Biomarkers of Cellular Senescence Predict the Onset of Mobility Disability and Are Reduced by Physical Activity in Older Adults.

Roger A Fielding, Elizabeth J Atkinson, Zaira Aversa, Thomas A White, Amanda A Heeren, Michelle M Mielke, Steven R Cummings, Marco Pahor, Christiaan Leeuwenburgh, Nathan K LeBrasseur
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Abstract

Studies in mice and cross-sectional studies in humans support the premise that cellular senescence is a contributing mechanism to age-associated deficits in physical function. We tested the hypotheses that circulating proteins secreted by senescent cells are (i) associated with the incidence of major mobility disability (MMD), the development of persistent mobility disability (PMMD), and decrements in physical functioning in older adults, and (ii) influenced by physical activity (PA). Using samples and data obtained longitudinally from the Lifestyle Interventions in Elders Study clinical trial, we measured a panel of 27 proteins secreted by senescent cells. Among 1 377 women and men randomized to either a structured PA intervention or a healthy aging (HA) intervention, we observed significant associations between several senescence biomarkers, most distinctly vascular endothelial growth factor A (VEGFA), tumor necrosis factor receptor 1 (TNFR1), and matrix metallopeptidase 7 (MMP7), and the onset of both MMD and PMMD. Moreover, VEGFA, GDF15, osteopontin, and other senescence biomarkers were associated with reductions in short physical performance battery scores. The change in senescence biomarkers did not differ between PA and HA participants. In the whole cohort, higher levels of PA were associated with significantly greater reductions in 10 senescence-related proteins at 12 and/or 24 months. These data reinforce cellular senescence as a contributing mechanism of age-associated functional decline and the potential for PA to attenuate this hallmark of aging. Clinical Trials Registration Number: NCT01072500.

细胞衰老的生物标志物可以预测老年人行动能力障碍的发生,并因身体活动而减少。
对小鼠的研究和对人类的横断面研究支持这样一个前提,即细胞衰老是导致与年龄相关的身体功能缺陷的一种机制。我们检验了衰老细胞分泌的循环蛋白与以下假设有关:i)与老年人严重行动不便(MMD)的发生率、持续性行动不便(PMMD)的发展和身体功能下降有关;以及ii)受身体活动的影响。使用从老年人生活方式干预(LIFE)研究临床试验中纵向获得的样本和数据,我们测量了衰老细胞分泌的27种蛋白质。在1377名随机接受结构化体力活动干预(PA)或健康衰老干预(HA)的女性和男性中,我们观察到几种衰老生物标志物(最明显的是VEGFA、TNFR1和MMP7)与MMD和PMMD的发病之间存在显著关联。此外,VEGFA、GDF15、骨桥蛋白和其他衰老生物标志物与短期体能电池得分的降低有关。衰老生物标志物的变化在PA和HA参与者之间没有差异。在整个队列中,在12个月和/或24个月时,较高水平的体力活动与10种衰老相关蛋白的显著减少有关。这些数据强化了细胞衰老作为与年龄相关的功能下降的一种促成机制,以及体育活动减弱衰老这一标志的潜力。
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