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Precision cancer sono-immunotherapy using deep-tissue activatable semiconducting polymer immunomodulatory nanoparticles

Jing Li, Yu Luo, Ziling Zeng, Dong Cui, Jiaguo Huang, Chenjie Xu, Liping Li, Kanyi Pu, Ruiping Zhang

2022Nature Communications169 citationsDOIOpen Access PDF

Abstract

Abstract Nanomedicine holds promise to enhance cancer immunotherapy; however, its potential to elicit highly specific anti-tumor immunity without compromising immune tolerance has yet to be fully unlocked. This study develops deep-tissue activatable cancer sono-immunotherapy based on the discovery of a semiconducting polymer that generates sonodynamic singlet oxygen ( 1 O 2 ) substantially higher than other sonosensitizers. Conjugation of two immunomodulators via 1 O 2 -cleavable linkers onto this polymer affords semiconducting polymer immunomodulatory nanoparticles (SPINs) whose immunotherapeutic actions are largely inhibited. Under ultrasound irradiation, SPINs generate 1 O 2 not only to directly debulk tumors and reprogram tumor microenvironment to enhance tumor immunogenicity, but also to remotely release the immunomodulators specifically at tumor site. Such a precision sono-immunotherapy eliminates tumors and prevents relapse in pancreatic mouse tumor model. SPINs show effective antitumor efficacy even in a rabbit tumor model. Moreover, the sonodynamic activation of SPINs confines immunotherapeutic action primarily to tumors, reducing the sign of immune-related adverse events.

Topics & Concepts

ImmunotherapyCancer researchCancer immunotherapySonodynamic therapyTumor microenvironmentAbscopal effectImmune systemCancerNanomedicineImmunogenicityMedicineMaterials scienceImmunologyNanotechnologyNanoparticlePathologyInternal medicineAlternative medicineNanoplatforms for cancer theranosticsCancer, Stress, Anesthesia, and Immune ResponsePhotoacoustic and Ultrasonic Imaging