pH-Responsive Nanoparticles for Enhanced Antitumor Activity by High-Intensity Focused Ultrasound Therapy Combined with Sonodynamic Therapy
Hui Gao, Zhaoxia Wang, Mixiao Tan, Weiwei Liu, Liang Zhang, Ju Huang, Yang Cao, Pan Li, Zhigang Wang, Jiexin Wen, Tingting Shang, Haitao Ran
Abstract
Background: Therapeutic ultrasound (US) has been extensively explored for its inherent high tissue-penetrating capability and on-demand irradiation without radioactive damage. Although high-intensity focused ultrasound (HIFU) is evolved as such an outstanding US-based approach, its insufficient therapeutic effect and the high-intensity induced potential damage to surrounding normal tissues hindered its development towards practical application. As opposed to high intensity ultrasound, sonodynamic therapy (SDT) is a low intensity US-based method which exhibits certain therapeutic effects against cancer via sonosensitizers-generated reactive oxygen species (ROS) overproduction. Methods: Hematoporphyrin monomethyl ether (HMME) loaded CaCO 3 nanoparticles (designated as [email protected] ) were synthesized by a gas diffusion method. The pH-responsive performance, in vitro SDT, ex vivo HIFU therapy (HIFUT), photoacoustic (PA) imaging and in vivo HIFUT combined with SDT were investigated thoroughly. Results: [email protected] NPs gradually decomposed in acid tumor microenvironment, produced CO 2 and released HMME. Both CO 2 and HMME enhanced photoacoustic (PA) imaging. The generated CO 2 bubbles also enhanced HIFUT by inducing an enlarged ablation area. The tumor ablation efficiency (61.04%) was significantly improved with a combination of HIFU therapy and SDT. Conclusion: pH-responsive [email protected] NPs have been successfully constructed for PA imaging-guided/monitored HIFUT combined with SDT. With the assistance of pH-responsive [email protected] NPs, the combination of these two US-based therapies is expected to play a role in the treatment of non-invasive tumor in the future. Keywords: ultrasound, high-intensity focused ultrasound therapy, sonodynamic therapy, CaCO 3 nanoparticles, nanomedicine