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http://dx.doi.org/10.1016/j.jgr.2018.06.002

Ginsenoside Rg1 supplementation clears senescence-associated β-galactosidase in exercising human skeletal muscle  

Wu, Jinfu (Laboratory of Exercise Biochemistry, University of Taipei)
Saovieng, Suchada (Laboratory of Exercise Biochemistry, University of Taipei)
Cheng, I-Shiung (Laboratory of Exercise Nutrition, National Taichung University of Education)
Liu, Tiemin (Department of Endocrinology and Metabolism, State Key Laboratory of Genetic Engineering, and School of Life Sciences, Zhongshan Hospital, Fudan University)
Hong, Shangyu (Department of Endocrinology and Metabolism, State Key Laboratory of Genetic Engineering, and School of Life Sciences, Zhongshan Hospital, Fudan University)
Lin, Chang-Yu (Laboratory of Exercise Nutrition, National Taichung University of Education)
Su, I-Chen (Graduate Institute of Basic Medical Science, China Medical University)
Huang, Chih-Yang (Graduate Institute of Basic Medical Science, China Medical University)
Kuo, Chia-Hua (Laboratory of Exercise Biochemistry, University of Taipei)
Publication Information
Journal of Ginseng Research / v.43, no.4, 2019 , pp. 580-588 More about this Journal
Abstract
Background: Ginsenoside Rg1 has been shown to clear senescence-associated beta-galactosidase (SA-${\beta}$-gal) in cultured cells. It remains unknown whether Rg1 can influence SA-${\beta}$-gal in exercising human skeletal muscle. Methods: To examine SA-${\beta}$-gal change, 12 young men (age $21{\pm}0.2years$) were enrolled in a randomized double-blind placebo controlled crossover study, under two occasions: placebo (PLA) and Rg1 (5 mg) supplementations 1 h prior to a high-intensity cycling (70% $VO_{2max}$). Muscle samples were collected by multiple biopsies before and after cycling exercise (0 h and 3 h). To avoid potential effect of muscle biopsy on performance assessment, cycling time to exhaustion test (80% $VO_{2max}$) was conducted on another 12 participants (age $23{\pm}0.5years$) with the same experimental design. Results: No changes of SA-${\beta}$-gal were observed after cycling in the PLA trial. On the contrary, nine of the 12 participants showed complete elimination of SA-${\beta}$-gal in exercised muscle after cycling in the Rg1 trial (p < 0.05). Increases in apoptotic DNA fragmentation (PLA: +87% vs. Rg1: +133%, p < 0.05) and $CD68^+$ (PLA:+78% vs. Rg1:+121%, p = 0.17) occurred immediately after cycling in both trials. During the 3-h recovery, reverses in apoptotic nuclei content (PLA:+5% vs. Rg1 -32%, p < 0.01) and increases in inducible nitrate oxide synthase and interleukin 6 mRNA levels of exercised muscle were observed only in the Rg1 trial (p < 0.01). Conclusion: Rg1 supplementation effectively eliminates senescent cells in exercising human skeletal muscle and improves high-intensity endurance performance.
Keywords
Cellular senescence; Endurance; Ergogenic aid; Inflammation; Macrophage;
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