人体骨骼肌中ATP利用和恢复的单独测量方法。
Separate measures of ATP utilization and recovery in human skeletal muscle.
作者信息
Blei M L, Conley K E, Kushmerick M J
机构信息
Department of Rehabilitation Medicine, University of Washington Medical Center, Seattle 98195.
出版信息
J Physiol. 1993 Jun;465:203-22. doi: 10.1113/jphysiol.1993.sp019673.
Abstract
- The chemical changes during contractile activity were separated from recovery metabolism in the forearm flexor musculature in normal human subjects using 31P nuclear magnetic resonance (NMR) spectroscopy. Percutaneous, supramaximal twitch stimulation of the median and ulnar nerves was used in combination with temporary ischaemia of the forearm to characterize the summed ATPase activity. The recovery following restoration of blood flow provided a measure of oxidative ATP synthesis activity. These processes were measured based on the dynamics of creatine phosphate (PCr) content. 2. Muscle oxygen stores were depleted using ischaemia without stimulation as indicated by PCr breakdown after 250 +/- 33 s (mean +/- S.D.; n = 5), which provided a measure of the basal metabolic rate (0.008 +/- 0.002 mM s-1, n = 5). 3. The PCr breakdown rate during twitch stimulation of the oxygen-depleted muscle was constant at 1 Hz at 0.15 +/- 0.03 mM PCr per second or per twitch (n = 8). A constant cost per twitch was found from 0.5 to 2 Hz stimulation (depletion of PCr per twitch = 0.15 mM per twitch). 4. No net anaerobic recovery of PCr was found during a 2 min post-stimulation ischaemia. 5. Upon restoration of blood flow, PCr recovery followed an exponential time course with a time constant of 63 +/- 14 s (n = 8). From these recovery rates, the capacity for oxidative phosphorylation was estimated to be 0.4 mM s-1. 6. This experimental approach defines a non-invasive and quantitative measure of human muscle ATPase rate and ATP synthetase rate.
摘要
- 利用31P核磁共振波谱法,将正常人体受试者前臂屈肌收缩活动期间的化学变化与恢复代谢区分开来。对正中神经和尺神经进行经皮超最大刺激,并结合前臂的暂时缺血来表征总ATP酶活性。恢复血流后的恢复情况提供了氧化ATP合成活性的测量指标。这些过程是根据磷酸肌酸(PCr)含量的动态变化来测量的。2. 如在250±33秒(平均值±标准差;n = 5)后PCr分解所示,通过无刺激的缺血使肌肉氧储备耗尽,这提供了基础代谢率的测量指标(0.008±0.002 mM s-1,n = 5)。3. 在对缺氧肌肉进行1 Hz的抽搐刺激期间,PCr分解速率恒定,为每秒或每次抽搐0.15±0.03 mM PCr(n = 8)。在0.5至2 Hz刺激下发现每次抽搐的成本恒定(每次抽搐PCr消耗 = 每次抽搐0.15 mM)。4. 在刺激后2分钟的缺血期间未发现PCr的净无氧恢复。5. 恢复血流后,PCr的恢复遵循指数时间进程,时间常数为63±14秒(n = 8)。根据这些恢复速率,氧化磷酸化能力估计为0.4 mM s-1。6. 这种实验方法定义了一种非侵入性且定量的人体肌肉ATP酶速率和ATP合成酶速率的测量方法。
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