Endoperoxide-enhanced self-assembled ROS producer as intracellular prodrugs for tumor chemotherapy and chemodynamic therapy

JunJie Tang, Yadong Liu, Yifan Xue, Zhaozhong Jiang, Baizhu Chen, Jie Liu
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Abstract

Prodrug-based self-assembled nanoparticles (PSNs) with tailored responses to tumor microenvironments show a significant promise for chemodynamic therapy (CDT) by generating highly toxic reactive oxygen species (ROS). However, the insufficient level of intracellular ROS and the limited drug accumulation remain major challenges for further clinical transformation. In this study, the PSNs for the delivery of artesunate (ARS) are demonstrated by designing the pH-responsive ARS-4-hydroxybenzoyl hydrazide (HBZ)-5-amino levulinic acid (ALA) nanoparticles (AHA NPs) with self-supplied ROS for excellent chemotherapy and CDT. The PSNs greatly improved the loading capacity of artesunate and the ROS generation from endoperoxide bridge using the electron withdrawing group attached directly to C10 site of artesunate. The ALA and ARS-HBZ could be released from AHA NPs under the cleavage of hydrazone bonds triggered by the acidic surroundings. Besides, the ALA increased the intracellular level of heme in mitochondria, further promoting the ROS generation and lipid peroxidation with ARS-HBZ for excellent anti-tumor effects. Our study improved the chemotherapy of ARS through the chemical modification, pointing out the potential applications in the clinical fields.

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内过氧化物增强型自组装 ROS 生成器作为细胞内原药用于肿瘤化疗和化学动力疗法
基于原研药的自组装纳米粒子(PSNs)通过产生高毒性活性氧(ROS),可对肿瘤微环境做出量身定制的反应,为化学动力学疗法(CDT)带来了巨大前景。然而,细胞内 ROS 水平不足和有限的药物积累仍是进一步临床转化的主要挑战。本研究通过设计具有 pH 响应的 ARS-4-hydroxybenzoyl hydrazide (HBZ)-5-amino levulinic acid (ALA) 纳米颗粒(AHA NPs),证明了 PSNs 可用于青蒿琥酯(ARS)的递送,并可自我提供 ROS,以实现良好的化疗和 CDT。PSNs 利用直接连接在青蒿琥酯 C10 位点上的退电子基团,大大提高了青蒿琥酯的负载能力和内过氧桥产生的 ROS。ALA 和 ARS-HBZ 可在酸性环境引发的腙键裂解作用下从 AHA NPs 中释放出来。此外,ALA还能提高线粒体内血红素的水平,进一步促进ROS的生成和ARS-HBZ的脂质过氧化反应,从而达到良好的抗肿瘤效果。我们的研究通过化学修饰改善了 ARS 的化疗效果,为其在临床领域的应用提供了可能。
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Issue Information Back Cover: High-yield upcycling of feather wastes into solid-state ultra-long phosphorescence carbon dots for advanced anticounterfeiting and information encryption (EXP2 6/2024) Frontispiece: Advancements and challenges in brain cancer therapeutics (EXP2 6/2024) Front Cover: Piezoelectric stimulation enhances bone regeneration in alveolar bone defects through metabolic reprogramming of macrophages (EXP2 6/2024) Pioneering Exploration for a lasting and sustainable future
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