Mootha 1997 Am J Physiol

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Mootha VK, Arai AE, Balaban RS (1997) Maximum oxidative phosphorylation capacity of the mammalian heart. Am J Physiol 272:H769-775.

» PMID: 9124437 Open Access

Mootha VK, Arai AE, Balaban RS (1997) Am J Physiol

Abstract: It is difficult to estimate the maximum in vivo aerobic ATP production rate of the intact heart independent of limitations imposed by blood flow, oxygen delivery, and maximum mechanical power. This value is critical for establishing the kinetic parameters that control oxidative phosphorylation, as well as for providing insights into the limits of myocardial performance. In this study, the maximum ADP-P(i)-driven heart mitochondrial respiratory rate (MV(O2 mito)) was determined with saturating levels of oxygen, substrates, and cofactors at 37 degrees C. These rates were normalized to cytochrome alpha1 alpha3 (cytochrome oxidase; Cyt a) content. To extrapolate this rate to the intact heart, the Cyt a content of the myocardium (nmol Cyt a/g wet wt myocardium) was determined in the same hearts. The maximum ADP-P(i)-driven mitochondrial respiratory rates were 676 +/- 31 and 665 +/- 65 nmol O2 x min(-1) x nmol Cyt a(-1) in the dog and pig, respectively. The Cyt a content in the two species was 43.6 +/- 2.4 and 36.6 +/- 3.1 nmol Cyt a/g wet wt, respectively. With these values, the MV(O2 mito) was calculated to be 29.5 (dog) and 24.3 (pig) micromol O2 x min(-1) x g wet wt myocardium(-1). Comparison with in vivo studies shows that the exercising heart can utilize 80-90 % of its maximum oxidative capacity, implying there is little aerobic ATP production reserve in the mammalian heart.

Cited by

Gnaiger 2020 BEC MitoPathways

Gnaiger E (2020) Mitochondrial pathways and respiratory control. An introduction to OXPHOS analysis. 5th ed. Bioenerg Commun 2020.2.

Labels: MiParea: Respiration, Comparative MiP;environmental MiP 

Organism: Pig, Dog  Tissue;cell: Heart  Preparation: Intact organ, Isolated mitochondria 

Coupling state: OXPHOS 

BEC 2020.2