Siegl A M, Smith J B, Silver M J, Nicolaou K C, Ahern D
J Clin Invest. 1979 Feb;63(2):215-20. doi: 10.1172/JCI109292.
Prostacyclin (PGI(2)) is the most potent, naturally occurring inhibitor of platelet aggregation known. To determine whether PGI(2) is bound by platelets, high specific activity [9-(3)H]PGI(2) was synthesized by iodination and subsequent base treatment of the labeled precursor [9-(3)H]prostaglandin (PG)F(2alpha) methyl ester. Binding experiments were performed at room temperature with normal citrated human platelet-rich plasma that contained [(14)C]sucrose or [(14)C]PGF(1alpha) as an internal marker for the extracellular space. Binding of [(3)H]PGI(2) plateaued within 2 min and this bond radioactivity could be displaced rapidly by excess nonradioactive PGI(2). Scatchard analysis of concentration-dependent binding yielded a hyperbolic plot which appeared to be caused by the existence of two classes of binding sites. The higher affinity class has a dissociation constant of 12.1+/-2.7 nM and a capacity of 93 (+/-21)sites per platelet. The lower affinity class had a dissociation constant of 0.909+/-.236 muM and a capacity of 2,700+/-700 sites per platelet. The relative ability of PGI(2), PGE(1), PGE(2), and 6-keto-PGF(1alpha) to displace [(3)H]PGI(2) initially bound to the higher affinity class of sites were 100:5:<0.3: <0.3. These relative abilities parallel the relative potencies of these compounds as inhibitors of ADP-induced platelet aggregation in vitro. However PGD(2), which is more potent than PGE(1) as an inhibitor of aggregation, did not displace bound [(3)H]PGI(2). The higher affinity binding site for PGI(2) appears to be the specific receptor through which PGI(2) exerts its effect on platelets.
前列环素(PGI₂)是已知最有效的天然血小板聚集抑制剂。为了确定血小板是否结合PGI₂,通过对标记前体[9-(³)H]前列腺素(PG)F₂α甲酯进行碘化及后续碱处理,合成了高比活度的[9-(³)H]PGI₂。在室温下,使用含有[(¹⁴)C]蔗糖或[(¹⁴)C]PGF₁α作为细胞外空间内部标记物的正常枸橼酸化富人类血小板血浆进行结合实验。[(³)H]PGI₂的结合在2分钟内达到平台期,且这种结合放射性可被过量的非放射性PGI₂迅速取代。对浓度依赖性结合进行Scatchard分析得到一条双曲线图,这似乎是由两类结合位点的存在所致。高亲和力类别具有12.1±2.7 nM的解离常数和每个血小板93(±21)个位点的容量。低亲和力类别具有0.909±0.236 μM的解离常数和每个血小板2700±700个位点的容量。PGI₂、PGE₁、PGE₂和6-酮-PGF₁α取代最初结合到高亲和力位点类别的[(³)H]PGI₂的相对能力分别为100:5:<0.3:<0.3。这些相对能力与这些化合物作为体外ADP诱导血小板聚集抑制剂的相对效力平行。然而,作为聚集抑制剂比PGE₁更有效的PGD₂并未取代结合的[(³)H]PGI₂。PGI₂的高亲和力结合位点似乎是PGI₂对血小板发挥作用的特异性受体。