分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

GSH-responsive and O2-economizing virus-like nanocapsule for photothermal-augmented sonodynamic therapy

Jiajing Liu, Mengqi Li, Zhiyu Zhao, Xian Luo, Li Wang, Tingting Li, Cong Liu, Shengyu Wang, Ting Wu, Dong Yang, Yang Li, Peiyuan Wang, Jianghua Yan, Fanghong Luo

Journal:CHEMICAL ENGINEERING JOURNAL

IF:15.1

DOI:10.1016/j.cej.2023.141427

PMID:

Published:2023-01-11

research field:生物材料再生医学组织工程

Abstract

Compared to photodynamic therapy, sonodynamic therapy (SDT) has received increased attention due to higher tissue penetrative depth and low side effects. However, the hypoxia tumor microenvironment and monotherapy limitation still severely hindered its therapeutic effect. Herein, a biodegradable glutathione-depletion virus-inspired nanocapsule is prepared to achieve O 2 -economizing photothermal-augmented sonodynamic therapy. The nanocapsule is constructed by polydopamine (PDA) core and tetra-sulfide-bridged virus-like mesoporous silica/cyclic RGD shell, which could efficiently encapsulate both “chlorin e6-C-15-ethyl ester” (HB, a new photosensitizer) and atovaquone (ATO, a mitochondrial electron-transport-chain inhibitor). Owing to virus-like surface-assisted active targeting, the nanocapsule could efficiently accumulate within tumor tissues and rapidly invade the tumor cells. Afterwards, the silica shell would be decomposed under intracellular overproduced glutathione (GSH) via tetra-sulfide-thiol exchange to sustainedly release both ATO and HB while depleting GSH to weaken the antioxidant self-defense mechanism of tumor cells. Upon ultrasound (US) irradiation, the HB could efficiently generate singlet oxygen ( 1 O 2 ) for SDT, while the previously elevated temperature from the PDA core upon 808 nm laser irradiation could promote 1 O 2 generation efficiency for enhanced SDT. Furthermore, the released ATO could significantly reduce O 2 consumption by restraining the mitochondrial respiration to alleviate the hypoxic microenvironment to amplify oxidative stress. Therefore, the designed nanocapsule for O 2 -economized photothermal-augmented sonodynamic therapy could provide a promising strategy for tumor eradication.

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