Effect of black chokeberry on skeletal muscle damage and neuronal cell death.

Journal of Exercise Nutrition & Biochemistry Pub Date : 2019-12-31 DOI:10.20463/jenb.2019.0028

Jisu Kim, Kang Pa Lee, Suji Beak, Hye Ra Kang, Yong Kyun Kim, Kiwon Lim

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引用次数: 9

Abstract

Purpose: Numerous epidemiological studies have shown that it is possible to prescribe exercise for neurodegenerative disease, such as Alzheimer's disease and Parkinson's disease. However, despite the availability of diverse scientific knowledge, the effects of exercise in this regard are still unclear. Therefore, this study attempted to investigate a substance, such as black chokeberry (Aronia melanocapa L.) that could improve the ability of the treatment and enhance the benefits of exercising in neurodegenerative diseases.

Methods: The cell viability was tested with 2,3-bis[2-methyloxy-4-nitro-5-sulfophenyl]-2H-tetrazolim-5-carboxanilide and the cells were stained with ethidium homodimer-1 solution. The mRNA expression levels were evaluated by microarray. The active compounds of black chokeberry ethanolic extract (BCE) were analyzed by gas chromatography. The chemical shift analysis in the brain was performed using magnetic resonance spectroscopy.

Results: BCE treatment decreased hydrogen peroxide-induced L6 cell death and beta amyloid induced primary neuronal cell death. Furthermore, BCE treatment significantly reduced the mRNA levels of the inflammatory factors, such as IL-1α, Cxcl13, IL36rn, Itgb2, Epha2, Slamf8, Itgb6, Kdm6b, Acvr1, Cd6, Adora3, Cd27, Gata3, Tnfrsf25, Cd40lg, Clec10a, and Slc11a1, in the primary neuronal cells. Next, we identified 16 active compounds from BCE, including D-mannitol. In vivo, BCE (administered orally at a dosage of 50 mg/kg) significantly regulated chemical shift in the brain.

Conclusion: Our findings suggest that BCE can serve as a candidate for neurodegenerative disease therapy owing to its cyto-protective and anti-inflammatory effects. Therefore, BCE treatment is expected to prevent damage to the muscles and neurons of the athletes who continue high intensity exercise. In future studies, it would be necessary to elucidate the effects of combined BCE intake and exercise.

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黑莓对骨骼肌损伤和神经元细胞死亡的影响。

目的:大量的流行病学研究表明，对于神经退行性疾病，如阿尔茨海默病和帕金森氏病，运动是可能的。然而，尽管有各种各样的科学知识，运动在这方面的影响仍然不清楚。因此，本研究试图研究一种物质，如黑樱桃(Aronia melanocapa L.)，可以提高治疗能力，增强运动对神经退行性疾病的益处。方法:用2,3-二[2-甲基氧基-4-硝基-5-巯基]- 2h -四唑啉-5-羧基苯胺检测细胞活力，用乙二聚体-1染色。通过芯片检测mRNA表达水平。采用气相色谱法对黑越橘醇提物(BCE)的有效成分进行了分析。大脑中的化学位移分析是用磁共振波谱进行的。结果:BCE处理可降低过氧化氢诱导的L6细胞死亡和β -淀粉样蛋白诱导的原代神经元细胞死亡。此外，BCE治疗显著降低了原代神经元细胞中炎症因子IL-1α、Cxcl13、IL36rn、Itgb2、Epha2、Slamf8、Itgb6、Kdm6b、Acvr1、Cd6、Adora3、Cd27、Gata3、Tnfrsf25、Cd40lg、cle10a和Slc11a1的mRNA水平。接下来，我们从BCE中鉴定出16种活性化合物，包括d -甘露醇。在体内，BCE(口服剂量为50mg /kg)显著调节大脑中的化学位移。结论:我们的研究结果表明，由于其细胞保护和抗炎作用，BCE可以作为神经退行性疾病治疗的候选药物。因此，BCE治疗有望防止持续高强度运动的运动员肌肉和神经元的损伤。在未来的研究中，有必要阐明BCE摄入和运动的联合作用。

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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Journal of Exercise Nutrition & Biochemistry

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