Activatable theranostic prodrug scaffold with tunable drug release rate for sequential photodynamic and chemotherapy

Si-Yu Wang, Ying-Hao Pan, Yu-Chen Qu, Xiao-Xiao Chen, Na Shao, Li-Ya Niu, Qing-Zheng Yang
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Abstract

Glutathione (GSH)-activated prodrugs are promising for overcoming the limitations of conventional anti-tumor drugs. However, current GSH-responsive disulfide groups exhibit unregulated reactivity, making it impossible to precisely control the drug release rate. We herein report a series of GSH-responsive prodrugs with a “three-in-one” molecular design by integrating a fluorescence report unit, stimuli-responsive unit and chemodrug into one scaffold with tunable aromatic nucleophilic substitution (SNAr) reactivity. The drug release rate of these prodrugs is tailored by modification of substituent groups with different electron-withdrawing or -donating abilities on the BODIPY core. Furthermore, the prodrugs self-assemble in water to form nanoparticles that serve as photosensitizers to produce reactive oxygen species upon irradiation for photodynamic therapy (PDT). The PDT process also increases the concentration of GSH in cells, further promoting the release of drugs for chemotherapy. This strategy provides a powerful platform for sequential photodynamic and chemotherapy with tunable drug release rates and synergistic therapeutic effects.

Abstract Image

具有可调药物释放率的可激活治疗原药支架,用于光动力和化疗的连续治疗
谷胱甘肽(GSH)活化原药有望克服传统抗肿瘤药物的局限性。然而,目前的 GSH 反应性二硫化物基团表现出不受调节的反应性,因此无法精确控制药物释放率。我们在此报告了一系列具有 "三合一 "分子设计的 GSH 响应原药,它们将荧光报告单元、刺激响应单元和化学药物整合到一个具有可调芳香族亲核取代(SNAr)反应性的支架中。通过对 BODIPY 核心上具有不同吸电子或弃电子能力的取代基团进行修饰,可定制这些原药的药物释放速率。此外,这些原药还能在水中自组装形成纳米颗粒,作为光敏剂在光动力疗法(PDT)照射时产生活性氧。光动力疗法过程还能提高细胞中 GSH 的浓度,进一步促进化疗药物的释放。这种策略为顺序光动力疗法和化疗提供了一个强大的平台,可调节药物释放率并产生协同治疗效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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