菁
光动力疗法
光敏剂
化学
光化学
荧光
吲哚青绿
光毒性
单线态氧
体内
活性氧
生物相容性
生物物理学
吸收(声学)
背景(考古学)
阳离子聚合
取代基
癌细胞
材料科学
作者
Van Nghia Nguyen,Huixian Liang,Hyunsun Jeong,Jieun Bang,Chang Woo Koh,K. C. Kumara Swamy,S.C. Park,JaeHong Park,Fabiao Yu,Juyoung Yoon
标识
DOI:10.1002/adhm.202505692
摘要
Recent advancements in photodynamic therapy (PDT) have highlighted its potential as a non-invasive cancer treatment. However, to fully realize the clinical potential of PDT, the development of innovative photosensitizers is essential. In this study, efficient heavy-atom-free PSs (IR820-1-3) activated by 808 nm light irradiation were developed by incorporating electron-rich/sterically bulky groups at the meso-position of the IR820 scaffold, a novel indocyanine green derivative. Notably, experimental results and transient absorption spectroscopic studies indicated that substituent bulkiness plays a key role in promoting reactive oxygen species (ROS) generation. IR820-3 PS, with a highly twisted molecular structure, demonstrated superior ROS production via both type I and type II photochemical pathways. The self-assembled nanostructure of IR820-3 underwent partial disassembly upon interaction with albumin, resulting in enhanced fluorescence intensity and photodynamic efficiency. Interestingly, the cationic cyanine backbone facilitated the mitochondria-specific localization of IR820-3, which further contributed to IR820-3's effective PDT performance against cancer cells. Importantly, in vivo findings indicated that the IR820-3 exhibited excellent tumor-targeting ability and induced efficient tumor photoablation under 808 nm NIR irradiation. This study provides insights into the molecular design of a facile, "one-for-all" NIR photosensitizer based on a heptamethine cyanine platform, highlighting its potential for preclinical and clinical applications.
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