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Carrier-Free Nano-PROTACs to Amplify Photodynamic Therapy Induced DNA Damage through BRD4 Degradation

Linping Zhao, Xiaona Rao, Rongrong Zheng, Chu‐Yu Huang, Renjiang Kong, Hong Cheng, Bin Li, Shiying Li

2023Nano Letters63 citationsDOI

Abstract

Therapy-induced DNA damage is the most common strategy to inhibit tumor cell proliferation, but the therapeutic efficacy is limited by DNA repair machinery. Carrier-free nanoproteolysis targeting chimeras (PROTACs), designed as SDNpros, have been developed to enhance photodynamic therapy (PDT) by blocking the DNA damage repair pathway through BRD4 degradation. Specifically, SDNpros are constructed through noncovalent interactions between the photosensitizer of chlorine e6 (Ce6) and PROTACs of BRD4 degrader (dBET57) via self-assembly. SDNpro has favorable dispersibility and a uniform nanosize distribution without drug excipients. Upon light irradiation, SDNpro produces abundant reactive oxygen species (ROS) to induce DNA oxidative damage. Meanwhile, the DNA repair pathway would be interrupted by the concurrent degradation of BRD4, which could intensify the oxidative DNA damage and elevate PDT efficiency. Beneficially, SDNpro suppresses tumor growth and avoids systemic side effects, providing a promising strategy to promote the clinical translation of PROTACs for tumor treatment.

Topics & Concepts

DNA damagePhotodynamic therapyChemistryDNAPhotosensitizerReactive oxygen speciesCell biologyBiophysicsDNA repairCancer researchBiochemistryBiologyPhotochemistryOrganic chemistryNanoplatforms for cancer theranosticsAdvanced biosensing and bioanalysis techniquesNanowire Synthesis and Applications