Tumor Microenvironment-Responsive Ultrasmall Nanodrug Generators with Enhanced Tumor Delivery and Penetration

化学 光敏剂 超分子化学 合理设计 肿瘤微环境 药物输送 癌症研究 生物物理学 光动力疗法 活性氧 纳米技术 肿瘤细胞 组合化学 光化学 生物化学 有机化学 材料科学 分子 生物
作者
Pengfei Zhang,Junqing Wang,Hu Chen,Lei Zhao,Binbin Chen,Chengchao Chu,Heng Liu,Zainen Qin,Jingyi Liu,Yuan‐Zhi Tan,Xiaoyuan Chen,Gang Liu
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:140 (44): 14980-14989 被引量:199
标识
DOI:10.1021/jacs.8b09396
摘要

Tumor microenvironment-induced ultrasmall nanodrug generation (TMIUSNG) is an unprecedented approach to overcome the drug penetration barriers across complex biological systems, poor circulation stability and limited drug loading efficiency (DLE). Herein, a novel strategy was designed to synthesize metal-organic nanodrug complexes (MONCs) through supramolecular coassembly of photosensitizer sinoporphyrin sodium, chemotherapeutic drug doxorubicin and ferric ions. Compared with the free photosensitizer, MONCs produced 3-fold more reactive oxygen species (ROS) through the energy transfer-mediated fluorescence quenching. Remarkably, the self-delivering supramolecular MONCs with high DLE acted as a potent ultrasmall-nanodrug generator in response to the mild acidic tumor microenvironment to release ultrasmall nanodrugs (5-10 nm in diameter) from larger parental nanoparticles (140 nm in diameter), which in turn enhanced the intratumor permeability and therapeutic efficacy. The key mechanism of MONC synthesis was proposed, and we, for the first time, validated the generation of supramolecular scaffold intermediates between MONCs' assembly/disassembly states, as well as their involvement in multidrug ligands interactions. This proof-of-concept TMIUSNG strategy provides a foundation for the rational design of analogous carrier-free nanotheranostics through the combination of multiple therapeutic agents and metal ions with imaging functions.
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