Downhill running induced DNA damage enhances mitochondrial membrane permeability by facilitating ER-mitochondria signaling.

IF 1.7 3区生物学 Q4 CELL BIOLOGY

Journal of Muscle Research and Cell Motility Pub Date : 2022-12-01 DOI:10.1007/s10974-022-09634-0

Junping Li, Binting Zhao, Shengju Chen, Zhen Wang, Kexin Shi, Binkai Lei, Chunxia Cao, Zhifei Ke, Ruiyuan Wang

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引用次数: 1

Abstract

To observe whether downhill running can lead to DNA damage in skeletal muscle cells and changes in mitochondrial membrane permeability and to explore whether the DNA damage caused by downhill running can lead to changes in mitochondrial membrane permeability by regulating the components of the endoplasmic reticulum mitochondrial coupling structure (MAM). A total of 48 male adult Sprague-Dawley rats were randomly divided into a control group (C, n = 8) and a motor group (E, n = 40). Rats in Group E were further divided into 0 h (E0), 12 h (E12), 24 h (E24), 48 h (E48) and 72 h (E72) after prescribed exercise, with 8 rats in each group. At each time point, flounder muscle was collected under general anaesthesia. The DNA oxidative damage marker 8-hydroxydeoxyguanosine (8-OHdG) was detected by immunofluorescence. The expression levels of the DNA damage-related protein p53 in the nucleus and the EI24 protein and reep1 protein in whole cells were detected by Western blot. The colocalization coefficients of the endoplasmic reticulum protein EI24 and the mitochondrial protein Vdac2 were determined by immunofluorescence double staining, and the concentration of Ca²⁺ in skeletal muscle mitochondria was detected by a fluorescent probe. Finally, the opening of the mitochondrial membrane permeability transition pore (mPTP) was detected by immunofluorescence. Twelve hours after downhill running, the mitochondrial membrane permeability of the mPTP opened the most (P < 0.05), the content of 8-OHdG in skeletal muscle peaked (P < 0.05), and the levels of the regulatory protein p53, mitochondrial Ca²⁺, and the EI24 and reep1 proteins peaked (P < 0.01). Moreover, the colocalization coefficients of EI24 and Vdac2 and the Mandes coefficients of the two proteins increased first and then recovered 72 h after exercise (P < 0.05). (1) Downhill running can lead to DNA damage in skeletal muscle cells, overload of mitochondrial Ca²⁺ and large opening of membrane permeability transformation pores. (2) The DNA damage caused by downhill running may result in p53 promoting the transcriptional activation of reep1 and EI24, enhancing the interaction between EI24 and Vdac2, and then leading to an increase in Ca²⁺ in skeletal muscle mitochondria and the opening of membrane permeability transition pores.

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下坡运动诱导的DNA损伤通过促进er -线粒体信号传导提高线粒体膜通透性。

观察下坡跑步是否会导致骨骼肌细胞DNA损伤及线粒体膜通透性的改变，探讨下坡跑步引起的DNA损伤是否通过调节内质网线粒体偶联结构(MAM)组分导致线粒体膜通透性的改变。选取雄性成年sd大鼠48只，随机分为对照组(C, n = 8)和运动组(E, n = 40)。E组大鼠进一步分为运动后0 h (E0)、12 h (E12)、24 h (E24)、48 h (E48)、72 h (E72)，每组8只。在全身麻醉下，于每个时间点采集比目鱼肌。采用免疫荧光法检测DNA氧化损伤标志物8-羟基脱氧鸟苷(8-OHdG)。Western blot检测细胞核中DNA损伤相关蛋白p53及全细胞中EI24蛋白和reep1蛋白的表达水平。免疫荧光双染色法测定内质网蛋白EI24和线粒体蛋白Vdac2的共定位系数，荧光探针法检测骨骼肌线粒体Ca2+浓度。最后用免疫荧光法检测线粒体膜通透性过渡孔(mPTP)的开口。下坡跑12小时后，mPTP线粒体膜通透性打开最多(p2 +)， EI24和reep1蛋白达到峰值(p2 +)，膜通透性转化孔打开较大。(2)下坡跑引起的DNA损伤可能导致p53促进reep1和EI24的转录激活，增强EI24与Vdac2的相互作用，进而导致骨骼肌线粒体Ca2+升高，膜通透性过渡孔打开。

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来源期刊

Journal of Muscle Research and Cell Motility 生物-细胞生物学

CiteScore

6.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Muscle Research and Cell Motility has as its main aim the publication of original research which bears on either the excitation and contraction of muscle, the analysis of any one of the processes involved therein, the processes underlying contractility and motility of animal and plant cells, the toxicology and pharmacology related to contractility, or the formation, dynamics and turnover of contractile structures in muscle and non-muscle cells. Studies describing the impact of pathogenic mutations in genes encoding components of contractile structures in humans or animals are welcome, provided they offer mechanistic insight into the disease process or the underlying gene function. The policy of the Journal is to encourage any form of novel practical study whatever its specialist interest, as long as it falls within this broad field. Theoretical essays are welcome provided that they are concise and suggest practical ways in which they may be tested. Manuscripts reporting new mutations in known disease genes without validation and mechanistic insight will not be considered. It is the policy of the journal that cells lines, hybridomas and DNA clones should be made available by the developers to any qualified investigator. Submission of a manuscript for publication constitutes an agreement of the authors to abide by this principle.