A novel vascular EET synthase: role of CYP2C7

Abstract

We demonstrated previously that cytochrome P-450 (CYP) 2C29 is the epoxyeicosatrienoic acid (EET) synthase responsible for the EET-mediated flow/shear stress-induced dilation of vessels of female nitric oxide (NO)-deficient mice (Sun D, Yang YM, Jiang H, Wu H, Ojami C, Kaley G, Huang A. Am J Physiol Regul Integr Comp Physiol 298: R862–R869, 2010). In the present study, we aimed to identify which specific CYP isoform(s) is the source of the synthesis and release of EETs in response to stimulation by shear stress in vessels of rats. Cannulated mesenteric arteries isolated from both sexes of NG-nitro-l-arginine methyl ester (l-NAME)-treated rats were perfused with 2 and 10 dyn/cm2 shear stress, followed by collection of the perfusate to determine EET concentrations and isoforms. Shear stress stimulated release of EETs in the perfusate of female (but not male) NO-deficient vessels, associated with an EET-mediated vasodilation, in which 11,12- and 14,15-EET contributed predominantly to the responses. Rat CYP cDNA array screened a total of 32 CYP genes of mesenteric arteries, indicating a significant upregulation of CYP2C7 in female l-NAME-treated rats. Endothelial RNA and protein were extracted from intact single vessels. Expression of CYP2C7 mRNA and protein in pooled extractions of endothelial lysate was identified by PCR and Western blot analyses. Transfection of the vessels with CYP2C7 short interfering RNA eliminated the release of EETs, consequently abolishing the EET-mediated flow-induced dilation; these responses, however, were maintained in vessels transfected with nonsilencing short interfering RNA. Knockdown of endothelial CYP2C7 was confirmed by PCR and Western blot analyses. In conclusion, CYP2C7 is an endothelial EET synthase in the female rat vasculature, by which, in NO deficiency, shear stress stimulates the release of EETs to initiate vasodilation.