XJB-5-131 Is a Mild Uncoupler of Oxidative Phosphorylation.

IF 2.1 Q3 NEUROSCIENCES Journal of Huntington's disease Pub Date : 2022-01-01 DOI:10.3233/JHD-220539
Zhiyin Xun, Peter Wipf, Cynthia T McMurray
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Abstract

Background: Mitochondria (MT) are energy "powerhouses" of the cell and the decline in their function from oxidative damage is strongly correlated in many diseases. To suppress oxygen damage, we have developed and applied XJB-5-131 as a targeted platform for neutralizing reactive oxygen species (ROS) directly in MT. Although the beneficial activity of XJB-5-131 is well documented, the mechanism of its protective effects is not yet fully understood.

Objective: Here, we elucidate the mechanism of protection for XJB-5-131, a mitochondrial targeted antioxidant and electron scavenger.

Methods: The Seahorse Flux Analyzer was used to probe the respiratory states of isolated mouse brain mitochondria treated with XJB-5-131 compared to controls.

Results: Surprisingly, there is no direct impact of XJB-5-131 radical scavenger on the electron flow through the electron transport chain. Rather, XJB-5-131 is a mild uncoupler of oxidative phosphorylation. The nitroxide moiety in XJB-5-131 acts as a superoxide dismutase mimic, which both extracts or donates electrons during redox reactions. The electron scavenging activity of XJB-5-131 prevents the leakage of electrons and reduces formation of superoxide anion, thereby reducing ROS.

Conclusion: We show here that XJB-5-131 is a mild uncoupler of oxidative phosphorylation in MT. The mild uncoupling property of XJB-5-131 arises from its redox properties, which exert a protective effect by reducing ROS-induced damage without sacrificing energy production. Because mitochondrial decline is a common and central feature of toxicity, the favorable properties of XJB-5-131 are likely to be useful in treating Huntington's disease and a wide spectrum of neurodegenerative diseases for which oxidative damage is a key component. The mild uncoupling properties of XJB-5-131 suggest a valuable mechanism of action for the design of clinically effective antioxidants.

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XJB-5-131是氧化磷酸化的温和解耦剂。
背景:线粒体(MT)是细胞的能量“发电站”,其氧化损伤功能的下降与许多疾病密切相关。为了抑制氧损伤,我们开发并应用了XJB-5-131作为直接中和MT中活性氧(ROS)的靶向平台。尽管XJB-5-131的有益活性已被充分记录,但其保护作用的机制尚未完全了解。目的:研究线粒体靶向抗氧化和电子清除剂XJB-5-131的保护作用机制。方法:采用海马通量分析仪检测XJB-5-131处理小鼠离体脑线粒体的呼吸状态,并与对照组进行比较。结果:令人惊讶的是,XJB-5-131自由基清除剂对电子传递链中的电子流没有直接影响。相反,XJB-5-131是氧化磷酸化的温和解偶联剂。XJB-5-131中的氮氧化物部分作为超氧化物歧化酶模拟物,在氧化还原反应中提取或提供电子。XJB-5-131的电子清除活性阻止了电子的泄漏,减少了超氧阴离子的形成,从而减少了ROS。结论:我们在这里证明XJB-5-131是MT氧化磷酸化的轻度解偶联剂。XJB-5-131的轻度解偶联性源于其氧化还原特性,它通过减少ros诱导的损伤而不牺牲能量产生来发挥保护作用。由于线粒体衰退是毒性的共同和核心特征,XJB-5-131的有利特性可能对治疗亨廷顿氏病和广泛的神经退行性疾病有用,其中氧化损伤是关键成分。XJB-5-131的轻度解偶联特性为设计临床有效的抗氧化剂提供了有价值的作用机制。
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来源期刊
CiteScore
4.80
自引率
9.70%
发文量
60
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