Piceatannol reduces radiation-induced DNA double-strand breaks by suppressing superoxide production and enhancing ATM-dependent repair efficiency

Advances in redox research : an official journal of the Society for Redox Biology and Medicine and the Society for Free Radical Research-Europe Pub Date : 2024-08-31 DOI:10.1016/j.arres.2024.100114

Tomoya Suzuki , Ryoya Tetsuka , Atsuya Iwasaki , Tsutomu Shimura , Ryoichi Hirayama , Asako J Nakamura

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Abstract

In contemporary society, humans are susceptible to various radiation-borne hazards, including exposure to therapeutic modalities using low-linear energy transfer (low-LET) radiations (X-rays and γ-rays), natural high-LET radiation sourced from cosmic rays, as well as nuclear accidents such as the Fukushima Daiichi Nuclear Power Plant incident. Therefore, this threat incites an imminent necessity to develop novel radioprotective agents against a wide range of LET radiation and elucidate the underlying molecular mechanisms. This study aimed at assessing the radioprotectivity of Piceatannol (PIC), a potent antioxidant polyphenol present in abundance in passion fruit, by investigating its effects on radiation-induced reactive oxygen species (ROS) production and the consequent DNA double-strand break (DSB) capacity and cellular senescence. Specifically, total ROS was evaluated by DCFDA staining, mitochondrial superoxide by MitoSOX staining, DSB by γ-H2AX immunostaining, and cellular senescence by Senescence-associated-β-galactosidase staining.

The results demonstrated that PIC administration prior to exposure to both X-ray and high-LET radiation impeded radiation-induced DSB by suppressing ROS production. Interestingly, post-irradiation PIC treatment did not alter ROS levels but enhanced the efficiency of Ataxia Telangiectasia Mutated (ATM)-mediated DSB repair. Additionally, post-irradiation PIC treatment diminished senescence-associated beta-galactosidase levels, indicating that it hinders cellular senescence.

Conclusively, PIC exerts radioprotective effects against a wide range of LET radiation. The study findings validate the potential application of PIC not only as a radical scavenger but also as a novel DSB repair-activating radioprotective agent.

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皮夏单宁通过抑制超氧化物生成和提高依赖于 ATM 的修复效率，减少辐射诱导的 DNA 双链断裂

在当代社会，人类很容易受到各种辐射的危害，包括暴露于使用低线性能量转移（low-LET）辐射（X 射线和 γ 射线）的治疗模式、来自宇宙射线的天然高 LET 辐射以及核事故（如福岛第一核电站事故）。因此，开发新型辐射防护剂以抵御各种 LET 辐射并阐明其分子机制迫在眉睫。西番莲果中含有大量的强效抗氧化多酚--皮萨单宁醇（PIC），本研究旨在通过研究皮萨单宁醇对辐射诱导的活性氧（ROS）产生以及随之而来的 DNA 双链断裂（DSB）能力和细胞衰老的影响，评估皮萨单宁醇的辐射防护能力。具体来说，ROS总量通过DCFDA染色进行评估，线粒体超氧化物通过MitoSOX染色进行评估，DSB通过γ-H2AX免疫染色进行评估，细胞衰老通过衰老相关-β-半乳糖苷酶染色进行评估。有趣的是，辐照后的生化干扰素处理不会改变 ROS 水平，但会提高共济失调特朗吉赛突变（ATM）介导的 DSB 修复效率。此外，辐照后 PIC 处理降低了衰老相关的 beta-半乳糖苷酶水平，这表明它阻碍了细胞衰老。研究结果验证了 PIC 的潜在应用价值，它不仅是一种自由基清除剂，还是一种新型的 DSB 修复激活辐射保护剂。

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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