提高NAD+水平,恢复细胞内线粒体的防御机制,可以为人体恢复肌肉功能

2021年1 月19日, 来自瑞士洛桑联邦理工学院的Johan Auwerx 教授,带领他的团队发布了一项研究,并刊登在了 《Cell》子刊《Cell Reports》上。研究表明人体的衰老过程中,蛋白质聚集物沉积,导致了肌肉出现退化。NMN最新资讯:通过提高NAD+水平,能够逆转该类蛋白质聚集,进而唤醒细胞内线粒体的防御系统,令肌肉功能得以解决

Aging is characterized by loss of proteostasis and mitochondrial homeostasis. Here, we provide bioinformatic evidence of dysregulation of mitochondrial and proteostasis pathways in muscle aging and diseases. Moreover, we show accumulation of amyloid-like deposits and mitochondrial dysfunction during natural aging in the body wall muscle of C. elegans, in human primary myotubes, and in mouse skeletal muscle, partially phenocopying inclusion body myositis (IBM). Importantly, NAD+ homeostasis is critical to control age-associated muscle amyloidosis. Treatment of either aged N2 worms, a nematode model of amyloid-beta muscle proteotoxicity, human aged myotubes, or old mice with the NAD+ boosters nicotinamide riboside (NR) and olaparib (AZD) increases mitochondrial function and muscle homeostasis while attenuating amyloid accumulation. Hence, our data reveal that age-related amyloidosis is a contributing factor to mitochondrial dysfunction and that both are features of the aging muscle that can be ameliorated by NAD+ metabolism-enhancing approaches, warranting further clinical studies.

Keywords: NAD(+); aging; amyloid-beta; amyloidosis; inclusion body myositis; mitochondria; nicotinamide riboside; olaparib; proteostasis; skeletal muscle.

NMN最新资讯显示,在该项研究中,科研人员表示淀粉样蛋白质会在衰老的肌肉中聚积,并且会造成机体内线粒体功能的损伤,这也是迄今为止证明了淀粉样蛋白聚集物能够有助于减少肌肉衰老问题并直接损害线粒体。

https://pubmed.ncbi.nlm.nih.gov/33472069/

 

#NMN骨胳肌肉疾病解决方案

 

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