GPX4
癌症研究
赫拉
活性氧
体内
生物物理学
细胞生物学
二硒醚
DNA损伤
体外
聚乙二醇
谷胱甘肽
材料科学
癌细胞
细胞生长
化学
磁共振成像
癌症
肿瘤微环境
细胞
细胞培养
辐射敏感性
放射治疗
谷胱甘肽过氧化物酶
光热治疗
纳米技术
程序性细胞死亡
生物化学
缺氧(环境)
二氢月桂酸脱氢酶
细胞质
作者
Wei Huang,Guangling Zheng,Banghui Mo,Guoqing Jing,Mingquan Gao,Jinrui Zhao,Han Liu,Shenglin Luo,Songtao Yu
摘要
Introduction: Radiation resistance poses a significant challenge in clinical cancer therapy. Ferroptosis, an iron-dependent form of cell death, plays an important role in the efficacy of radiotherapy. However, cancer cells often activate defense systems to survive this process. Moreover, interventions targeting only a single defense pathway often yield limited effects. Methods: To overcome radioresistance, we have developed a reactive oxygen species (ROS)-responsive nanosystem named PRBP. This system employs a siderophore-based framework PCN(Fe) as the core, loaded with two specific drugs: RAS-selective lethal compound 3 (RSL3) to block the glutathione peroxidase 4 (GPX4) pathway, and brequinar (BQR) to inhibit the dihydroorotate dehydrogenase (DHODH) pathway. The surface is coated with a diselenide bond-linked polyethylene glycol (PEG-Se-Se-PEG) layer that dissociates in a ROS-rich environment. Upon X-ray irradiation, the system rapidly degrades and releases the drugs, while iron ions trigger the Fenton reaction. RSL3 and BQR synergistically suppress the ferroptosis defense system, inducing a potent "ferroptosis storm." Through in vitro and in vivo experiments, we systematically evaluated the physical properties, magnetic resonance imaging (MRI) capability, and therapeutic efficacy of this platform. Results: to catalyze the Fenton reaction, leading to DNA damage and glutathione (GSH) depletion. Meanwhile, RSL3 and BQR inhibit the GPX4 and DHODH pathways, respectively, blocking multiple ferroptosis defense targets and thereby inducing robust ferroptosis. PRBP demonstrates favorable T1-weighted magnetic resonance imaging performance, significantly inhibits tumor cell proliferation in vitro, effectively suppresses 4T1 tumor growth in vivo, and exhibits good biosafety. Conclusion: PRBP induces ferroptosis through multiple targets, providing a potent strategy to overcome radiotherapy resistance.
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