Cytochrome catalyzed reaction

The overall hydroxylation or epoxidation reaction catalyzed by cytochrome P450s involves the insertion of one oxygen atom, derived from molecular oxygen, into a C-H bond or into the Jt-system of an olefin, with the concomitant reduction of the... 

Peroxidases are found in milk and in leukocytes, platelets, and other tissues involved in eicosanoid metabolism (Chapter 23). The prosthetic group is protoheme. In the reaction catalyzed by peroxidase, hydrogen peroxide is reduced at the expense of several substances that will act as electron acceptors, such as ascorbate, quinones, and cytochrome c. The reaction catalyzed by peroxidase is complex, but the overall reaction is as follows ... 

Superoxide is formed (reaction 1) in the red blood cell by the auto-oxidation of hemoglobin to methemo-globin (approximately 3% of hemoglobin in human red blood cells has been calculated to auto-oxidize per day) in other tissues, it is formed by the action of enzymes such as cytochrome P450 reductase and xanthine oxidase. When stimulated by contact with bacteria, neutrophils exhibit a respiratory burst (see below) and produce superoxide in a reaction catalyzed by NADPH oxidase (reaction 2). Superoxide spontaneously dismu-tates to form H2O2 and O2 however, the rate of this same reaction is speeded up tremendously by the action of the enzyme superoxide dismutase (reaction 3). Hydrogen peroxide is subject to a number of fates. The enzyme catalase, present in many types of cells, converts... 

Hydroxylation is the chief reaction involved in phase 1. The responsible enzymes are called monooxygenases or cytochrome P450s the human genome encodes at least 14 families of these enzymes. Estimates of the number of distinct cytochrome P450s in human tissues range from approximately 35 to 60. The reaction catalyzed by a monooxygenase (cytochrome P450) is as follows ... 

Cytochrome P450 is considered the most versatile biocatalyst known. The actual reaction mechanism is complex and has been briefly described previously (Figure 11-6). It has been shown by the use of that one atom of oxygen enters R—OH and one atom enters water. This dual fate of the oxygen accounts for the former naming of monooxygenases as mixed-function oxidases. The reaction catalyzed by cytochrome P450 can also be represented as follows ... 

Cytochrome P450s catalyze reactions that introduce one atom of oxygen derived from molecular oxygen into the substrate, yielding a hydroxylated product. NADPH and NADPH-cytochrome P450 reductase are involved in the complex reaction mechanism. 

Attention has been directed to the reactions catalyzed by cytochrome P450s that bring about important reactions leading to the loss of angular methyl groups at C-10 (with concomitant aromatiza-tion of ring A) and C-14, and the C-17 -COCHj side chain. These reactions are discussed further in Chapter 3, Part 1. The transformations of steroids and their precursor lanosterol have been extensively... 

It should be mentioned that the MP0Fe(II)02 intermediate is very similar to the analogous hydroxylating species of cytochrome P450. Thus, the participation of hydroxyl radicals in the reactions catalyzed by peroxidases remains questionable. 

Fig. 10.3 Reaction catalyzed by the cytochrome P-450-dependent oxidase berbamunine synthase (CYP80A1). This enzyme creates a branchpoint in the (5)-reticuline biosynthetic pathway to form the bisbenzylisoquinoline alkaloids.

A methodology that has turned out to be a very powerful tool in trying to unravel the intricacies of the mechanism of cytochrome P450-catalyzed oxidation reactions has been the use of deuterium isotope effects. The use of intramolecular deuterium isotope effects have been particularly important in this regard as will be described in chapter 4 where a number of such studies are presented. But, before describing the specific technique that intramolecular isotope effect studies entail, a quick mini review on the nature of deuterium isotope effects is probably in order. 

Nelson SD, Trager WF. The use of deuterium isotope effects to probe the active site properties, mechanism of cytochrome P450-catalyzed reactions, and mechanisms of metabolically dependent toxicity. Drug Metab Dispos 2003 31(12) 1481—1498. 

Since the two-spin state forms can lead to different products, the products obtained will be a mixture that reflects the initial fractionation of the reaction between the two-spin states. The fractionation in turn is a reflection of the interplay and the probability of cross-over between the two-spin states (8). Thus, the two-state reactivity paradigm resolves the dilemma of whether a radical recombination or a direct insertion mechanism governs cytochrome P450-catalyzed hydroxylation actually they are both involved and the degree to which either is expressed depends upon the specific substrate hydroxylated and the specific enzyme. 

Gorsky LD, Koop DR, Coon MJ. On the stoichiometry of the oxidase and monooxygenase reactions catalyzed by liver microsomal cytochrome P-450. Products of oxygen reduction. J Biol Chem 1984 259(11) 6812-6817. 

The phase-I metabolism of bambuterol is complex and involves both oxidation and hydrolysis. In human plasma, hydrolysis rapidly yields the monocarbamate metabolite, and then, slowly, terbutaline [164a], The reaction is catalyzed mainly by the nonspecific cholinesterase (EC 3.1.1.8) found in plasma [166]. In addition, cytochrome P450 catalyzed hydroxylation of an... 

The pharmacokinetic implications of these findings are not straightforward. One important factor that must also be considered is hepatic extraction, which is higher for lovastatin than for its hydroxy acid metabolite [188], Some lactones are useful prodrugs of HMG-CoA reductase inhibitors due to this organ selectivity coupled with the efficiency of enzymatic hydrolysis. However, other factors may also influence the therapeutic response, in particular the extent and rate of metabolic reactions that compete with or follow hydrolysis, e.g., cytochrome P450 catalyzed oxidations, /3-oxidation, and tau-... 

Fig. 9.6. Postulated mechanisms in the cytochrome P450 catalyzed reductive denitration of organic nitrates. Pathway a shows the hypothetical mechanism for the reduction of organic nitrates to organic nitrites, whereas Pathway b presents the same reaction for organic nitrites.

These and other interesting results allow quantitative insight into the rate of breakdown of N-(hydroxymethyl) compounds (i.e., carbinolamines (hemi-aminals)), the reaction mechanisms of which we examined in Sect. 8.7.3 (see, in particular, Fig. 8.20) [80 - 82], These carbinolamines, we recall, are major metabolic intermediates in oxidative N-dealkylation reactions resulting from cytochrome P450 catalyzed hydroxylation of the C-atom adjacent to the... 

In contrast to the above benzonitriles, 2-methylbenzonitrile (11.88) did undergo cyano hydrolysis, but by a very indirect route involving cytochrome P450 catalyzed hydroxylation of the 2-Me group to form 2-(hydroxyme-thyl)benzonitrile (11.89), followed by intramolecular nucleophilic addition. The cyclization reaction yielded an unstable imino ether derivative (11.90), which hydrolyzes to phthalide (11.91). The conversion of 2-(hydroxyme-thyl)benzonitrile to phthalide followed first-order kinetics with a f1/2 value of 2.8 h at pH 7.4 and 37° [124],... 

J. L. Boucher, M. Delaforge, D. Mansuy, Dehydration of Alkyl- and Arylaldoximes as a New Cytochrome P450-Catalyzed Reaction Mechanism and Stereochemical Characteristics , Biochemistry 1994, 33, 7811. 7818. 

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