Schulte P M, Moyes C D, Hochachka P W
Department of Zoology, University of British Columbia, Vancouver, Canada.
J Exp Biol. 1992 May;166:181-95. doi: 10.1242/jeb.166.1.181.
Purine nucleotides (ATP, ADP, AMP, IMP), creatine, phosphocreatine, lactate, pyruvate and glycogen were measured in rainbow trout (Oncorhynchus mykiss) white muscle following exercise to exhaustion. Estimates of intracellular pH permitted calculation of free concentrations of nucleotides ([nucleotide]f) required for most models of control of energy metabolism. Creatine charge, [PCr]/([PCr]+[Cr]), fell from 0.49 +/- 0.05 (mean +/- S.E.M.) to 0.08 +/- 0.02 with exercise but recovered completely by the first sample (2 h). Although [ATP] declined to 24% of resting levels and recovered very slowly, RATP, [ATP]/([ATP]+[ADP]f+[AMP]f), and energy charge, EC, ([ATP]+0.5[ADP]f)/([ATP]+[ADP]f+[AMP]f), recovered as quickly as creatine charge. Changes in [IMP] mirrored those in [ATP], suggesting that AMP deaminase is responsible for maintaining RATP and EC. Recovery of carbon status was much slower than recovery of energy status. Lactate increased from 4 mumol g-1 at rest to 40 mumol g-1 at exhaustion and did not recover for more than 8 h. Glycogen depletion and resynthesis followed a similar time course. During the early stages of recovery, calculated [ADP]f declined by more than 10-fold relative to the resting values. The resulting high [ATP]/[ADP]f ratios may limit the rate at which white muscle mitochondria can produce ATP to fuel glycogenesis in situ. It is postulated that the high [ATP]/[ADP]f ratios are required to drive pyruvate kinase in the reverse direction for glyconeogenesis in recovery.
对虹鳟(Oncorhynchus mykiss)白肌进行力竭运动后,测定了其中的嘌呤核苷酸(ATP、ADP、AMP、IMP)、肌酸、磷酸肌酸、乳酸、丙酮酸和糖原。通过估算细胞内pH值,可计算出能量代谢控制的大多数模型所需的核苷酸游离浓度([核苷酸]f)。肌酸电荷,即[PCr]/([PCr]+[Cr]),运动时从0.49±0.05(平均值±标准误)降至0.08±0.02,但在第一个样本采集时(2小时)已完全恢复。尽管[ATP]降至静息水平的24%且恢复非常缓慢,但RATP([ATP]/([ATP]+[ADP]f+[AMP]f))和能量电荷EC(([ATP]+0.5[ADP]f)/([ATP]+[ADP]f+[AMP]f))的恢复速度与肌酸电荷一样快。[IMP]的变化与[ATP]的变化相似,表明AMP脱氨酶负责维持RATP和EC。碳状态的恢复比能量状态的恢复要慢得多。乳酸从静息时的4μmol g-1增加到力竭时的40μmol g-1,且超过8小时未恢复。糖原的消耗和再合成遵循相似的时间进程。在恢复的早期阶段,计算得出的[ADP]f相对于静息值下降了10倍以上。由此产生的高[ATP]/[ADP]f比值可能会限制白肌线粒体产生ATP以原位促进糖原合成的速率。据推测,恢复过程中需要高[ATP]/[ADP]f比值来驱动丙酮酸激酶逆向反应以进行糖异生。
