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  • Title: Metabolism of halogenated alkanes by cytochrome P450 enzymes. Aerobic oxidation versus anaerobic reduction.
    Author: Ji L, Zhang J, Liu W, de Visser SP.
    Journal: Chem Asian J; 2014 Apr; 9(4):1175-82. PubMed ID: 24501011.
    Abstract:
    The cytochromes P450 are a large class of heme-containing enzymes that catalyze a broad range of chemical reactions in biosystems, mainly through oxygen-atom transfer to substrates. A relatively unknown reaction catalyzed by the P450s, but very important for human health, is the activation of halogenated substrates, which may lead to toxicity problems. However, its catalytic mechanism is currently unknown and, therefore, we performed a detailed computational study. To gain insight into the metabolism of halogenated compounds by P450 enzymes, we have investigated the oxidative and reductive P450-mediated activation of tetra- and trichloromethane as halogenated models with density functional theory (DFT) methods. We propose an oxidative halosylation mechanism for CCl4 under aerobic conditions by Compound I of P450, which follows the typical Groves-type rebound mechanism. By contrast, the metabolism of CHCl3 occurs preferentially via an initial hydrogen-atom abstraction rather than halosylation. Kinetic isotope effect studies should, therefore, be able to distinguish the mechanistic pathways of CCl4 versus CHCl3 . We find a novel mechanism that is different from the well accepted P450 substrate activation mechanisms reported previously. Moreover, the studies highlight the substrate specific activation pathways by P450 enzymes leading to different products. These reactivity differences are rationalized using Marcus theory equations, which reproduce experimental product distributions.
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