Yang Wenqi, Holmes Blythe B, Gopal V Raj, Kishore R V Krishna, Sangras Bhavani, Yi Xiu-Yu, Falck J R, Campbell William B
Department of Pharmacology and Toxicology, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI 53226, USA.
J Pharmacol Exp Ther. 2007 Jun;321(3):1023-31. doi: 10.1124/jpet.107.119651. Epub 2007 Feb 27.
Epoxyeicosatrienoic acids (EETs) are cytochrome P450 epoxygenase metabolites of arachidonic acid. EETs mediate numerous biological functions. In coronary arteries, they regulate vascular tone by the activation of smooth muscle large-conductance, calcium-activated potassium (BK(Ca)) channels to cause hyperpolarization and relaxation. We developed a series of 14,15-EET agonists, 14,15-EET-phenyliodosulfonamide (14,15-EET-PISA), 14,15-EET-biotinsulfonamide (14,15-EET-BSA), and 14,15-EET-benzoyldihydrocinnamide-sulfonamide (14,15-EET-BZDC-SA) as tools to characterize 14,15-EET metabolism and binding. Agonist activities of these analogs were characterized in precontraced bovine coronary arterial rings. All three analogs induced concentration-dependent relaxation and were equipotent with 14,15-EET. Relaxations to these analogs were inhibited by the BK(Ca) channel blocker iberiotoxin (100 nM), the 14,15-EET antagonist 14,15-epoxyeicosa-5(Z)-enoylmethylsulfonamide (10 muM), and abolished by 20 mM extracellular K(+). 14,15-EET-PISA is metabolized to 14,15-dihydroxyeicosatrienoyl-PISA by soluble epoxide hydrolase in bovine coronary arteries and U937 cells but not U937 cell membrane fractions. 14,15-EET-P(125)ISA binding to human U937 cell membranes was time-dependent, concentration-dependent, and saturable. The specific binding reached equilibrium by 15 min at 4 degrees C and remained unchanged up to 30 min. The estimated K(d) and B(max) were 148.3 +/- 36.4 nM and 3.3 +/- 0.5 pmol/mg protein, respectively. These data suggest that 14,15-EET-PISA, 14,15-EET-BSA, and 14,15-EET-BZDC-SA are full 14,15-EET agonists. 14,15-EET-P(125)ISA is a new radiolabeled tool to study EET metabolism and binding. Our results also provide preliminary evidence that EETs exert their biological effect through a membrane binding site/receptor.
环氧二十碳三烯酸(EETs)是花生四烯酸的细胞色素P450环氧化酶代谢产物。EETs介导多种生物学功能。在冠状动脉中,它们通过激活平滑肌大电导钙激活钾(BK(Ca))通道来调节血管张力,从而导致超极化和舒张。我们开发了一系列14,15-EET激动剂,即14,15-EET-苯基碘磺酰胺(14,15-EET-PISA)、14,15-EET-生物素磺酰胺(14,15-EET-BSA)和14,15-EET-苯甲酰二氢肉桂酰胺-磺酰胺(14,15-EET-BZDC-SA),作为表征14,15-EET代谢和结合的工具。在预先收缩的牛冠状动脉环中对这些类似物的激动剂活性进行了表征。所有这三种类似物均诱导浓度依赖性舒张,且与14,15-EET等效。对这些类似物的舒张作用被BK(Ca)通道阻滞剂iberiotoxin(100 nM)、14,15-EET拮抗剂14,15-环氧二十碳-5(Z)-烯酰甲基磺酰胺(10 μM)抑制,并被20 mM细胞外K(+)消除。14,15-EET-PISA在牛冠状动脉和U937细胞中被可溶性环氧化物水解酶代谢为14,15-二羟基二十碳三烯酰-PISA,但在U937细胞膜组分中不发生代谢。14,15-EET-P(125)ISA与人U937细胞膜的结合具有时间依赖性、浓度依赖性和饱和性。特异性结合在4℃下15分钟达到平衡,直至30分钟保持不变。估计的K(d)和B(max)分别为148.3±36.4 nM和3.3±0.5 pmol/mg蛋白质。这些数据表明14,15-EET-PISA、14,15-EET-BSA和14,15-EET-BZDC-SA是完全的14,15-EET激动剂。14,15-EET-P(125)ISA是一种研究EET代谢和结合的新型放射性标记工具。我们的结果还提供了初步证据,表明EETs通过膜结合位点/受体发挥其生物学效应。
