Multiple Mechanisms and Multiple Oxidants in P450-catalyzed Hydroxylations

Overview

Journal Arch Biochem Biophys

Publisher Elsevier

Specialties Biochemistry
Biophysics

Date 2002 Dec 5

PMID 12464246

Citations 30

Authors

Martin Newcomb

Paul F Hollenberg

Minor J Coon

Affiliations

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Abstract

Cytochrome P450 enzymes catalyze a number of oxidations in nature including the difficult hydroxylations of unactivated positions in an alkyl group. The consensus view of the hydroxylation reaction 10 years ago was that a high valent iron-oxo species abstracts a hydrogen atom from the alkyl group to give a radical that subsequently displaces the hydroxy group from iron in a homolytic substitution reaction (hydrogen abstraction-oxygen rebound). More recent mechanistic studies, as summarized in this review, indicated that the cytochrome P450-catalyzed "hydroxylation reaction" is complex, involving multiple mechanisms and multiple oxidants. In addition to the iron-oxo species, another electrophilic oxidant apparently exists, either the hydroperoxo-iron intermediate that precedes iron-oxo or iron-complexed hydrogen peroxide formed by protonation of the hydroperoxo-iron species on the proximal oxygen. The other electrophilic oxidant appears to react by insertion of OH(+) into a C-H bond to give a protonated alcohol. Computational work has suggested that iron-oxo can react through multiple spin states, a low-spin ensemble that reacts by insertion of oxygen, and a high-spin ensemble that reacts by hydrogen atom abstraction to give a radical.

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