Gas chromatography-mass spectrometry of cis-9,10-epoxyoctadecanoic acid (cis-EODA). II. Quantitative determination of cis-EODA in human plasma

Cytochrome P450 dependent epoxidation and non-enzymic lipid peroxidation of oleic acid (cis-9-octadecenoic acid) result in the formation of cis-9,10-epoxyoctadecanoic acid (cis-EODA). This oleic acid oxide has been identified indirectly in blood and urine of humans. Reliable concentrations of circulating cis-EODA have not been reported thus far. In the present article, we report on the first GC-tandem MS method for the accurate quantitative determination in human plasma of authentic cis-EODA as its pentafluorobenzyl (PFB) ester. cis-[9,10-2H2]-EODA (cis-d2-EODA) was synthesized by chemical epoxidation of commercially available cis-[9,10-2H2]-9-octadecenoic acid and used as an internal standard for quantification. Endogenous cis-EODA and externally added cis-[9,10-2H2]-EODA were isolated from acidified plasma samples (1 ml; pH 4.5) by solvent or solid-phase extraction, converted into their PFB esters, isolated by HPLC and quantified by selected reaction monitoring. The parent ions [M-PFB]- at mass-to-charge ratio (m/z) 297 for cis-EODA and m/z 299 for (cis-d2-EODA) were subjected to collisionally-activated dissociation and the corresponding characteristic product ions at m/z 171 and 172 were monitored. In plasma of nine healthy humans (5 females, 4 males), cis-EODA was found to be present at 47.6+/-7.4 nM (mean+/-S.D.). Plasma cis-EODA levels were statistically insignificantly different (P=0.10403, t-test) in females (51.1+/-3.4 nM) and males (43.1+/-2.2 nM). cis-EODA was identified as a considerable contamination in laboratory plastic ware and found to contribute to endogenous cis-EODA by approximately 2 nM. The present GC-tandem MS method should be useful in investigating the physiological role(s) of cis-EODA in humans.