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Acevaltrate as a novel ferroptosis inducer with dual targets of PCBP1/2 and GPX4 in colorectal cancer

Dianping Yu, Hongmei Hu, Qing Zhang, Chengji Wang, Mengting Xu, Hanchen Xu, Xiangxin Geng, Minchen Cai, Hongwei Zhang, Mengmeng Guo, D Lu, Hanchi Xu, Linyang Li, Xing Zhang, Ruling Shen, Lin Sheng, Qun Wang, Weidong Zhang, Sanhong Liu

2025Signal Transduction and Targeted Therapy30 citationsDOIOpen Access PDF

Abstract

Abstract Ferroptosis induced by ferrous ions (Fe 2+ ) and lipid peroxidation accumulation is a novel form of regulated cell death that has become a hot topic in tumor therapy research. Identifying small-molecule drugs that can induce ferroptosis in tumor cells is a very attractive therapeutic strategy. Here, we screened a natural product, acevaltrate (ACE), which rapidly and strongly induces ferroptosis in colorectal cancer cells. ACE not only increases Fe 2+ levels in colorectal cancer cells by targeting iron chaperones PCBP1/2 and reducing their expression but also disrupts the antioxidant system of colorectal cancer cells by targeting GPX4 and inhibiting its enzymatic activity, leading to its ubiquitin-mediated degradation. This dual effect of ACE makes it significantly more effective than classical ferroptosis inducers in inducing ferroptosis. Our animal experiments revealed that the therapeutic effect of ACE surpasses that of established ferroptosis-inducing drugs and is superior to that of first-line clinical drugs such as capecitabine and TAS-102. Importantly, ACE also demonstrated superior inhibitory effects in colorectal tumor organoids versus at the cellular level, underscoring its potential for clinical application. This study pioneers the discovery of a small molecule inhibitor that targets both PCBP1/2 and GPX4, offering a novel therapeutic strategy for eliminating cancer cells through ferroptosis.

Topics & Concepts

GPX4Colorectal cancerCancer researchInducerChemistryCancer cellProgrammed cell deathCell cultureLipid peroxidationCancerBiologyMedicineOxidative stressBiochemistryEnzymeApoptosisGeneInternal medicineGlutathioneGlutathione peroxidaseGeneticsFerroptosis and cancer prognosisCancer, Lipids, and MetabolismRNA modifications and cancer