Barakat H A, Kasperek G J, Dohm G L, Tapscott E B, Snider R D
Biochem J. 1982 Nov 15;208(2):419-24. doi: 10.1042/bj2080419.
The influence of exhaustive exercise on the capacity of liver and muscle of rats to oxidize fatty acids was investigated in vitro. The rate of oxidation of fatty acids by liver preparations was significantly elevated as a result of exhaustion. Concurrently, the concentrations of beta-hydroxybutyrate were elevated in the plasma of the exhausted rats, suggesting that oxidation of fatty acids was also elevated in vivo. These findings are analogous to the findings of increased oxidation of fatty acids that results from training. In muscle, oxidation of palmitate, palmitoylcarnitine and beta-hydroxybutyrate by homogenates and isolated mitochondria was depressed with exercise. Despite the decrease in the oxidative capacity of the muscle preparations, the activities of several enzymes of beta-oxidation were either increased or unchanged as a result of exercise, suggesting that the depression in fatty acid oxidation may not be related to alterations in the process of beta-oxidation. Further studies showed that oxidation of [2-(14)C]pyruvate by muscle was depressed, whereas oxidation of [1-(14)C]pyruvate was not changed as a result of exercise. These results suggest that the decrease in fatty acid oxidation may be related to aberrations in the oxidation of acetyl-CoA. The changes in fatty acid oxidation that were observed, which are at variance with what is reported to occur with training, may have resulted from increased fragility of muscle mitochondria as a result of exercise. This increased fragility may render the mitochondria more susceptible to experimental manipulations in vitro and a subsequent loss of normal function.
体外研究了力竭运动对大鼠肝脏和肌肉氧化脂肪酸能力的影响。由于力竭,肝脏制剂中脂肪酸的氧化速率显著提高。同时,力竭大鼠血浆中β-羟基丁酸的浓度升高,这表明体内脂肪酸的氧化也有所增加。这些发现与训练导致脂肪酸氧化增加的发现相似。在肌肉中,匀浆和分离的线粒体对棕榈酸、棕榈酰肉碱和β-羟基丁酸的氧化因运动而受到抑制。尽管肌肉制剂的氧化能力下降,但运动后几种β-氧化酶的活性要么增加,要么不变,这表明脂肪酸氧化的降低可能与β-氧化过程的改变无关。进一步的研究表明,运动后肌肉对[2-(14)C]丙酮酸的氧化受到抑制,而对[1-(14)C]丙酮酸的氧化没有变化。这些结果表明,脂肪酸氧化的降低可能与乙酰辅酶A氧化异常有关。观察到的脂肪酸氧化变化与训练时报道的情况不同,可能是由于运动导致肌肉线粒体脆性增加所致。这种增加的脆性可能使线粒体在体外更容易受到实验操作的影响,并随后丧失正常功能。