Ligand-binding characteristics of CYP51 Mycobacterium tuberculosis in relation to marine steroid compounds

Abstract

CYP51 steroid-14α-demethylases are members of a large superfamily of cytochrome P450 enzymes found in all kingdoms of living organisms, and catalyze the 14α-demethylation reaction of a number of natural steroids, including lanosterol, obtusifoliol, and 24,25-dihydrolanosterol. CYP51 are important components of the eukaryotic steroid biosynthetic chain, and thus represent one of the main targets for antifungal therapy. A 14α-demethylase CYP51 homologous gene has also been found in the genome of Mycobacterium tuberculosis. At the same time, M. tuberculosis lacks the de novo pathway for steroid biosynthesis. Conservation of CYP51 among the Mycobacterium genus and colocalization in the genome with 3Fe-4S ferredoxin Rv0763c, which maintains its catalytic activity in vitro, may indirectly indicate the involvement of MTCYP51 in a biochemical process important for mycobacteria. In order to characterize the specificity of the MTCYP51 active site to various compounds of isoprenoid nature, we obtained a highly purified MTCYP51 and, using spectrophotometric titration and surface plasmon resonance methods, studied the interaction of MTCYP51 with steroids from marine organisms obtained in the Pacific Institute of Bioorganic Chemistry of the Far Eastern Branch of the Russian Academy of Sciences. The investigated compounds represent a wide range of evolutionarily ancient isoprenoids. The results showed that MTCYP51 is able to bind structurally diverse steroid derivatives in the active site. The conducted studies suggest the biological role of MTCYP51 for pathogenic mycobacteria, which consists in the binding and possible metabolism of exogenous bioregulatory isoprenoids in vivo.