Functional Implications of a Newly Characterized Pathway of 11,12-Epoxyeicosatrienoic Acid Metabolism in Arterial Smooth Muscle

Abstract

Epoxyeicosatrienoic acids (EETs) are potent vasodilators derived from cytochrome P-450 metabolism of arachidonic acid. The rapid conversion of EETs to their corresponding dihydroxyeicosatrienoic acids (DHETs) has been proposed as a process whereby EETs are rendered biologically inactive. However, the vascular metabolism of EETs and the vasoactivities of EET metabolites have not been extensively studied. Accordingly, 11,12-EET metabolism was characterized in porcine aortic smooth muscle cells. The cells converted [³H]11,12-EET to 11,12-DHET and to a newly identified metabolite, 7,8-dihydroxy-hexadecadienoic acid (DHHD). 11,12-DHET accumulation in the medium reached a maximum in 2 to 4 hours and then declined, whereas 7,8-DHHD accumulation increased continuously and exceeded the amount of 11,12-DHET by 8 hours. [³H]11,12-EET conversion to radiolabeled 7,8-DHHD was reduced in the presence of unlabeled 11,12-DHET, indicating that 11,12-DHET is an intermediate in the conversion of 11,12-EET to 7,8-DHHD. This is consistent with a pathway whereby 11,12-EET is converted by an epoxide hydrolase to 11,12-DHET, which then undergoes two β-oxidations to form 7,8-DHHD. In porcine coronary artery rings contracted with a thromboxane mimetic, 11,12-DHET produced relaxation similar in magnitude to that produced by 11,12-EET (77% versus 64% relaxation at 5 μmol/L, respectively). 7,8-DHHD also produced vasorelaxation. Thus, the vasoactivity of 11,12-EET is not eliminated by conversion to 11,12-DHET and 7,8-DHHD. These results suggest that 11,12-DHET and its metabolite, 7,8-DHHD, may contribute to the regulation of vascular tone in the porcine coronary artery and possibly other vascular tissues.