ductal adenocarcinoma (PDAC) have limited efficacy in increasing patient survival rates, largely due to ferroptosis resistance and immunosuppression. The aim of this study is to identify molecular mechanisms associated with ferroptosis resistance and immunosuppression in PDAC tumour cells.</div></div><div><h3>Methods</h3><div>Circular RNA sequencing (circRNA-seq) was performed on clinical samples to identify potential circRNAs that mediate ferroptosis resistance. C11-BODIPY staining, FerroOrange staining, the glutathione ratio, malondialdehyde quantification, and transmission electron microscopy were employed to assess ferroptosis. RNA pulldown, mass spectrometry, RNA immunoprecipitation, and coimmunoprecipitation assays were conducted to investigate the molecular mechanisms involved. A HuNSG mouse xenograft tumour model was utilized to validate therapeutic agents.</div></div><div><h3>Results</h3><div>A circRNA derived from TRIP12 (cTRIP12) was identified in PDAC samples resistant to ferroptosis. cTRIP12 knockdown increased the sensitivity of PDAC cells to ferroptosis and immunotherapy. Subsequent mechanistic studies revealed that cTRIP12 specifically binds to the O-linked N-acetylglucosamine transferase (OGT) protein and increases intracellular O-GlcNAcylation levels, leading to increased protein levels of ferritin heavy chain (FTH) and PD-L1 in tumour cells. Notably, high cTRIP12 expression suppressed ferroptosis sensitivity and increased immune resistance in PDAC cells by functioning as a protein scaffold through its interaction with OGT and protein kinase R-like endoplasmic reticulum kinase (PERK). cTRIP12 inhibition induced ferroptosis in PDAC cells by reducing FTH and PD-L1 expression and synergistically increased the immunotherapy efficacy. 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引用次数: 0
摘要
目前胰腺导管腺癌(PDAC)的治疗策略在提高患者生存率方面效果有限,主要是由于铁下垂抵抗和免疫抑制。本研究的目的是确定与PDAC肿瘤细胞中铁下垂抵抗和免疫抑制相关的分子机制。方法对临床样本进行环状RNA测序(circRNA-seq),鉴定介导铁下垂耐药性的潜在环状RNA。采用C11-BODIPY染色、FerroOrange染色、谷胱甘肽比值、丙二醛定量和透射电镜评估铁下垂。采用RNA拉下法、质谱法、RNA免疫沉淀法和共免疫沉淀法来研究相关的分子机制。利用HuNSG小鼠异种移植瘤模型验证治疗剂的有效性。结果在耐铁下垂的PDAC样品中鉴定出了来自TRIP12的环状rna (cTRIP12)。cTRIP12敲低增加PDAC细胞对铁下垂和免疫治疗的敏感性。随后的机制研究表明,cTRIP12特异性结合O-linked n -乙酰氨基葡萄糖转移酶(OGT)蛋白,增加细胞内o - glcnac酰化水平,导致肿瘤细胞中铁蛋白重链(FTH)和PD-L1蛋白水平升高。值得注意的是,cTRIP12的高表达通过与OGT和蛋白激酶r样内质网激酶(PERK)相互作用作为蛋白支架,抑制了PDAC细胞的铁下垂敏感性和增加免疫抵抗。cTRIP12抑制通过降低FTH和PD-L1表达诱导PDAC细胞铁下垂,协同提高免疫治疗效果。体内动物实验证实,GSK2656157、erastin和anti-CTLA-4三联疗法可有效抑制cTRIP12高表达肿瘤中PDAC的进展。结论揭示了PDAC患者同时出现铁下垂耐药和免疫抑制的分子机制。我们的研究提供了一种新的治疗策略,可以促进肿瘤细胞铁下垂,提高免疫治疗效果。
Targeting cTRIP12 counteracts ferroptosis resistance and augments sensitivity to immunotherapy in pancreatic cancer
Aims
Current therapeutic strategies for pancreatic ductal adenocarcinoma (PDAC) have limited efficacy in increasing patient survival rates, largely due to ferroptosis resistance and immunosuppression. The aim of this study is to identify molecular mechanisms associated with ferroptosis resistance and immunosuppression in PDAC tumour cells.
Methods
Circular RNA sequencing (circRNA-seq) was performed on clinical samples to identify potential circRNAs that mediate ferroptosis resistance. C11-BODIPY staining, FerroOrange staining, the glutathione ratio, malondialdehyde quantification, and transmission electron microscopy were employed to assess ferroptosis. RNA pulldown, mass spectrometry, RNA immunoprecipitation, and coimmunoprecipitation assays were conducted to investigate the molecular mechanisms involved. A HuNSG mouse xenograft tumour model was utilized to validate therapeutic agents.
Results
A circRNA derived from TRIP12 (cTRIP12) was identified in PDAC samples resistant to ferroptosis. cTRIP12 knockdown increased the sensitivity of PDAC cells to ferroptosis and immunotherapy. Subsequent mechanistic studies revealed that cTRIP12 specifically binds to the O-linked N-acetylglucosamine transferase (OGT) protein and increases intracellular O-GlcNAcylation levels, leading to increased protein levels of ferritin heavy chain (FTH) and PD-L1 in tumour cells. Notably, high cTRIP12 expression suppressed ferroptosis sensitivity and increased immune resistance in PDAC cells by functioning as a protein scaffold through its interaction with OGT and protein kinase R-like endoplasmic reticulum kinase (PERK). cTRIP12 inhibition induced ferroptosis in PDAC cells by reducing FTH and PD-L1 expression and synergistically increased the immunotherapy efficacy. In vivo animal experiments confirmed that the triple therapy consisting of GSK2656157, erastin, and anti-CTLA-4 effectively suppressed the progression of PDAC in tumours with high cTRIP12 expression.
Conclusion
We elucidated the molecular mechanisms underlying the simultaneous occurrence of ferroptosis resistance and immune suppression in PDAC patients. Our study provides a novel therapeutic strategy that could promote ferroptosis in tumour cells and increase immunotherapy efficacy.
期刊介绍:
Drug Resistance Updates serves as a platform for publishing original research, commentary, and expert reviews on significant advancements in drug resistance related to infectious diseases and cancer. It encompasses diverse disciplines such as molecular biology, biochemistry, cell biology, pharmacology, microbiology, preclinical therapeutics, oncology, and clinical medicine. The journal addresses both basic research and clinical aspects of drug resistance, providing insights into novel drugs and strategies to overcome resistance. Original research articles are welcomed, and review articles are authored by leaders in the field by invitation.
Articles are written by leaders in the field, in response to an invitation from the Editors, and are peer-reviewed prior to publication. Articles are clear, readable, and up-to-date, suitable for a multidisciplinary readership and include schematic diagrams and other illustrations conveying the major points of the article. The goal is to highlight recent areas of growth and put them in perspective.
*Expert reviews in clinical and basic drug resistance research in oncology and infectious disease
*Describes emerging technologies and therapies, particularly those that overcome drug resistance
*Emphasises common themes in microbial and cancer research
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