运动期间人体肌肉中三羧酸循环中间产物池大小及估计的循环通量

Tricarboxylic acid cycle intermediate pool size and estimated cycle flux in human muscle during exercise.

作者信息

Gibala M J, MacLean D A, Graham T E, Saltin B

机构信息

Copenhagen Muscle Research Centre, Rigshospitalet, DK-2200 Copenhagen N, Denmark.

出版信息

Am J Physiol. 1998 Aug;275(2):E235-42. doi: 10.1152/ajpendo.1998.275.2.E235.

DOI:10.1152/ajpendo.1998.275.2.E235

PMID:9688624

Abstract

We examined the relationship between tricarboxylic acid (TCA) cycle intermediate (TCAI) pool size, TCA cycle flux (calculated from leg O2 uptake), and pyruvate dehydrogenase activity (PDHa) in human skeletal muscle. Six males performed moderate leg extensor exercise for 10 min, followed immediately by intense exercise until exhaustion (3.8 +/- 0.5 min). The sum of seven measured TCAI (SigmaTCAI) increased (P </= 0.05) from 1.39 +/- 0.11 at rest to 2. 88 +/- 0.31 after 10 min and to 5.38 +/- 0.31 mmol/kg dry wt at exhaustion. TCA cycle flux increased approximately 70-fold during submaximal exercise and was approximately 100-fold higher than rest at exhaustion. PDHa corresponded to 77 and 90% of TCA cycle flux during submaximal and maximal exercise, respectively. The present data demonstrate that a tremendous increase in TCA cycle flux can occur in skeletal muscle despite a relatively small change in TCAI pool size. It is suggested that the increase in SigmaTCAI during exercise may primarily reflect an imbalance between the rate of pyruvate production and its rate of oxidation in the TCA cycle.

摘要

我们研究了人体骨骼肌中三羧酸（TCA）循环中间产物（TCAI）池大小、TCA循环通量（根据腿部氧气摄取量计算）和丙酮酸脱氢酶活性（PDHa）之间的关系。六名男性进行了10分钟的适度腿部伸展运动，随后立即进行剧烈运动直至 exhaustion（3.8±0.5分钟）。七个测量的TCAI总和（SigmaTCAI）从静息时的1.39±0.11增加（P≤0.05）至10分钟后的2.88±0.31，并在 exhaustion时达到5.38±0.31 mmol/kg干重。在次最大运动期间，TCA循环通量增加了约70倍，并且在 exhaustion时比静息时高约100倍。在次最大和最大运动期间，PDHa分别相当于TCA循环通量的77%和90%。目前的数据表明，尽管TCAI池大小变化相对较小，但骨骼肌中的TCA循环通量仍可大幅增加。有人认为，运动期间SigmaTCAI的增加可能主要反映了丙酮酸生成速率与其在TCA循环中的氧化速率之间的不平衡。

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运动期间人体肌肉中三羧酸循环中间产物池大小及估计的循环通量

Tricarboxylic acid cycle intermediate pool size and estimated cycle flux in human muscle during exercise.

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