百里香醌
调解人
光敏剂
电子转移
化学
类型(生物学)
纳米技术
光化学
材料科学
生物
细胞生物学
生物化学
生态学
抗氧化剂
作者
Jiahao Zhuang,Guobin Qi,Yecheng Feng,Min Wu,Hang Zhang,Dandan Wang,Xianhe Zhang,Kok Chan Chong,Bowen Li,Shitai Liu,Jianwu Tian,Yi Shan,Duo Mao,Bin Liu
标识
DOI:10.1038/s41467-024-49311-z
摘要
Abstract The development of Type I photosensitizers (PSs) is of great importance due to the inherent hypoxic intolerance of photodynamic therapy (PDT) in the hypoxic microenvironment. Compared to Type II PSs, Type I PSs are less reported due to the absence of a general molecular design strategy. Herein, we report that the combination of typical Type II PS and natural substrate carvacrol (CA) can significantly facilitate the Type I pathway to efficiently generate superoxide radical (O 2 –• ). Detailed mechanism study suggests that CA is activated into thymoquinone (TQ) by local singlet oxygen generated from the PS upon light irradiation. With TQ as an efficient electron transfer mediator, it promotes the conversion of O 2 to O 2 –• by PS via electron transfer-based Type I pathway. Notably, three classical Type II PSs are employed to demonstrate the universality of the proposed approach. The Type I PDT against S. aureus has been demonstrated under hypoxic conditions in vitro. Furthermore, this coupled photodynamic agent exhibits significant bactericidal activity with an antibacterial rate of 99.6% for the bacterial-infection female mice in the in vivo experiments. Here, we show a simple, effective, and universal method to endow traditional Type II PSs with hypoxic tolerance.
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