过氧化氢
肿瘤微环境
活性氧
芬顿反应
羟基自由基
激进的
氧化应激
化学
纳米材料
催化作用
癌症治疗
癌症治疗
组合化学
纳米技术
癌症
生物物理学
癌症研究
生物化学
材料科学
肿瘤细胞
生物
遗传学
作者
Wenting Chen,Jinxi Liu,Caiyun Zheng,Que Bai,Qian Gao,Yanni Zhang,Kai Dong,Tingli Lu
摘要
In recent years, chemodynamic therapy (CDT) has received extensive attention as a novel means of cancer treatment. The CDT agents can exert Fenton and Fenton-like reactions in the acidic tumor microenvironment (TME), converting hydrogen peroxide (H2O2) into highly toxic hydroxyl radicals (·OH). However, the pH of TME, as an essential factor in the Fenton reaction, does not catalyze the reaction effectively, hindering its efficiency, which poses a significant challenge for the future clinical application of CDT. Therefore, this paper reviews various strategies to enhance the antitumor properties of nanomaterials by modulating tumor acidity. Ultimately, the performance of CDT can be further improved by inducing strong oxidative stress to produce sufficient ·OH. In this paper, the various acidification pathways and proton pumps with potential acidification functions are mainly discussed, such as catalytic enzymes, exogenous acids, CAIX, MCT, NHE, NBCn1, etc. The problems, opportunities, and challenges of CDT in the cancer field are also discussed, thereby providing new insights for the design of nanomaterials and laying the foundation for their future clinical applications.
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