Stricker R B, Wong D, Shiu D T, Reyes P T, Shuman M A
Blood. 1986 Jul;68(1):275-80.
Tissue plasminogen activator (TPA) converts plasminogen to plasmin within the fibrin clot, thus localizing activation of fibrinolysis. To determine the extent to which platelets promote activation of plasminogen by TPA, we studied the interaction of TPA and plasminogen with unstimulated platelets. Normal washed platelets incubated in the presence of physiologic concentrations of plasminogen (180 micrograms/mL) and TPA (20 ng/mL) failed to generate plasmin activity. In contrast, incubation of platelets with TPA concentrations achieved during thrombolytic therapy (40 to 800 ng/mL) produced a tenfold to 50-fold increase in plasmin activity. After exposure to plasminogen and 200 ng/mL of TPA for one hour, platelets failed to agglutinate in the presence of ristocetin. Incubation of platelets suspended in autologous plasma with 400 ng/mL of TPA for one hour also inhibited ristocetin-induced agglutination. Exposure of platelets to plasminogen and increasing concentrations of TPA correlated with a decrease in glycoprotein Ib (GPIb) and an increase in glycocalicin, as shown by immunoblotting. The glycoprotein IIb/IIIa (GPIIb/IIIa) complex and a 250,000-dalton protein also disappeared from washed platelets after incubation with plasminogen and 200 ng/mL of TPA for one hour. These platelets failed to aggregate in the presence of adenosine diphosphate (ADP) or gamma thrombin, although aggregation in response to calcium ionophore A23187 and arachidonic acid remained intact. However, aggregation in response to all four agonists was normal when platelets were incubated with TPA in the presence of autologous plasma. Platelets from a patient with Glanzmann's thrombasthenia also generated plasmin in the presence of TPA. Hydrolysis of GPIb and inhibition of ristocetin-induced agglutination occurred to a lesser extent with these platelets than with control platelets. We conclude that platelets provide a surface for activation of plasminogen by pharmacologic amounts of TPA. Plasmin generation leads to degradation of GPIb and decreased ristocetin-induced agglutination in normal and thrombasthenic platelets, as well as degradation of GPIIb/IIIa in normal washed platelets and inhibition of ADP and gamma thrombin-induced aggregation. These findings suggest that pharmacologic concentrations of TPA may cause platelet dysfunction due to plasmin generation on the platelet surface.
组织型纤溶酶原激活剂(TPA)可在纤维蛋白凝块内将纤溶酶原转化为纤溶酶,从而使纤维蛋白溶解的激活局限于局部。为了确定血小板在多大程度上促进TPA对纤溶酶原的激活,我们研究了TPA和纤溶酶原与未刺激血小板的相互作用。在生理浓度的纤溶酶原(180微克/毫升)和TPA(20纳克/毫升)存在下孵育的正常洗涤血小板未能产生纤溶酶活性。相比之下,用溶栓治疗期间达到的TPA浓度(40至800纳克/毫升)孵育血小板,可使纤溶酶活性增加10倍至50倍。在暴露于纤溶酶原和200纳克/毫升的TPA一小时后,血小板在瑞斯托霉素存在下不能凝集。将悬浮于自体血浆中的血小板与400纳克/毫升的TPA孵育一小时也可抑制瑞斯托霉素诱导的凝集。如免疫印迹所示,血小板暴露于纤溶酶原和浓度不断增加的TPA与糖蛋白Ib(GPIb)减少和糖萼蛋白增加相关。在与纤溶酶原和200纳克/毫升的TPA孵育一小时后,糖蛋白IIb/IIIa(GPIIb/IIIa)复合物和一种250,000道尔顿的蛋白质也从洗涤后的血小板中消失。这些血小板在二磷酸腺苷(ADP)或γ凝血酶存在下不能聚集,尽管对钙离子载体A23187和花生四烯酸的聚集反应仍然正常。然而,当血小板在自体血浆存在下与TPA孵育时,对所有四种激动剂的聚集反应均正常。来自一名Glanzmann血小板无力症患者的血小板在TPA存在下也能产生纤溶酶。与对照血小板相比,这些血小板对GPIb的水解和对瑞斯托霉素诱导凝集的抑制程度较小。我们得出结论,血小板为药理剂量的TPA激活纤溶酶原提供了一个表面。纤溶酶的产生导致正常和血小板无力症血小板中GPIb降解以及瑞斯托霉素诱导的凝集减少,同时导致正常洗涤血小板中GPIIb/IIIa降解以及ADP和γ凝血酶诱导的聚集受到抑制。这些发现表明,药理浓度的TPA可能由于血小板表面产生纤溶酶而导致血小板功能障碍。
