A mitochondrial-targeted prodrug for NIR imaging guided and synergetic NIR photodynamic-chemo cancer therapy

Nontoxic prodrugs, especially activated by tumor microenvironment, are urgently required for reducing the side effects of cancer therapy. And combination of chemo-photodynamic therapy prodrugs show effectively synergetic therapeutic efficiency, however, this goal has not been achieved in a single mo...

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Bibliographic Details
Published in:Chemical science (Cambridge) 2017, Vol.8 (11), p.7689-7695
Main Authors: Liu, Hong-Wen, Hu, Xiao-Xiao, Li, Ke, Liu, Yongchao, Rong, Qiming, Zhu, Longmin, Yuan, Lin, Qu, Feng-Li, Zhang, Xiao-Bing, Tan, Weihong
Format: Article
Language:English
Subjects:
Activation
Biocompatibility
Cancer
Cancer therapies
Chemical compounds
Chemistry
Chemotherapy
Cytotoxicity
Drug delivery systems
Drugs
Fluorescence
Hydrogen peroxide
Infrared imaging
Photodynamic therapy
Side effects
Signal monitoring
Toxicity
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Summary:Nontoxic prodrugs, especially activated by tumor microenvironment, are urgently required for reducing the side effects of cancer therapy. And combination of chemo-photodynamic therapy prodrugs show effectively synergetic therapeutic efficiency, however, this goal has not been achieved in a single molecule. In this work, we developed a mitochondrial-targeted prodrug for near infrared (NIR) fluorescence imaging guided and synergetic chemo-photodynamic precise cancer therapy for the first time. contains a NIR photosensitizer ( ) and an anticancer drug 5'-deoxy-5-fluorouridine (5'-DFUR). These two parts are linked and caged through a bisboronate group, displaying no fluorescence and very low cytotoxicity. In the presence of H O , the bisboronate group is broken, resulting in activation of for NIR photodynamic therapy and activation of 5'-DFUR for chemotherapy. The activated can also provide a NIR fluorescence signal for monitoring the release of activated drug. Taking advantage of the high H O concentration in cancer cells, exhibits higher cytotoxicity to cancer cells than normal cells, resulting in lower side effects. In addition, based on its mitochondrial-targeted ability, exhibits enhanced chemotherapy efficiency compare to free 5'-DFUR. It also demonstrated a remarkably improved and synergistic chemo-photodynamic therapeutic effect for cancer cells. Moreover, exhibits excellent tumor microenvironment-activated performance when intravenously injected into tumor-bearing nude mice, as demonstrated by fluorescence imaging. Thus, is a promising prodrug for cancer therapy based on its tumor microenvironment-activated drug release, synergistic therapeutic effect and "turn-on" NIR imaging guide.
ISSN:2041-6520
2041-6539
DOI:10.1039/c7sc03454g