1. Academic Validation
  2. Synthesis of six epoxyketooctadecenoic acid (EKODE) isomers, their generation from nonenzymatic oxidation of linoleic acid, and their reactivity with imidazole nucleophiles

Synthesis of six epoxyketooctadecenoic acid (EKODE) isomers, their generation from nonenzymatic oxidation of linoleic acid, and their reactivity with imidazole nucleophiles

  • J Org Chem. 2007 Dec 7;72(25):9471-80. doi: 10.1021/jo701373f.
De Lin 1 Jianye Zhang Lawrence M Sayre
Affiliations

Affiliation

  • 1 Department of Chemistry, Case Western Reserve University, Cleveland, OH 44106, USA.
Abstract

As a class of linoleic acid oxidation products, epoxyketooctadecenoic acids (EKODEs), are formed in vivo and in vitro by a free radical mechanism initiated by either enzymatic or nonenzymatic pathways. They have so far been made available in small-scale quantities, often as isomeric mixtures, from reductive decomposition of linoleic acid-derived hydroperoxides. There is major interest in these compounds owing to their highly potent biological activities and their ability to covalently modify proteins. The synthesis of six EKODE regio- and stereoisomers, two trans alpha',beta'-epoxy-alpha,beta-enones, and two trans and the two cis gamma,delta,-epoxy-alpha,beta-enones was accomplished, with the key steps being Wittig-type reactions and aldol condensations. All six EKODE isomers were confirmed by HPLC to be generated in the autoxidation of linoleic acid promoted by Fe(II)/ascorbic acid through spiking in of authentic samples. On the basis of evidence for EKODE modification of protein His residues, the reactions of Nalpha-benzoyl-L-histidine with autoxidizing linoleic acid and with the individual EKODE isomers were compared, as were the kinetics of the various EKODE reactions with imidazole nucleophiles. The structures of His-EKODE-(E)-I adducts were confirmed to reflect conjugate addition (epoxide ring remains intact) through an NMR study of the reaction of imidazole with a generic EKODE-(E)-I analog. The synthesis of the EKODE isomers makes these important molecules available for further chemical and biological evaluation.

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