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Irradiation pretreatment enhances the therapeutic efficacy of platelet-membrane-camouflaged antitumor nanoparticles

Yin Chen, Xue Shen, Songling Han, Tao Wang, Jianqi Zhao, Yongwu He, Shilei Chen, Shengqi Deng, Cheng Wang, Junping Wang

2020Journal of Nanobiotechnology48 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Cell membrane-based nanocarriers are promising candidates for delivering antitumor agents. The employment of a simple and feasible method to improve the tumor-targeting abilities of these systems is appealing for further application. Herein, we prepared a platelet membrane (PM)-camouflaged antitumor nanoparticle. The effects of irradiation pretreatment on tumor targeting of the nanomaterial and on its antitumor action were evaluated. RESULTS: The biomimetic nanomaterial constructed by indocyanine green, poly(d,l-lactide-co-glycolide), and PM is termed PINPs@PM. A 4-Gy X-ray irradiation increased the proportions of G2/M phase and Caveolin-1 content in 4T1 breast cancer cells, contributing to an endocytic enhancement of PINPs@PM. PINPs@PM produced hyperthermia and reactive oxygen species upon excitation by near-infrared irradiation, which were detrimental to the cytoplasmic lysosome and resulted in cell death. Irradiation pretreatment thus strengthened the antitumor activity of PINPs@PM in vitro. Mice experiments revealed that irradiation enhanced the tumor targeting capability of PINPs@PM in vivo. When the same dose of PINPs@PM was intravenously administered, irradiated mice had a better outcome than did mice without X-ray pretreatment. CONCLUSION: The study demonstrates an effective strategy combining irradiation pretreatment and PM camouflage to deliver antitumor nanoparticles, which may be instrumental for targeted tumor therapy.

Topics & Concepts

ChemistryNanoparticleMembranePlateletIrradiationBiophysicsPharmacologyNanotechnologyBiochemistryMedicineImmunologyMaterials scienceBiologyNuclear physicsPhysicsNanoplatforms for cancer theranosticsOcular Oncology and TreatmentsCorneal Surgery and Treatments
Irradiation pretreatment enhances the therapeutic efficacy of platelet-membrane-camouflaged antitumor nanoparticles | Litcius