Joseph Solien scite author profile

An apparent discrepancy arises about the role of calcium on the rates of oxygen consumption by mitochondria: mitochondrial calcium increases the rate of oxygen consumption because of the activation of calcium-activated dehydrogenases, and by activating mitochondrial nitric oxide synthase (mtNOS), decreases the rates of oxygen consumption because nitric oxide is a competitive inhibitor of cytochrome oxidase. To this end, the rates of oxygen consumption and nitric oxide production were followed in isolated rat liver mitochondria in the presence of either L-Arg (to sustain a mtNOS activity) or N(G)-monomethyl-L-Arg (NMMA, a competitive inhibitor of mtNOS) under State 3 conditions. In the presence of NMMA, the rates of State 3 oxygen consumption exhibited a K(0.5) of 0.16 microM intramitochondrial free calcium, agreeing with those required for the activation of the Krebs cycle. By plotting the difference between the rates of oxygen consumption in State 3 with L-Arg and with NMMA at various calcium concentrations, a K(0.5) of 1.2 microM intramitochondrial free calcium was obtained, similar to the K(0.5) (0.9 microM) of the dependence of the rate of nitric oxide production on calcium concentrations. The activation of dehydrogenases, followed by the activation of mtNOS, would lead to the modulation of the Krebs cycle activity by the modulation of nitric oxide on the respiratory rates. This would ensue in changes in the NADH/NAD and ATP/ADP ratios, which would influence the rate of the cycle and the oxygen diffusion.

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Mitochondrial Nitric‐oxide Synthase: Role in Pathophysiology

Haynes

Elfering

Squires

et al. 2003

IUBMB Life

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SummaryThe biochemistry of the mitochondrial production of nitric oxide is reviewed to gain insight into the basic role of this radical in mitochondrial and cellular oxidative metabolism. The mitochondrial production of nitric oxide is catalyzed by a nitric-oxide synthase (mtNOS). This enzyme has the same cofactor and substrate requirements as other constitutive nitric-oxide synthases. Its occurrence was demonstrated in various mitochondrial preparations from different organs and species using diverse approaches (oxidation of oxymyoglobin, electron paramagnetic resonance in conjunction with spin trap, radiolabeled L-arginine, immunohistochemistry, nitric-oxide electrode). MtNOS has been identified as the alpha isoform of nNOS, acylated at a Thr or Ser residue, and phosphorylated at the C-terminal end. Endogenous nitric oxide reversibly inhibits oxygen consumption and ATP synthesis by competitive inhibition of cytochrome oxidase. Nitric oxide is the first molecule that fulfills the requirement for a cytochrome oxidase activity modulator: it is a competitive inhibitor, produced endogenously at a fair rate near the target site, at concentrations high enough to exhibit an inhibitory effect on cytochrome oxidase. The role of the mitochondrial nitric oxide production is discussed in terms of the physiological (modulating oxygen gradients into tissues) and pathological (abrogation of oxygen gradient modification, apoptosis, protein nitrative/oxidative stress) implications. IUBMB Life, 55: 599-603, 2003

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Differential requirements of calcium for oxoglutarate dehydrogenase and mitochondrial nitric-oxide synthase under hypoxia: Impact on the regulation of mitochondrial oxygen consumption

Solien

Haynes

Giulivi

2005

Comparative Biochemistry and Physiology Part A: Molecular &

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Improving End-of-Life Quality Through the Implementation and Testing of a Ketamine Protocol for Reduction of Depression and Pain (TH308A)

Shea

Pucko²,

Koon³

et al. 2018

Journal of Pain and Symptom Management

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Joseph Solien

Role of calcium signaling in the activation of mitochondrial nitric oxide synthase and citric acid cycle

Mitochondrial Nitric‐oxide Synthase: Role in Pathophysiology

Differential requirements of calcium for oxoglutarate dehydrogenase and mitochondrial nitric-oxide synthase under hypoxia: Impact on the regulation of mitochondrial oxygen consumption

Improving End-of-Life Quality Through the Implementation and Testing of a Ketamine Protocol for Reduction of Depression and Pain (TH308A)

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