肌肉线粒体和血细胞的呼吸测定分析与社区居住老年人的步态速度差异有关。
Respirometric Profiling of Muscle Mitochondria and Blood Cells Are Associated With Differences in Gait Speed Among Community-Dwelling Older Adults.
作者信息
Tyrrell Daniel J, Bharadwaj Manish S, Van Horn Cynthia G, Kritchevsky Stephen B, Nicklas Barbara J, Molina Anthony J A
机构信息
Sticht Center on Aging and Department of Internal Medicine, Section on Gerontology and Geriatrics, Wake Forest School of Medicine, Winston-Salem, North Carolina.
出版信息
J Gerontol A Biol Sci Med Sci. 2015 Nov;70(11):1394-9. doi: 10.1093/gerona/glu096. Epub 2014 Jul 16.
BACKGROUND
Gait speed provides an integrated measure of physical ability that is predictive of morbidity, disability, and mortality in older adults. Energy demands associated with walking suggest that mitochondrial bioenergetics may play a role in gait speed. Here, we examined the relationship between gait speed and skeletal muscle mitochondrial bioenergetics, and further evaluated whether blood-based bioenergetic profiling might have similar associations with gait speed.
METHODS
Participants in this study were comprised of two subsets (n = 17 per subset) and were overweight/obese (body mass index, 30.9 ± 2.37), well-functioning, community-dwelling older adults (69.1 ± 3.69 years) without major comorbidity. Gait speeds were calculated from a fast-paced 400 m walk test. Respiratory control ratios were measured from mitochondria isolated from leg skeletal muscle biopsies from one subset. Maximal respiration and spare respiratory capacity were measured from peripheral blood mononuclear cells from the other subset.
RESULTS
Individual differences in gait speed correlated directly with respiratory control ratio of mitochondria isolated from skeletal muscle (r = .536, p = .027) and with both maximal respiration and spare respiratory capacity of peripheral blood mononuclear cells (r = .585 and p = .014; r = .609 and p = .009, respectively).
CONCLUSIONS
The bioenergetic profile of mitochondria isolated from skeletal muscle is associated with gait speed in older adults. Blood-based bioenergetic profiling is also associated with gait speed and may provide an alternative measure of mitochondrial function.
背景
步速提供了一种身体能力的综合测量指标,可预测老年人的发病率、残疾率和死亡率。与行走相关的能量需求表明线粒体生物能量学可能在步速中发挥作用。在此,我们研究了步速与骨骼肌线粒体生物能量学之间的关系,并进一步评估基于血液的生物能量分析是否可能与步速有类似的关联。
方法
本研究的参与者由两个亚组组成(每个亚组n = 17),均为超重/肥胖(体重指数,30.9 ± 2.37)、功能良好、居住在社区的老年人(69.1 ± 3.69岁),无重大合并症。步速通过快速400米步行测试计算得出。呼吸控制率从一个亚组的腿部骨骼肌活检分离出的线粒体中测量。最大呼吸和备用呼吸能力从另一个亚组的外周血单核细胞中测量。
结果
步速的个体差异与从骨骼肌分离出的线粒体的呼吸控制率直接相关(r = .536,p = .027),并与外周血单核细胞的最大呼吸和备用呼吸能力相关(分别为r = .585,p = .014;r = .609,p = .009)。
结论
从骨骼肌分离出的线粒体的生物能量特征与老年人的步速相关。基于血液的生物能量分析也与步速相关,并且可能提供线粒体功能的替代测量方法。
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