Division of Geriatrics and Palliative Medicine, Jacobs School of Medicine and Biomedical Sciences, University at Buffalo and Research Service, Veterans Affairs Western New York Healthcare System, Buffalo, NY, United States.
Bioengineering Laboratory, Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY, United States.
Nutrition. 2021 Jul-Aug;87-88:111189. doi: 10.1016/j.nut.2021.111189. Epub 2021 Feb 8.
Nicotinamide adenine dinucleotide (NAD), an essential cofactor for mitochondrial function, declines with aging, which may lead to impaired physical performance. Nicotinamide riboside (NR), a NAD precursor, restores cellular NAD levels. The aim of this study was to examine the effects of short-term NR supplementation on physical performance in middle-aged mice and the effects on mouse and human muscle stem cells.
We treated 15-mo-old male C57BL/6J mice with NR at 300 mg·kg·d (NR3), 600 mg·kg·d (NR6), or placebo (PLB), n = 8 per group, and assessed changes in physical performance, muscle histology, and NAD content after 4 wk of treatment.
NR increased total NAD in muscle tissue (NR3 P = 0.01; NR6 P = 0.004, both versus PLB), enhanced treadmill endurance and open-field activity, and prevented decline in grip strength. Histologic analysis revealed NR-treated mice exhibited enlarged slow-twitch fibers (NR6 versus PLB P = 0.014; NR3 P = 0.16) and a trend toward more slow fibers (NR3 P = 0.14; NR6 P = 0.22). We next carried out experiments to characterize NR effects on mitochondrial activity and cellular energetics in vitro. We observed that NR boosted basal and maximal cellular aerobic and anaerobic respiration in both mouse and human myoblasts and human myotubes. Additionally, NR treatment improved the differentiating capacity of myoblasts and increased myotube size and fusion index upon stimulation of these progenitors to form multinucleated myotubes.
These findings support a role for NR in improving cellular energetics and functional capacity in mice, which support the translation of this work into clinical settings as a strategy for improving and/or maintaining health span during aging.
烟酰胺腺嘌呤二核苷酸(NAD)是线粒体功能的必需辅酶,随年龄增长而下降,可能导致身体机能下降。烟酰胺核糖(NR)是 NAD 的前体,可恢复细胞内 NAD 水平。本研究旨在探讨短期 NR 补充对中年小鼠身体机能的影响,以及对小鼠和人肌肉干细胞的影响。
我们用 NR(300mg·kg·d,NR3;600mg·kg·d,NR6)或安慰剂(PLB)处理 15 月龄雄性 C57BL/6J 小鼠,每组 8 只,在治疗 4 周后评估身体机能、肌肉组织学和 NAD 含量的变化。
NR 增加了肌肉组织中的总 NAD(NR3 P=0.01;NR6 P=0.004,均与 PLB 相比),增强了跑步机耐力和旷场活动能力,并防止握力下降。组织学分析显示,NR 处理的小鼠表现出慢肌纤维增大(NR6 与 PLB 相比 P=0.014;NR3 与 PLB 相比 P=0.16)和更多慢肌纤维的趋势(NR3 与 PLB 相比 P=0.14;NR6 与 PLB 相比 P=0.22)。我们随后进行了实验以表征 NR 对体外线粒体活性和细胞能量代谢的影响。我们观察到 NR 增强了小鼠和人成肌细胞以及人肌管的基础和最大细胞需氧和厌氧呼吸。此外,NR 处理增强了成肌细胞的分化能力,并在刺激这些祖细胞形成多核肌管时增加了肌管大小和融合指数。
这些发现支持 NR 在改善小鼠细胞能量代谢和功能能力方面的作用,这支持将这项工作转化为临床,作为改善和/或维持衰老过程中健康跨度的策略。
