14(R),15(S)-环氧二碳三烯酸(14(R),15(S)-EET)受体在豚鼠单核细胞膜中的表达。

Journal of lipid mediators Pub Date : 1993-03-01
P Y Wong, K T Lin, Y T Yan, D Ahern, J Iles, S Y Shen, R K Bhatt, J R Falck
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引用次数: 0

摘要

花生四烯酸(AA)在妊娠高血压患者血管、肝脏、肾脏和尿液中的主要细胞色素P-450代谢物之一14(R),15(S)-EET的高亲和力结合位点在豚鼠单核(GPM)细胞的膜制备中被发现。通过放射性配体测定,14(R),15(S)-[3H]EET与受体位点的结合是饱和的、特异性的和可逆的。饱和结合研究的Scatchard分析得出解离常数(Kd)为5.7 x 10(-9) M,最大结合位点数(Bmax)为2.4 pmol/mg膜蛋白。结合位点的特异性是通过竞争研究确定的。14(S)、15(R)-EET和8,9-EET的Ki值分别为6.3和8.8 nM,其次是12(R)-HETE和LTD4。12(S)-HETE和5,6- eet作为放射性配体的竞争性抑制剂甚至更不有效,并且与Ki值在2至20微米之间结合。TxA2, LTB4, LTD4和PAF的受体拮抗剂无法将14(R),15(S)-[3H]EET从GPM细胞膜上的结合位点上置换。结果与报道的14,15- eet的生物学功能相吻合。鉴于其强大的生物活性,14,15- eet可能通过结合和激活其立体特异性细胞表面结合位点或受体来发挥其细胞功能。
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14(R),15(S)-epoxyeicosatrienoic acid (14(R),15(S)-EET) receptor in guinea pig mononuclear cell membranes.

A high affinity binding site for 14(R),15(S)-EET, one of the major cytochrome P-450 metabolites of arachidonic acid (AA) in blood vessels, liver, kidney and urine of patients with pregnancy-induced hypertension, has been identified in a membrane preparation from guinea pig mononuclear (GPM) cells. Using a radioligand assay, binding of 14(R),15(S)-[3H]EET to its receptor site was saturable, specific and reversible. Scatchard analysis of saturation binding studies yielded a dissociation constant (Kd) of 5.7 x 10(-9) M, and maximum number of binding sites (Bmax) of 2.4 pmol/mg membrane protein. The specificity of the binding site was determined by competition studies. 14(S),15(R)-EET and 8,9-EET had a Ki of 6.3 and 8.8 nM, respectively, followed by 12(R)-HETE and LTD4. 12(S)-HETE and 5,6-EET were even less effective as a competitive inhibitor of radioligand and binding with Ki values from 2 to 20 microM. Receptor antagonists for TxA2, LTB4, LTD4 and PAF failed to displace 14(R),15(S)-[3H]EET from its binding site on GPM cell membranes. The results correlate well with the reported biological functions of 14,15-EET. In view of its potent biological activities, 14,15-EET may exert its cellular function through the binding and activation of its stereo-specific cell surface binding sites or receptor.

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