线粒体呼吸控制。反对线粒体外磷酸化电位或[ATP]/[ADP]比值对呼吸进行调节的证据。

Mitochondrial respiratory control. Evidence against the regulation of respiration by extramitochondrial phosphorylation potentials or by [ATP]/[ADP] ratios.

作者信息

Jacobus W E, Moreadith R W, Vandegaer K M

出版信息

J Biol Chem. 1982 Mar 10;257(5):2397-402.

Abstract

To explore how mitochondria can respire at high physiological, extramitochondrial phosphorylation potentials, two series of experiments were conducted. In the first, intact rat liver mitochondria were incubated in oxygraph medium containing 5 mM succinate (+rotenone), 1.0 mM ATP, 20 mM glucose, pH 7.2, at 37 degrees C. Yeast hexokinase (0.02 to 1.0 IU) was added to establish steady state rates of respiration. Samples were removed, assayed for ATP, ADP, and Pi content, and ratios were calculated. As previously reported, low rates of respiration were observed at high phosphorylation potential ([ATP]/[ADP] x [Pi]) or [ATP]/[ADP] ratio values, and the rates of respiration increased as these values declined. In a second series of experiments, only sufficient hexokinase was added to potentially stimulate respiration to 90% of the ADP State 3 rate. At constant hexokinase, 0.35 IU, ATP (5 microM to 10.0 mM) was titrated into the medium to establish steady state rates of oxygen consumption. Under these conditions, low rates of respiration correlated with low [ATP]/[ADP] ratios and extramitochondrial phosphorylation potentials, while maximum rates of respiration were observed at high values of these ratios, the opposite of the previous experimental case. Therefore, it may be concluded that these extramitochondrial parameters per se exert little or no regulatory influence on the rates of respiration, and thus matrix ATP synthesis. In both cases, the concentrations of ADP correlated with respiratory rates. Double reciprocal plots were used to estimate the apparent KmADP for respiratory stimulation. The values are 56 microM for constant [ATP] and 15 microM at constant hexokinase. The value calculated from direct ADP pulses was 25 microM. Together, these results suggest that the most plausible explanation of respiratory control is the availability of ADP and the kinetics of its transport by the adenine nucleotide translocase, a hypothesis first proposed by Chance and Williams more than 25 years ago (Chance, B., and Williams, G. R. (1955) J. Biol. Chem. 217, 385-393).

摘要

为了探究线粒体如何在高生理状态、线粒体外磷酸化电位下进行呼吸作用，进行了两组实验。在第一组实验中，将完整的大鼠肝脏线粒体置于含有5 mM琥珀酸盐（+鱼藤酮）、1.0 mM ATP、20 mM葡萄糖、pH 7.2的氧电极介质中，于37℃孵育。加入酵母己糖激酶（0.02至1.0 IU）以建立稳定的呼吸速率。取出样品，测定ATP、ADP和Pi含量，并计算比率。如先前报道，在高磷酸化电位（[ATP]/[ADP]×[Pi]）或[ATP]/[ADP]比率值时观察到低呼吸速率，且随着这些值下降，呼吸速率增加。在第二组实验中，仅加入足以将呼吸作用刺激至ADP状态3速率的90%的己糖激酶。在己糖激酶浓度恒定为0.35 IU的情况下，将ATP（5 μM至10.0 mM）滴定到介质中以建立稳定的耗氧速率。在这些条件下，低呼吸速率与低[ATP]/[ADP]比率和线粒体外磷酸化电位相关，而在这些比率的高值时观察到最大呼吸速率，这与先前的实验情况相反。因此，可以得出结论，这些线粒体外参数本身对呼吸速率以及基质ATP合成几乎没有或没有调节影响。在两种情况下，ADP的浓度都与呼吸速率相关。使用双倒数图来估计呼吸刺激的表观KmADP。在[ATP]恒定的情况下，该值为56 μM，在己糖激酶恒定的情况下为15 μM。通过直接ADP脉冲计算得到的值为25 μM。总之，这些结果表明，对呼吸控制最合理的解释是ADP的可用性及其通过腺嘌呤核苷酸转位酶运输的动力学，这一假说是Chance和Williams在25多年前首次提出的（Chance, B., and Williams, G. R. (1955) J. Biol. Chem. 217, 385 - 393）。

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线粒体呼吸控制。反对线粒体外磷酸化电位或[ATP]/[ADP]比值对呼吸进行调节的证据。

Mitochondrial respiratory control. Evidence against the regulation of respiration by extramitochondrial phosphorylation potentials or by [ATP]/[ADP] ratios.

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