{Reference Type}: Journal Article
{Title}: Cryptic Cerulenin Rearrangement in Ketosynthase Covalent Inhibition.
{Author}: Jiang Z;Chen JA;Mohamed OG;Huynh J;Chen A;Tripathi A;La Clair JJ;Burkart MD;
{Journal}: J Am Chem Soc
{Volume}: 146
{Issue}: 29
{Year}: 2024 Jul 24
{Factor}: 16.383
{DOI}: 10.1021/jacs.4c05938
{Abstract}: The antibiotic cerulenin is a fungal natural product identified as a covalent inhibitor of ketosynthases within fatty acid and polyketide biosynthesis. Due to its selective and potent inhibitory activity, cerulenin has found significant utility in multidisciplinary biochemical, biomedical, and clinical studies. Although its covalent inhibition profile has been confirmed, cerulenin's mechanism has not been fully determined at a molecular level, frustrating the drug development of related analogues. Herein, we describe the use of stable isotopic tracking with NMR and MS methods to unravel the covalent mechanism of cerulenin against type II fatty acid ketosynthases. We detail the discovery of a unique C2-C3 retro-aldol bond cleavage and a structural rearrangement upon covalent inhibition of cerulenin at the active cysteine residue in E. coli type II fatty acid ketosynthases FabB and FabF.