Programmatically Controllable Activation of Sonodynamic Therapeutics with Bioorthogonal-Based Mitochondria-Specific Exogenous Agents toward Accurate Tumor Elimination

生物正交化学 声动力疗法 材料科学 线粒体 纳米技术 癌症研究 药理学 细胞生物学 生物 活性氧 点击化学 高分子化学
作者
Wenjing Li,Ming Lei,Zhen Tan,Leilei Zhang,Xueyang Fang,Tao Zhang
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (26): 37479-37488
标识
DOI:10.1021/acsami.5c04425
摘要

Sonodynamic therapy (SDT) mediated by endogenous stimuli-activated sonosensitizing prodrugs is faced with problems such as low specificity, tumor heterogeneity, and uncontrollability. Utilizing bioorthogonal reactions as exogenous stimuli to programmatically activate the prodrugs has been identified as a potential solution to these problems. Herein, we present a mitochondria-specific sonosensitizing system for programmatically controllable activation of sonodynamic therapeutics based on the Staudinger reaction by rationally designing a mitochondrial-targeting bioorthogonal trigger (TP) and a mitochondria-targeting sonosensitizing nanoprodrug (MA-NPs). The MA-NPs is enriched inside the mitochondria of the tumor cell driven by the mitochondrial membrane potential. The enrichment of MA-NPs and the subsequently loaded TP within mitochondria initiate Staudinger reactions, which promote the disintegration of MA-NPs to release sonosenitizing methylene blue (MB). Then, under ultrasound irradiation, MB produces reactive oxygen species (ROS) to damage the mitochondria of tumor cells and induce apoptosis, which effectively inhibits tumor development and facilitates the effects of SDT. This research presents an innovative strategy for the advancement of exogenous activation agents capable of selectively and efficiently activating prosonosensitizers and achieving controllable and effective SDT.
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