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Ultrasound-Induced Piezocatalysis Triggered NO Generation for Enhanced Hypoxic Tumor Therapy

Jing Chen, Qingshuang Tang, Yuan Wang, Menghong Xu, Suhui Sun, Jinxia Zhang, Ruiqi Wu, Xiuli Yue, Xiaoda Li, Qingfeng Chen, Xiaolong Liang

2023ACS Applied Materials & Interfaces36 citationsDOI

Abstract

Conventional NO gas generation based on l -arginine ( l -Arg) is usually dependent on H 2 O 2 and O 2, both of which are very limited within the tumor microenvironment, thus greatly limiting l -Arg’s therapeutic effect. Herein, a novel nanoplatform for efficiently triggering NO production based on ultrasound-induced piezocatalysis was developed, which was fabricated by coating amphiphilic poly- l -arginine (DSPE-PEG 2000 -Arg, DPA) on the piezoelectric material of barium titanate (BTO). The resulting BTO@DPA nanoparticles can efficiently generate H 2 O 2, 1 O 2, and O 2 via ultrasound-induced piezocatalysis based on BTO and oxidize the surface arginine to produce NO, which can even further interact with the reactive oxygen species (ROS) to produce more reactive peroxynitrite, thus inducing serious tumor cell apoptosis both in hypoxia and normoxia. After intravenous injection, BTO@DPA accumulated well at the tumor tissue at 4 h postinjection; later, ultrasound irradiation on the tumor not only achieved the best tumor inhibition rate of ∼70% but also completely inhibited tumor metastasis to the lungs via the alleviation of tumor hypoxia. Such a strategy was not dependent on the tumor microenvironment and can be well controlled by ultrasound irradiation, providing a simple and efficient therapy paradigm for hypoxic tumor.

Topics & Concepts

Materials sciencePeroxynitriteTumor microenvironmentReactive oxygen speciesCancer researchUltrasoundTumor hypoxiaNanoparticleBiophysicsBiomedical engineeringRadiation therapyNanotechnologyTumor cellsChemistryMedicineBiochemistrySuperoxideBiologySurgeryEnzymeRadiologyNanoplatforms for cancer theranosticsSulfur Compounds in BiologyHydrogen's biological and therapeutic effects