Phenylalanine 393 exerts thermodynamic control over the heme of flavocytochrome P450 BM3

T. W B Ost, C. S. Miles, A. W. Munro, J. Murdoch, G. A. Reid, S. K. Chapman

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    Site-directed mutants of the phylogenetically conserved phenylalanine residue F393 were constructed in flavocytochrome P450 BM3 from Bacillus megaterium. The high degree of conservation of this residue in the P450 superfamily and its proximity to the heme (and its ligand Cys400) infers an essential role in P450 activity. Extensive kinetic and thermodynamic characterization of mutant enzymes F393A, F393H, and F393Y highlighted significant differences from wild-type P450 BM3. All enzymes expressed to high levels and contained their full complement of heme. While the reduction and subsequent treatment of the mutant P450s with carbon monoxide led to the formation of the characteristic P450 spectra in all cases, the absolute position of the Soret absorption varied across the series WT/F393Y (449 nm), F393H (445 nm), and F393A (444 nm). Steady-state turnover rates with both laurate and arachidonate showed the trend WT > F393Y ≫ F393H > F393A. Conversely, the trend in the pre-steady-state flavinto-heme electron transfer was the reverse of the steady-state scenario, with rates varying F393A > F393H ≫ F393Y ≈ wild-type. These data are consistent with the more positive substrate-free [-312 mV (F393A), -332 mV (F393H)] and substrate-bound [-151 mV (F393A), -176 mV (F393H)] reduction potentials of F393A and F393H heme domains, favoring the stabilization of the ferrous-form in the mutant P450s relative to wild-type. Elevation of the heme iron reduction potential in the F393A and F393H mutants facilitates faster electron transfer to the heme. This results in a decrease in the driving force for oxygen reduction by the ferrous heme iron, so explaining lower overall turnover of the mutant P450s. We postulate that the nature of the residue at position 393 is important in controlling the delicate equilibrium observed in P450s, whereby a tradeoff is established between the rate of heme reduction and the rate at which the ferrous heme can bind and, subsequently, reduce molecular oxygen.
    Original languageEnglish
    Pages (from-to)13421-13429
    Number of pages8
    Issue number45
    Publication statusPublished - 13 Nov 2001


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