Ana T. Vitantonio , Christina Dimovasili , Farzad Mortazavi , Kelli L. Vaughan , Julie A. Mattison , Douglas L. Rosene
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引用次数: 0
摘要
卡路里限制(CR)是一种强有力的干预措施,可以延缓生物衰老并延长寿命。在大脑中,终末分化的神经元和胶质细胞会随着年龄的增长而积累氧化损伤,从而降低其最佳功能。我们研究了 CR 是否能减少白质少突胶质细胞和小胶质细胞的 DNA 氧化损伤。这项研究利用了猕猴的死后脑组织,这些猕猴在减少 30% 热量饮食数十年后死亡。我们发现,CR 受试者胼胝体和蝶鞍束中的氧化损伤细胞明显减少。尤其是少突胶质细胞对 CR 的反应最大,DNA 损伤明显减少。此外,我们还观察到小胶质细胞形态的改变,与对照组相比,CR 受试者具有较高比例的横纹化、平衡性小胶质细胞,而具有较少比例的促炎性、肥大性小胶质细胞。此外,我们还确定,观察到的受损 DNA 减少主要发生在线粒体中。总之,这些数据表明,长期CR可以减少氧化DNA损伤,并以细胞类型特异性的方式为衰老猴脑提供神经保护作用。
Long-term calorie restriction reduces oxidative DNA damage to oligodendroglia and promotes homeostatic microglia in the aging monkey brain
Calorie restriction (CR) is a robust intervention that can slow biological aging and extend lifespan. In the brain, terminally differentiated neurons and glia accumulate oxidative damage with age, reducing their optimal function. We investigated if CR could reduce oxidative DNA damage to white matter oligodendrocytes and microglia. This study utilized post-mortem brain tissue from rhesus monkeys that died after decades on a 30 % reduced calorie diet. We found that CR subjects had significantly fewer cells with oxidative damage within the corpus callosum and the cingulum bundle. Oligodendrocytes specifically showed the greatest response to CR with a robust reduction in DNA damage. Additionally, we observed alterations in microglia morphology with CR subjects having a higher proportion of ramified, homeostatic microglia and fewer pro-inflammatory, hypertrophic microglia relative to controls. Furthermore, we determined that the observed attenuation in damaged DNA occurs primarily within mitochondria. Overall, these data suggest that long-term CR can reduce oxidative DNA damage and offer a neuroprotective effect in a cell-type-specific manner in the aging monkey brain.
期刊介绍:
Neurobiology of Aging publishes the results of studies in behavior, biochemistry, cell biology, endocrinology, molecular biology, morphology, neurology, neuropathology, pharmacology, physiology and protein chemistry in which the primary emphasis involves mechanisms of nervous system changes with age or diseases associated with age. Reviews and primary research articles are included, occasionally accompanied by open peer commentary. Letters to the Editor and brief communications are also acceptable. Brief reports of highly time-sensitive material are usually treated as rapid communications in which case editorial review is completed within six weeks and publication scheduled for the next available issue.
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