Engineering a self-sufficient Mycobacterium tuberculosis CYP130 by gene fusion with the reductase-domain of CYP102A1 from Bacillus megaterium.

J Inorg Biochem

Division of Molecular Toxicology, Amsterdam Institute for Molecules Medicines and Systems (AIMMS), Faculty of Sciences, Vrije Universiteit, De Boelelaan 1108, 1081 HZ Amsterdam, The Netherlands. Electronic address:

Published: March 2018

CYP130 belongs to the subset of cytochrome P450s from Mycobacterium tuberculosis (Mtb) that have been structurally characterized. Despite several efforts for its functional characterization, CYP130 is still considered an orphan enzyme for which no endogenous or exogenous substrate has been identified. In addition, functional redox-partners for CYP130 have not been clearly established yet, hampering the elucidation of its physiological role. In the present study, a catalytically active fusion protein involving CYP130 and the NADPH reductase-domain of CYP102A1 from Bacillus megaterium was created. By screening a panel of known substrates of human P450s, dextromethorphan N-demethylation was identified as a reaction catalyzed by CYP130. The fusion enzyme showed higher catalytic activity, when compared to CYP130 reconstituted with a selection of non-native redox-partners. Molecular dynamics simulation studies based on the crystal structure of CYP130 revealed two primary docking poses of dextromethorphan within the active site consistent with the experimentally observed N-demethylation reaction during the entire molecular dynamics simulation. The dextromethorphan N-demethylation reaction was strongly inhibited by azole-drugs and maybe applied to identify mechanism-based inhibitors of CYP130. Furthermore, the present active CYP130-fusion protein may facilitate the identification of endogenous substrates from Mtb.

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http://dx.doi.org/10.1016/j.jinorgbio.2017.12.003DOI Listing

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