Ultrasound-Triggered Piezocatalysis for Selectively Controlled NO Gas and Chemodrug Release to Enhance Drug Penetration in Pancreatic Cancer

Nitric oxide (NO) is drawing widespread attention in treating pancreatic ductal adenocarcinoma (PDAC) as a safe and therapeutically efficient technique through modulating the dense fibrotic stroma in the tumor microenvironment to enhance drug penetration. Considerable NO nanogenerators and NO releas...

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Published in:ACS nano 2023-02, Vol.17 (4), p.3557-3573
Main Authors: Wang, Yuan, Tang, Qingshuang, Wu, Ruiqi, Sun, Suhui, Zhang, Jinxia, Chen, Jing, Gong, Ming, Chen, Chaoyi, Liang, Xiaolong
Format: Article
Language:English
Subjects:
Animals
Camptothecin - pharmacology
Camptothecin - therapeutic use
Cell Line, Tumor
Delayed-Action Preparations
Drug Delivery Systems - methods
Drug Liberation
Mice
Nanoparticles - chemistry
Nitric Oxide
Pancreatic Neoplasms
Pancreatic Neoplasms - diagnostic imaging
Pancreatic Neoplasms - drug therapy
Prodrugs - chemistry
Tumor Microenvironment
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Summary:Nitric oxide (NO) is drawing widespread attention in treating pancreatic ductal adenocarcinoma (PDAC) as a safe and therapeutically efficient technique through modulating the dense fibrotic stroma in the tumor microenvironment to enhance drug penetration. Considerable NO nanogenerators and NO releasing molecules have been developed to shield the systemic toxicity caused by free diffusion of NO gas. However, on-demand controlled release of NO and chemotherapy drugs at tumor sites remains a problem limited by the complex and dynamic tumor microenvironment. Herein, we present an ultrasound-responsive nanoprodrug of CPT-t-R-PEG2000@BaTiO3 (CRB) which encapsulates piezoelectric nanomaterials barium titanate nanoparticle (BaTiO3) with amphiphilic prodrug molecules that consisted of thioketal bond (t) linked chemotherapy drug camptothecin (CPT) and NO-donor l-arginine (R). Based on ultrasound-triggered piezocatalysis, BaTiO3 can continuously generate ROS in the hypoxic tumor environment, which induces a cascade of reaction processes to break the thioketal bond to release CPT and oxidize R to release NO, simultaneously delivering CPT and NO to the tumor site. It is revealed that CRB shows a uniform size distribution, prolonged blood circulation time, and excellent tumor targeting ability. Moreover, controlled release of CPT and NO were observed both in vitro and in vivo under the stimulation of ultrasound, which is beneficial to the depletion of dense stroma and subsequently enhanced delivery and efficacy of CPT. Taken together, CRB significantly increased the antitumor efficacy against highly malignant Panc02 tumors in mice through inhibiting chemoresistance, representing a feasible approach for targeted therapies against Panc02 and other PDAC.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.2c09948