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Title: Evaluation of the fluorescent probes Nile Red and 25-NBD-cholesterol as substrates for steroid-converting oxidoreductases using pure enzymes and microorganisms. Author: Faletrov YV, Frolova NS, Hlushko HV, Rudaya EV, Edimecheva IP, Mauersberger S, Shkumatov VM. Journal: FEBS J; 2013 Jul; 280(13):3109-19. PubMed ID: 23551929. Abstract: The fluorescent probes Nile Red (nonsteroidal dye) and 25-{N-[(7-nitrobenz-2-oxa-1,3-diazol-4-yl)-methyl]amino}-27-norcholesterol (25-NBD-cholesterol) (a cholesterol analog) were evaluated as novel substrates for steroid-converting oxidoreductases. Docking simulations with autodock showed that Nile Red fits well into the substrate-binding site of cytochrome P450 17α-hydroxylase/17,20-lyase (CYP17A1) (binding energy value of -8.3 kcal·mol⁻¹). Recombinant Saccharomyces cerevisiae and Yarrowia lipolytica, both expressing CYP17A1, were found to catalyze the conversion of Nile Red into two N-dealkylated derivatives. The conversion by the yeasts was shown to increase in the cases of coexpression of electron-donating partners of CYP17A1. The highest specific activity value (1.30 ± 0.02 min⁻¹) was achieved for the strain Y. lipolytica DC5, expressing CYP17A1 and the yeast's NADPH-cytochrome P450 reductase. The dye was also metabolized by pure CYP17A1 into the N-dealkylated derivatives, and gave a type I difference spectrum when titrated into low-spin CYP17A1. Analogously, docking simulations demonstrated that 25-NBD-cholesterol binds into the active site of the microbial cholesterol oxidase (CHOX) from Brevibacterium sterolicum (binding energy value of -5.6 kcal·mol⁻¹). The steroid was found to be converted into its 4-en-3-one derivative by CHOX (K(m) and k(cat) values were estimated to be 58.1 ± 5.9 μM and 0.66 ± 0.14 s⁻¹, respectively). The 4-en-3-one derivative was also detected as the product of 25-NBD-cholesterol oxidation with both pure microbial cholesterol dehydrogenase (CHDH) and a pathogenic bacterium, Pseudomonas aeruginosa, possessing CHOXs and CHDHs. These results provide novel opportunities for investigation of the structure-function relationships of the aforementioned oxidoreductases, which catalyze essential steps of steroid bioconversion in mammals (CYP17A1) and bacteria (CHOX and CHDH), with fluorescence-based techniques.[Abstract] [Full Text] [Related] [New Search]