ADMET and DMPK, Vol. 7 No. 4, 2019.
Original scientific paper
https://doi.org/10.5599/admet.729
Induced fit for cytochrome P450 3A4 based on molecular dynamics
Israel Quiroga
; Faculty of Chemical Sciences, Benemérita Universidad Autónoma de Puebla, Puebla, Pue., Mexico
Thomas Scior
; Faculty of Chemical Sciences, Benemérita Universidad Autónoma de Puebla, Puebla, Pue., Mexico
Abstract
The present study aims at numerically describing to what extent substrate - enzyme complexes in solution may change over time as a natural process of conformational changes for a liganded enzyme in comparison to those movements which occur independently from substrate interaction, i.e. without a ligand. To this end, we selected structurally known pairs of liganded / unliganded CYP450 3A4 enzymes with different geometries hinting at induced fit events. We carried out molecular dynamics simulations (MD) comparing the trajectories in a “cross-over” protocol: (i) we added the ligand to the unliganded crystal form which should adopt geometries similar to the known geometry of the liganded crystal structure during MD, and – conversely – (ii) we removed the bound ligand form the known liganded complex to test if a geometry similar to the known unliganded (apo-) form can be adopted during MD. To compare continues changes we measured root means square deviations and frequencies. Results for case (i) hint at larger conformational changes required for accepting the substrate during its approach to final position – in contrast to case (ii) when mobility is fairly reduced by ligand binding (strain energy). In conclusion, a larger conformational sampling prior to ligand binding and the freezing-in (rigidity) of conformations for bound ligands can be interpreted as two conditions linked to induced-fit.
Keywords
Drug metabolism; cytochrome P450; Cyp3A4; conformational selection; substrate selectivity; docking; RMSD, RMSF
Hrčak ID:
229488
URI
Publication date:
11.12.2019.
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