Pressure-induced changes in ferric P450 2B4 (LM2) were studied as a function of benzphetamine concentration (0.05 divided by 2 mM) and state of aggregation of the hemoprotein in solution. Application of factor analysis to the spectral changes in the Soret region allowed us to resolve two particular pressure-induced processes in 2B4 oligomers. The first process was identified as the conversion of the low-spin P450 into the P420 state. At 25 degrees C it was followed by decay (bleaching) of about 50% of the newly formed P420. The second process was a pressure-induced high- to low-spin shift. Both transitions were reversible, except the hemoprotein bleaching. The amplitude of the P450-->P420 transition accounted for 67 +/- 5% of the total hemoprotein content. Furthermore, the fraction of the hemoprotein exposed to spin equilibrium was not affected by the P450-->P420 conversion and was estimated to be only about 31 +/- 5% of the total hemoprotein content. After the dissociation of the oligomers by 0.2% Triton N-101, the inhomogeneity vanished: 95% of the monomers were involved in the P450-->P420 transition (delta V degrees = -86 ml/mol) followed by intense bleaching of the hemoprotein. This agrees with our earlier observations on the reduced carbonyl complex of P450 2B4 and suggests some conformational difference between subunits in P450 LM2 oligomers. The parameters of the P450-->P420 conversion (delta V degrees = -32 ml/mol, P1/2 = 1560 bar) show no dependency on the substrate concentration. Analysis of the pressure-induced spin shift versus benzphetamine concentration shows this transition to be caused mainly by changes in the spin equilibrium of both substrate-bound (delta V degrees = -49 ml/mol) and substrate-free (delta V degrees = -21 ml/mol) hemoprotein, whereas the substrate binding step itself has a very weak pressure dependency (delta V degrees = -8 ml/mol).
Download Full PDF Version (Non-Commercial Use)