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  • Title: Nitric oxide and mitochondrial complex IV.
    Author: Sarti P, Arese M, Bacchi A, Barone MC, Forte E, Mastronicola D, Brunori M, Giuffrè A.
    Journal: IUBMB Life; 2003; 55(10-11):605-11. PubMed ID: 14711006.
    Abstract:
    Micromolar nitric oxide (NO) rapidly (ms) inhibits cytochrome c oxidase in turnover with physiological substrates. Two reaction mechanisms have been identified leading, respectively, to formation of a nitrosyl- [a3(2+) -NO] or a nitrite- [a3(3+) -NO2-] derivative of the enzyme. In the presence of O2, the nitrosyl adduct recovers activity slowly, following NO displacement at k' approximately equal to 0.01 s(-1) (37 degrees C); the recovery of the nitrite adduct is much faster. Relevant to pathophysiology, the enzyme does not degrade NO by following the first mechanism, whereas by following the second one it promotes NO oxidation and disposal as nitrite/nitrate. The reaction between NO and cytochrome c oxidase has been investigated at different integration levels of the enzyme, including the in situ state, such as in mouse liver mitochondria or cultured human SY5Y neuroblastoma cells. The respiratory chain is inhibited by NO, either supplied exogenously or produced endogenously via the NO synthase activation. Inhibition of respiration is reversible, although it remains to be clarified whether reversibility is always full and how it depends on concentration of and time of exposure to NO. Oxygraphic measurements show that cultured cells or isolated state 4 mitochondria exposed to micromolar (or less) NO recover from NO inhibition rapidly, as if the nitrite reaction was predominant. Mitochondria in state 3 display a slightly more persistent inhibition than in state 4, possibly due to a higher accumulation of the nitrosyl adduct. Among a number of parameters that appear to control the switch over between the two mechanisms, the concentration of reductants (reduced cytochrome c) at the cytochrome c oxidase site has been proved to be the most relevant one.
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