菁
缺氧(环境)
体内
背景(考古学)
生物物理学
化学
纳米技术
材料科学
氧气
生物
物理
光学
古生物学
生物技术
有机化学
荧光
作者
Yutao Zhang,Chenxu Yan,Qiaoqiao Zheng,Qian Jia,Zhongliang Wang,Ping Shi,Zhiqian Guo
标识
DOI:10.1002/anie.202017349
摘要
Photocaging holds promise for the precise manipulation of biological events in space and time. However, current near-infrared (NIR) photocages are oxygen-dependent for their photolysis and lack of timely feedback regulation, which has proven to be the major bottleneck for targeted therapy. Herein, we present a hypoxia-dependent photo-activation mechanism of dialkylamine-substituted cyanine (Cy-NH) accompanied by emissive fragments generation, which was validated with retrosynthesis and spectral analysis. For the first time, we have realized the orthogonal manipulation of this hypoxia-dependent photocaging and dual-modal optical signals in living cells and tumor-bearing mice, making a breakthrough in the direct spatiotemporal control and in vivo feedback regulation. This unique photoactivation mechanism overcomes the limitation of hypoxia, which allows site-specific remote control for targeted therapy, and expands the photo-trigger toolbox for on-demand drug release, especially in a physiological context with dual-mode optical imaging under hypoxia.
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