Epigenetics disruptions enabled by porphyrin-derived metal-organic frameworks disarm resistances to sonocatalytic ROS anti-tumor actions

IF 6.3 3区综合性期刊 Q1 Multidisciplinary Fundamental Research Pub Date : 2025-01-01 DOI:10.1016/j.fmre.2022.06.020

Yan Zhang , Dou Du , Chao Fang , Xin Yu , Yujia Fang , Xinyu Liu , Di Ou , Haohao Yin , Hui Liu , Taixia Wang , Lu Lu , Xiaolong Li , Kun Zhang

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Abstract

Post-transcriptional epigenetic modifications provide numerous implications for tumor progression, metastasis and recurrence, which also pose resistances to reactive oxygen species (ROS)-based anti-tumor. Herein, we proposed an epigenetic deubiquitination disruption strategy to disarm the ubiquitination-deubiquitination balance-induced resistances to ROS production and ROS-based anti-tumor action for potentiating sonodynamic treatment (SDT) efficiency. To end it, porphyrin-derived metal-organic framework (MOF) sonocatalytic nanoplatforms were developed to load deubiquitination inhibitors (i.e., Auranofin). Ultrasound-triggered Auranofin release from PCN224@Au has been validated to blockade the deubiquitinating process and drive proteasome-mediated target protein degradation. The epigenetic deubiquitination disruption not only synergized with MOF-mediated sonocatalytic ROS production, but also inactivate deubiquitinating enzymes, blockade the deubiquitination process and further remove these resistances, both of which mutually behaved as reciprocal impetuses to significantly magnify SDT outcomes against liver cancers. Such a deubiquitination-engineered disruption approach finds an unprecedented pathway to disarm deubiquitination-induced resistances to SDT and other ROS-based anti-tumor means, which also enlightens us to establish other post-transcriptional epigenetic modification disruption strategies to re-program the tumor microenvironment and elevate the anti-tumor efficiency of various treatment methods (e.g., immunotherapy).

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由卟啉衍生的金属有机框架引起的表观遗传学破坏解除了对声催化ROS抗肿瘤作用的抗性

转录后表观遗传修饰对肿瘤的进展、转移和复发有许多影响，同时也对基于活性氧（ROS）的抗肿瘤药物产生抗性。在此，我们提出了一种表观遗传的去泛素化破坏策略，以解除泛素化-去泛素化平衡诱导的ROS产生抗性和基于ROS的抗肿瘤作用，以增强声动力治疗（SDT）的效率。最后，卟啉衍生的金属有机框架（MOF）声催化纳米平台被开发用来负载去泛素化抑制剂（即金嘌呤）。超声触发的黄嘌呤释放PCN224@Au已被证实可以阻断去泛素化过程并驱动蛋白酶体介导的靶蛋白降解。表观遗传的去泛素化破坏不仅与mof介导的声催化ROS产生协同作用，还能灭活去泛素化酶，阻断去泛素化过程，进一步消除这些抗性，两者相互作用，显著放大SDT治疗肝癌的效果。这种去泛素化工程破坏方法找到了前所未有的途径来解除去泛素化诱导的SDT抗性和其他基于ros的抗肿瘤手段，这也启发我们建立其他转录后表观遗传修饰破坏策略来重新编程肿瘤微环境，提高各种治疗方法（如免疫治疗）的抗肿瘤效率。

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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