Arachidonic acid metabolism in polymorphonuclear leukocytes: unstable intermediate in formation of dihydroxy acids

Abstract

An unstable intermediate was detected in the transformation of arachidonic acid into 5,6-dihydroxyicosatetraenoic acids (two isomers) and 5,12-dihydroxyicosatetraenoic acids (three isomers) in rabbit peritoneal (glycogen-induced) polymorphonuclear leukocytes. Addition of 10 vol of methanol, ethanol, or ethylene glycol to short-term incubations (30-45 sec) led to the formation of the corresponding 12-O-alkyl derivatives of the 5,12-dihydroxy acids. The time for 50% disappearance of the intermediate (37 degrees C), as measured by formation of 5-hydroxy-12-O-methylicosatetraenoic acids (two isomers) upon trapping with methanol, was about 1 min in live cell preparations (pH 7.4) and about 4 min in water/acetone (1:1), pH 7.4. At pH 6.0 or below, the hydrolysis of the intermediate was too rapid to be measured by the method employed. Data supporting both enzymatic and nonenzymatic hydrolysis of the intermediate into dihydroxy acids are presented. Incubation of the cells with arachidonic acid under an atmosphere of 18O2 led to incorporation of 18O into the 5,6-dihydroxy acids and 5,12-dihydroxy acids only at C-5. The 5-hydroxyicosatetraenoic acid was also labeled at C-5. Considering the chemical reactivity of the intermediate and the structures of the derivatives obtained, it is proposed that the intermediate is 5(6)-oxido-7,9,11,14-icosatetraenoic acid.