Tetrahedral DNA Framework Penetrating Ocular Barrier for Treatment of Retinal Oxidative Stress

IF 4.3 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ACS Omega Pub Date : 2025-10-12 DOI:10.1021/acsomega.5c07330

Tianqin Wang, , , Yuelu Zhang*, , , Wenjuan Xiao, , , Yangyang Jin, , , Qiuxue Yi, , , Qi Chen, , , Jiayang Xiang, , , Ruobing Wang*, , , Jin Li*, , and , Lin Liu*,

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Abstract

Excessive accumulation of reactive oxygen species in the retina is the predominant pathogenic mechanism underlying dry age-related macular degeneration (dAMD). Although antioxidant chemicals have been shown to be effective in reducing ROS levels, their bioavailability and therapeutic efficacy are restricted by ocular barriers. Herein, we developed a tetrahedral framework nucleic acid (tFNA)-based antioxidant drug for the treatment of retinal oxidative stress diseases. By exploiting their penetration capability, these tFNAs penetrated multiple ocular tissues and cellular barriers. These tFNAs protected retinal pigment epithelium cells from glyoxal-induced oxidative stress damage by exerting their intrinsic antioxidant properties through the JNK and AKT pathways upon entering the cells. The subconjunctival administration of tFNAs alleviated structural damage and reduced retinal cell apoptosis in a retinal oxidative stress rat model. These results indicated that tFNAs are a promising therapeutic drug for the treatment of retinal oxidative stress diseases, which sheds light on the development of dAMD therapy.

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四面体DNA框架穿透眼屏障治疗视网膜氧化应激

视网膜中活性氧的过度积累是干性年龄相关性黄斑变性（dAMD）的主要致病机制。虽然抗氧化化学物质已被证明可以有效降低ROS水平，但它们的生物利用度和治疗效果受到眼屏障的限制。在此，我们开发了一种基于四面体框架核酸（tFNA）的抗氧化药物，用于治疗视网膜氧化应激疾病。通过利用它们的穿透能力，这些tFNAs穿透了多个眼部组织和细胞屏障。这些tFNAs在进入细胞后通过JNK和AKT通路发挥其固有的抗氧化特性，保护视网膜色素上皮细胞免受乙二醛诱导的氧化应激损伤。在视网膜氧化应激大鼠模型中，结膜下给药tFNAs可减轻结构损伤并减少视网膜细胞凋亡。这些结果表明tFNAs是一种有前景的治疗视网膜氧化应激疾病的药物，这为dAMD治疗的发展提供了新的思路。

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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来源期刊

ACS Omega Chemical Engineering-General Chemical Engineering

CiteScore

6.60

自引率

4.90%

发文量

3945

审稿时长

2.4 months

期刊介绍： ACS Omega is an open-access global publication for scientific articles that describe new findings in chemistry and interfacing areas of science, without any perceived evaluation of immediate impact.