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On-demand assembly of polymeric nanoparticles for longer-blood-circulation and disassembly in tumor for boosting sonodynamic therapy

Mei Wen, Nuo Yu, Shiwen Wu, Mengmeng Huang, Pu Qiu, Qian Ren, Meifang Zhu, Zhigang Chen

2022Bioactive Materials79 citationsDOIOpen Access PDF

Abstract

Sonodynamic therapy (SDT) is one of the promising strategies for tumor therapy, but its application is usually hindered by fast clearance in blood-circulation, abnormal tumor microenvironment, and inefficient generation of reactive oxygen species. To solve these problems, we proposed an on-demand assembly-disassembly strategy, where the assembly is favorable for longer-blood-circulation and then the disassembly in tumor is favorable for boosting SDT. Hematoporphyrin monomethyl ether (HMME) as the model of organic sonosensitizers were conjugated with hyaluronic acid (HA). Then HA-HMME was mixed with catalase (CAT) and assembled into polymeric nanoparticles (CAT@HA-HMME NPs) with size of ∼80 nm. CAT@HA-HMME NPs exhibit good biocompatibility and a longer blood half-time (t1/2 = 4.17 h) which is obviously longer than that (∼0.82 h) of HMME molecules. After HA receptor-mediated endocytosis of cancer cells, CAT@HA-HMME NPs can be cleaved by endogenous hyaluronidase, resulting in the on-demand disassembly in tumor to release HA-HMME molecules and CAT. The CAT catalyzes the endogenous H2O2 into O2 to relieve the hypoxic microenvironment, and the released HA-HMME exhibits a higher ROS generation ability, greatly boosting SDT for the inhibition of tumor growth. Therefore, the on-demand assembly-disassembly strategy may provide some insight in the design and development of nanoagents for tumor therapy.

Topics & Concepts

ChemistryReactive oxygen speciesNanocarriersBiocompatibilitySonodynamic therapyNanoparticleTumor microenvironmentCancer researchBiophysicsPharmacologyNanotechnologyBiochemistryMaterials scienceTumor cellsDrug deliveryMedicineOrganic chemistryBiologyNanoplatforms for cancer theranosticsNanoparticle-Based Drug DeliveryPhotoacoustic and Ultrasonic Imaging
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