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J Gerontol A Biol Sci Med Sci. 2016 Apr;71(4):461-7. doi: 10.1093/gerona/glv033. Epub 2015 Apr 15.
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Senolytic treatment rescues blunted muscle hypertrophy in old mice.衰老细胞清除疗法可挽救老年小鼠肌肉肥大反应迟钝。
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本文引用的文献

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Blunted hypertrophic response in old mouse muscle is associated with a lower satellite cell density and is not alleviated by resveratrol.老年小鼠肌肉中肥厚反应减弱与卫星细胞密度降低有关,且白藜芦醇无法缓解这种情况。
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Nat Med. 2015 Jan;21(1):76-80. doi: 10.1038/nm.3710. Epub 2014 Dec 15.
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Skeletal muscle satellite cells: mediators of muscle growth during development and implications for developmental disorders.骨骼肌卫星细胞:发育过程中肌肉生长的调节因子及其对发育障碍的影响
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p38 MAPK signaling underlies a cell-autonomous loss of stem cell self-renewal in skeletal muscle of aged mice.p38 MAPK 信号通路是导致老年小鼠骨骼肌中干细胞自我更新丧失的细胞自主性机制。
Nat Med. 2014 Mar;20(3):265-71. doi: 10.1038/nm.3465. Epub 2014 Feb 16.
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Rejuvenation of the muscle stem cell population restores strength to injured aged muscles.肌肉干细胞群体的再生恢复了受伤老年肌肉的力量。
Nat Med. 2014 Mar;20(3):255-64. doi: 10.1038/nm.3464. Epub 2014 Feb 16.
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Geriatric muscle stem cells switch reversible quiescence into senescence.老年肌肉干细胞将可逆静止状态切换为衰老状态。
Nature. 2014 Feb 20;506(7488):316-21. doi: 10.1038/nature13013. Epub 2014 Feb 12.
8
Regulation of the muscle fiber microenvironment by activated satellite cells during hypertrophy.激活卫星细胞在肌肉肥大过程中对肌纤维微环境的调控。
FASEB J. 2014 Apr;28(4):1654-65. doi: 10.1096/fj.13-239426. Epub 2013 Dec 27.
9
Automated fiber-type-specific cross-sectional area assessment and myonuclei counting in skeletal muscle.骨骼肌中纤维类型特异性横截面积的自动评估与肌核计数
J Appl Physiol (1985). 2013 Dec;115(11):1714-24. doi: 10.1152/japplphysiol.00848.2013. Epub 2013 Oct 3.
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Anabolic resistance of muscle protein synthesis with aging.肌肉蛋白质合成的合成代谢抵抗与衰老。
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老年肌肉在无肌纤维肥大的情况下,对机械负荷产生反应时表现出纤维类型适应性,且与卫星细胞数量无关。

Aged Muscle Demonstrates Fiber-Type Adaptations in Response to Mechanical Overload, in the Absence of Myofiber Hypertrophy, Independent of Satellite Cell Abundance.

作者信息

Lee Jonah D, Fry Christopher S, Mula Jyothi, Kirby Tyler J, Jackson Janna R, Liu Fujun, Yang Lin, Dupont-Versteegden Esther E, McCarthy John J, Peterson Charlotte A

机构信息

Department of Rehabilitation Sciences, College of Health Sciences and Center for Muscle Biology, University of Kentucky, Lexington. Department of Molecular and Integrative Physiology, Medical School, University of Michigan, Ann Arbor.

Department of Nutrition and Metabolism, University of Texas Medical Branch, Galveston.

出版信息

J Gerontol A Biol Sci Med Sci. 2016 Apr;71(4):461-7. doi: 10.1093/gerona/glv033. Epub 2015 Apr 15.

DOI:10.1093/gerona/glv033
PMID:25878030
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5175449/
Abstract

Although sarcopenia, age-associated loss of muscle mass and strength, is neither accelerated nor exacerbated by depletion of muscle stem cells, satellite cells, we hypothesized that adaptation in sarcopenic muscle would be compromised. To test this hypothesis, we depleted satellite cells with tamoxifen treatment of Pax7(CreER)-DTA mice at 4 months of age, and 20 months later subjected the plantaris muscle to 2 weeks of mechanical overload. We found myofiber hypertrophy was impaired in aged mice regardless of satellite cell content. Even in the absence of growth, vehicle-treated mice mounted a regenerative response, not apparent in tamoxifen-treated mice. Further, myonuclear accretion occurred in the absence of growth, which was prevented by satellite cell depletion, demonstrating that myonuclear addition is insufficient to drive myofiber hypertrophy. Satellite cell depletion increased extracellular matrix content of aged muscle that was exacerbated by overload, potentially limiting myofiber growth. These results support the idea that satellite cells regulate the muscle environment, and that their loss during aging may contribute to fibrosis, particularly during periods of remodeling. Overload induced a fiber-type composition improvement, independent of satellite cells, suggesting that aged muscle is very responsive to exercise-induced enhancement in oxidative capacity, even with an impaired hypertrophic response.

摘要

尽管肌肉减少症,即与年龄相关的肌肉质量和力量丧失,并不会因肌肉干细胞(卫星细胞)的耗竭而加速或加剧,但我们推测肌肉减少症患者肌肉的适应性会受到损害。为了验证这一假设,我们在4月龄时用他莫昔芬处理Pax7(CreER)-DTA小鼠以耗尽卫星细胞,20个月后对其比目鱼肌进行为期2周的机械过载处理。我们发现,无论卫星细胞含量如何,老年小鼠的肌纤维肥大均受损。即使在没有生长的情况下,接受载体处理的小鼠也会产生再生反应,而在接受他莫昔芬处理的小鼠中则不明显。此外,在没有生长的情况下会发生肌核增加,但卫星细胞耗竭可阻止这种增加,这表明肌核增加不足以驱动肌纤维肥大。卫星细胞耗竭会增加老年肌肉的细胞外基质含量,而过载会加剧这种情况,这可能会限制肌纤维生长。这些结果支持了卫星细胞调节肌肉环境的观点,并且它们在衰老过程中的丧失可能导致纤维化,尤其是在重塑期间。过载诱导了纤维类型组成的改善,与卫星细胞无关,这表明老年肌肉对运动诱导的氧化能力增强非常敏感,即使肥大反应受损。