Near-infrared light irradiation induced mild hyperthermia enhances glutathione depletion and DNA interstrand cross-link formation for efficient chemotherapy

Jimei Zhang, Baochang Zhao, Shizhu Chen, Yongchao Wang, Yuxuan Zhang, Yufei Wang, Dengshuai Wei, Lingpu Zhang, Guanghua Rong, Yuhua Weng, Jifu Hao, Binglong Li, Xue Qin Hou, Xiaoxu Kang, Yao Zhao, Fuyi Wang, Yongxiang Zhao, Yingjie Yu*, Qin Pei Wu*, Xing Jie Liang*Haihua Xiao*

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

83 引用 (Scopus)

摘要

DNA alkylating agents generally kill tumor cells by covalently binding with DNA to form interstrand or intrastrand cross-links. However, in the case of cisplatin, only a few DNA adducts (<1%) are highly toxic irreparable interstrand cross-links. Furthermore, cisplatin is rapidly detoxified by high levels of intracellular thiols such as glutathione (GSH). Since the discovery of its mechanism of action, people have been looking for ways to directly and efficiently remove intracellular GSH and increase interstrand cross-links to improve drug efficacy and overcome resistance, but there has been little breakthrough. Herein, we hypothesized that the anticancer efficiency of cisplatin can be enhanced through iodo-thiol click chemistry mediated GSH depletion and increased formation of DNA interstrand cross-links via mild hyperthermia triggered by near-infrared (NIR) light. This was achieved by preparing an amphiphilic polymer with platinum(IV) (Pt(IV)) prodrugs and pendant iodine atoms (iodides). The polymer was further used to encapsulate IR780 and assembled into Pt-I-IR780 nanoparticles. Induction of mild hyperthermia (43 °C) at the tumor site by NIR light irradiation had three effects: (1) it accelerated the GSH-mediated reduction of Pt(IV) in the polymer main chain to platinum(II) (Pt(II)); (2) it boosted the iodo-thiol substitution click reaction between GSH and iodide, thereby attenuating the GSH-mediated detoxification of cisplatin; (3) it increased the proportion of highly toxic and irreparable Pt-DNA interstrand cross-links. Therefore, we find that mild hyperthermia induced via NIR irradiation can enhance the killing of cancer cells and reduce the tumor burden, thus delivering efficient chemotherapy.

源语言英语
页(从-至)14831-14845
页数15
期刊ACS Nano
14
11
DOI
出版状态已出版 - 24 11月 2020

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