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1,2-Hydrogenation and Transhydrogenation Catalyzed by 3-Ketosteroid Δ 1 -Dehydrogenase from Sterolibacterium denitrificans -Kinetics, Isotope Labelling and QM:MM Modelling Studies.

Agnieszka M WojtkiewiczMichał GlanowskiPiotr WaligórskiTomasz JaneczkoMaciej Szaleniec
Published in: International journal of molecular sciences (2022)
Bacteria and fungi that are able to metabolize steroids express 3-ketosteroid-Δ 1 -dehydrogenases (KstDs). KstDs such as AcmB form Sterolibacterium denitrificans Chol-1 catalyze the enantioselective 1α,2β-dehydrogenation of steroids to their desaturated analogues, e.g., the formation of 1,4-androstadiene-3,17-dione (ADD) from 4-androsten-3,17-dione (AD). The reaction catalyzed by KstD can be reversed if the appropriate electron donor, such as benzyl viologen radical cation, is present. Furthermore, KstDs can also catalyze transhydrogenation, which is the transfer of H atoms between 3-ketosteroids and 1-dehydrosteroids. In this paper, we showed that AcmB exhibits lower pH optima for hydrogenation and dehydrogenation by 3.5-4 pH units than those observed for KstD from Nocardia corallina. We confirmed the enantiospecificity of 1α,2β-hydrogenation and 1α,2β-transhydrogenation catalyzed by AcmB and showed that, under acidic pH conditions, deuterons are introduced not only at 2β but also at the 1α position. We observed a higher degree of H/D exchange at Y363, which activates the C2-H bond, compared to that at FAD, which is responsible for redox at the C1 position. Furthermore, for the first time, we observed the introduction of the third deuteron into the steroid core. This effect was explained through a combination of LC-MS experiments and QM:MM modelling, and we attribute it to a decrease in the enantioselectivity of C2-H activation upon the deuteration of the 2β position. The increase in the activation barrier resulting from isotopic substitution increases the chance of the formation of d 3 -substituted 3-ketosteroids. Finally, we demonstrate a method for the synthesis of 3-ketosteroids chirally deuterated at 1α,2β positions, obtaining 1α,2β-d 2 -4-androsten-3,17-dione with a 51% yield (8.61 mg).
Keyphrases
  • room temperature
  • electron transfer
  • ionic liquid
  • molecular docking
  • mass spectrometry
  • gas chromatography
  • molecular dynamics simulations
  • solid phase extraction
  • simultaneous determination