Optical annealing of peroxo-ferric intermediates in CYP17A1 and product formation.

Ilia G. Denisov, Yelena V. Grinkova, Stephen G. Sligar

Research output: Contribution to journalArticlepeer-review

Abstract

Human cytochrome P450 CYP17A1 catalyzes the hydroxylation of pregnenolone and progesterone at the C17 position, with subsequent C17-C20 bond scission, to form dehydroepiandrosterone and androstenedione respectively. The first hydroxylation reaction is faster in H2O than in D2O, while the second carbon‑carbon bond scission event demonstrates an inverse solvent isotope effect, which is more pronounced for 17-hydroxy pregnenolone. In order to better understand the cause of this difference, we compared the optical absorption spectra of oxygenated CYP17A1 with the four substrates (pregnenolone, progesterone, 17-hydroxy pregnenolone and 17-hydroxy progesterone) in both H2O and D2O. We also studied the temperature-dependent decay of the peroxo-ferric and hydroperoxo-ferric intermediates generated by cryoradiolysis of the corresponding oxygenated heme proteins at 77 K. For both pregnenolone and 17-hydroxypregnenolone, annealing of the peroxo-intermediates was observed at lower temperatures in H2O than in D2O. In contrast, no solvent isotope effect was detected when progesterone or 17-hydroxyprogesterone were used as substrates. These differences are attributed to their different positioning in the P450 active site with respect to the heme bound peroxo (Fe-OO) moiety, which is in agreement with earlier structural and spectroscopic investigations. Analysis of the samples run in both H2O and in D2O, where 17-hydroxyprogesterone is the substrate, demonstrated significant (∼25%) yield of androstenedione product relative to the oxygenated starting material.

Original languageEnglish (US)
Article number112701
JournalJournal of Inorganic Biochemistry
Volume260
DOIs
StatePublished - Nov 2024

Keywords

  • C-C bond scission
  • Cryoradiolysis
  • CYP17A1
  • Cytochrome P450
  • Solvent isotope effect
  • UV-VIS spectra

ASJC Scopus subject areas

  • Biochemistry
  • Inorganic Chemistry

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