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Coordination-Driven Enhancement of Radiosensitization by Black Phosphorus <i>via</i> Regulating Tumor Metabolism

Leung Chan, Xiaodan Chen, Pan Gao, Jun Xie, Zhongyang Zhang, Jianfu Zhao, Tianfeng Chen

2021ACS Nano77 citationsDOI

Abstract

Coordination-driven surface modification is an effective strategy to achieve nanosystem functionalization and improved physicochemical performance. Black phosphorus (BP)-based nanomaterials demonstrate great potential in cancer therapy, but their poor stability, low X-ray mass attenuation coefficient, and nonselectivity limit the application in radiotherapy. Herein, we used unsaturated iridium complex to coordinate with BP nanosheets to synthesize a two-dimensional layered nanosystem (RGD-Ir@BP) with higher biostability. Ir complex improves the photoelectric properties and photoinduced charge carrier dynamics of BP, hence Ir@BP generated more singlet oxygen after X-ray irradiation. In in vivo experiments, with X-ray irradiation, RGD-Ir@BP effectively inhibited nasopharyngeal carcinoma tumor growth but with minor side effects. Additionally, based on untargeted metabolomics analysis, the combined treatment specifically down-regulated the tumor proliferative mark of prostaglandin E2 in cancer cells. In general, this study provides a design strategy of high-performance coordination-driven BP-based nanosensitizer in cancer radiotherapy.

Topics & Concepts

Black phosphorusSinglet oxygenSurface modificationChemistryIn vivoIrradiationNanomaterialsMaterials scienceNanotechnologyCancer researchOxygenOptoelectronicsPhysical chemistryBiologyNuclear physicsPhysicsBiotechnologyOrganic chemistryNanoplatforms for cancer theranosticsAdvanced Photocatalysis Techniques2D Materials and Applications
Coordination-Driven Enhancement of Radiosensitization by Black Phosphorus <i>via</i> Regulating Tumor Metabolism | Litcius