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NADPH heme proteins

Peroxynitrite reacts with heme proteins such as prostacycline synthase (PGI2), microperoxidase, and the heme thiolate protein P450 to form a ferryl nitrogen dioxide complex as an intermediate [120]. Peroxynitrite also reacts with acetaldehyde with the rate constant of 680 1 mol 1 s" 1 forming a hypothetical adduct, which is decomposed into acetate, formate, and methyl radicals [121]. The oxidation of NADH and NADPH by peroxynitrite most certainly occurs by free radical mechanism [122,123], Kirsch and de Groot [122] concluded that peroxynitrite oxidized NADH by a one-electron transfer mechanism to form NAD and superoxide ... [Pg.704]

The mechanism in hepatic cellular metabolism involves an electron transport system that functions for many drugs and chemical substances. These reactions include O-demethylation, N-demethyla-tion, hydroxylation, nitro reduction and other classical biotransformations. The electron transport system contains the heme protein, cytochrome P-450 that is reduced by NADPH via a flavoprotein, cytochrome P-450 reductase. For oxidative metabolic reactions, cytochrome P-450, in its reduced state (Fe 2), incorporates one atom of oxygen into the drug substrate and another into water. Many metabolic reductive reactions also utilize this system. In addition, there is a lipid component, phosphatidylcholine, which is associated with the electron transport and is an obligatory requirement for... [Pg.225]

THE CYPs CYPs are heme proteins (Figure 3-1). The heme iron binds oxygen in the CYP active site, where oxidation of substrates occurs. Electrons are supplied by the enzyme NADPH-cytochrome P450 oxidoreductase and its cofactor, NADPH. Metabolism of a substrate by a CYP consumes one molecule of and produces an oxidized substrate and a molecule of water. Depending on the nature of the substrate, the reaction for some CYPs is partially uncoupled, consuming more than substrate metabolized and producing activated oxygen or. The is usually converted to water by the enzyme superoxide dismutase. [Pg.45]

The existence of mitochondrial cytochrome P450 in adrenal cortex was reported originally by Harding et al (1964) and confirmed by subsequent studies. Adrenal cortical mitochondria catalyze a number of NADPH- and molecular-oxygen-dependent hydroxylation reactions that contribute to the biosynthesis of corticosteroids. The enzyme system for 11 jS-hydroxyla-tion has been isolated, and a successful reconstitution of its activity has been achieved by the interaction of three proteins, namely an NADPH-dependent flavoprotein (adrenodoxin reductase), an iron-sulfur protein (adrenodoxin), and the heme protein (cytochrome P450) that serves as the terminal oxidase for the electron transport system from NADPH to oxygen (Wang and... [Pg.131]

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See also in sourсe #XX -- [ Pg.411 ]



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Heme proteins

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