Cysteinyl leukotriene-like metabolites are generated in retinal pigment epithelial cells through glutathionylation/reduction of an oxidatively truncated fragment of arachidonate.

γ-Hydroxyalkenals, 4-hydroxynonenal (HNE) and phospholipid esters of 4-hydroxy-8-oxooctenoic acid (HOOA-PL), are produced from the alkyl and carboxyl termini of arachidonyl phospholipids by radical-induced oxidative cleavage. Metabolism of HNE by Michael addition of glutathione (GSH) followed by reduction of the aldehyde carbonyl produces a GSH derivative of 1,4-dihydroxynonane (DHN)-GSH. Analogous biochemistry was anticipated to produce a GSH derivative of 5,8-dihydroxyoctanoic acid (DHOA-GSH) that has structural and functional similarity to the cysteinyl leukotriene (LT)C. We now report that exposure of human retinal pigment epithelial cells to CoCl, an in vitro model of hypoxia-induced oxidative stress, generates DHOA-GSH and two products of its peptidolysis, DHOA-CysGly and DHOA-Cys that resemble LTD and LTE. Identification of these metabolites was confirmed by unambiguous chemical syntheses that also provided a heavy isotope labeled quantitative standard C N-DHOA-GSH. The availability of pure samples of these arachidonate metabolites will enable assessment of their biological activities, and testing the hypothesis that øLTs promote pathological inflammation by serving as LT receptor agonists. Because LT biosynthetic enzymes, e.g., 5-lipoxygenase, are not involved in the generation of øLTs in vivo, inhibitors of LT biosynthesis, e.g., Zileuton, are not expected to prevent the generation of øLTs. On the other hand, if øLTs are leukotriene receptor agonists, then the therapeutic effects of leukotriene receptor antagonist drugs, e.g., Montelukast, may include inhibition not only of LT-induced but also øLT-induced LT receptor activation and signaling.