Unveiling the crucial intermediates in androgen production

Ablation of androgen production through surgery is one strategy against prostate cancer, with the current focus placed on pharmaceutical intervention to restrict androgen synthesis selectively, an endeavor that could benefit from the enhanced understanding of enzymatic mechanisms that derives from c...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2015-12, Vol.112 (52), p.15856-15861
Hauptverfasser:	Mak, Piotr J., Gregory, Michael C., Denisov, Ilia G., Sligar, Stephen G., Kincaid, James R.
Format:	Artikel
Sprache:	eng
Schlagworte:	17-alpha-Hydroxypregnenolone - chemistry 17-alpha-Hydroxypregnenolone - metabolism Androgens Androgens - chemistry Androgens - metabolism Biocatalysis Biological Sciences Biosynthetic Pathways Carbon Chemical bonds Chemical reactions Dehydroepiandrosterone - chemistry Dehydroepiandrosterone - metabolism Humans Hydrogen Bonding Hydroxylation Models, Chemical Models, Molecular Molecular Structure Physical Sciences Pregnenolone - chemistry Pregnenolone - metabolism Prostate cancer Protein Conformation Spectrophotometry - methods Steroid 17-alpha-Hydroxylase - chemistry Steroid 17-alpha-Hydroxylase - genetics Steroid 17-alpha-Hydroxylase - metabolism Substrate Specificity Temperature
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container_end_page	15861
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Mak, Piotr J. Gregory, Michael C. Denisov, Ilia G. Sligar, Stephen G. Kincaid, James R.
description	Ablation of androgen production through surgery is one strategy against prostate cancer, with the current focus placed on pharmaceutical intervention to restrict androgen synthesis selectively, an endeavor that could benefit from the enhanced understanding of enzymatic mechanisms that derives from characterization of key reaction intermediates. The multifunctional cytochrome P450 17A1 (CYP17A1) first catalyzes the typical hydroxylation of its primary substrate, pregnenolone (PREG) and then also orchestrates a remarkable C17–C20bond cleavage (lyase) reaction, converting the 17-hydroxypregnenolone initial product to dehydroepiandrosterone, a process representing the first committed step in the biosynthesis of androgens. Now, we report the capture and structural characterization of intermediates produced during this lyase step: an initial peroxo-anion intermediate, poised for nucleophilic attack on the C20position by a substrate-associated H-bond, and the crucial ferric peroxo-hemiacetal intermediate that precedes carbon–carbon (C-C) bond cleavage. These studies provide a rare glimpse at the actual structural determinants of a chemical transformation that carries profound physiological consequences.
doi_str_mv	10.1073/pnas.1519376113
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subjects	17-alpha-Hydroxypregnenolone - chemistry 17-alpha-Hydroxypregnenolone - metabolism Androgens Androgens - chemistry Androgens - metabolism Biocatalysis Biological Sciences Biosynthetic Pathways Carbon Chemical bonds Chemical reactions Dehydroepiandrosterone - chemistry Dehydroepiandrosterone - metabolism Humans Hydrogen Bonding Hydroxylation Models, Chemical Models, Molecular Molecular Structure Physical Sciences Pregnenolone - chemistry Pregnenolone - metabolism Prostate cancer Protein Conformation Spectrophotometry - methods Steroid 17-alpha-Hydroxylase - chemistry Steroid 17-alpha-Hydroxylase - genetics Steroid 17-alpha-Hydroxylase - metabolism Substrate Specificity Temperature
title	Unveiling the crucial intermediates in androgen production
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