Yokoyama T, Kelly A B, Marzec U M, Hanson S R, Kunitada S, Harker L A
Division of Hematology and Oncology, Emory University School of Medicine, Atlanta, GA 30322, USA.
Circulation. 1995 Aug 1;92(3):485-91. doi: 10.1161/01.cir.92.3.485.
Since activated factor X (FXa) has a central role in hemostasis and thrombosis, it is an attractive target for antithrombotic strategies. Accordingly, we evaluated the relative antihemostatic and antithrombotic effects of an orally active amidinoaryl propanoic acid inhibitor of FXa, APAP, in baboons.
With a two-component thrombogenic device that induced the concurrent formation of both arterial-type platelet-rich and venous-type fibrin-rich thrombus when interposed in chronic exteriorized arteriovenous (AV) femoral shunts flowing at 40 mL/min, thrombus formation was compared for oral versus parenteral APAP by measurement of 111In-platelet deposition, 125I-fibrin accumulation, thrombotic obstruction of flow, and circulating levels of blood biochemical markers of thrombosis. The direct infusion of APAP (120 micrograms/min) into AV shunts proximal to thrombogenic devices for 1 hour achieved local drug levels of 4.3 +/- 0.4 mg/L and substantially reduced the accumulation of platelets and fibrin in the formation of venous-type fibrin-rich thrombus (P < .01) but not in the formation of platelet-rich arterial-type thrombus (P > .1). APAP was subsequently removed from plasma with plasma clearance rates of T50 alpha of 6.3 minutes and T50 beta of 99 minutes. The oral administration of APAP (50 mg/kg) produced peak plasma levels of 3.7 +/- 1.4 micrograms/mL at 30 minutes and gradually declining plasma levels over about 6 to 8 hours, with bioavailability estimated to be approximately 5% to 12%. Oral APAP decreased platelet deposition (P < .01) and fibrin accumulation (P < .05) in venous-type thrombus but failed to decrease platelet or fibrin accumulation in arterial-type thrombus (P > .1 in both cases). Oral and infused APAP prolonged the activated partial thromboplastin time and prevented thrombus-dependent elevations in plasma fibrinopeptide A, thrombin-antithrombin III complex, beta-thromboglobulin, and platelet factor 4 levels. Additionally, APAP produced dose-dependent inhibition of FXa bound to thrombus on segments of vascular graft interposed in exteriorized AV shunts for 15 minutes.
An oral synthetic antagonist of FXa, APAP, inhibits the formation of venous-type fibrin-rich thrombus by inactivating bound and soluble FXa without impairing platelet hemostatic function.
由于活化因子X(FXa)在止血和血栓形成中起核心作用,它是抗血栓形成策略的一个有吸引力的靶点。因此,我们评估了一种口服活性的FXa脒基芳基丙酸抑制剂APAP在狒狒中的相对抗止血和抗血栓形成作用。
使用一种双组分血栓形成装置,当插入以40 mL/min流速流动的慢性体外动静脉(AV)股静脉分流管时,可同时诱导富含血小板的动脉型血栓和富含纤维蛋白的静脉型血栓形成。通过测量111In标记血小板沉积、125I标记纤维蛋白积聚、血栓形成导致的血流阻塞以及血栓形成的血液生化标志物的循环水平,比较口服与胃肠外给予APAP时的血栓形成情况。将APAP(120微克/分钟)直接注入血栓形成装置近端的AV分流管中1小时,使局部药物水平达到4.3±0.4毫克/升,并显著减少了富含纤维蛋白的静脉型血栓形成过程中血小板和纤维蛋白的积聚(P<.01),但对富含血小板的动脉型血栓形成没有影响(P>.1)。随后,APAP从血浆中清除,T50α的血浆清除率为6.3分钟,T50β为99分钟。口服APAP(50毫克/千克)在30分钟时产生的血浆峰值水平为3.7±1.4微克/毫升,血浆水平在约6至8小时内逐渐下降,生物利用度估计约为5%至12%。口服APAP可减少静脉型血栓中的血小板沉积(P<.01)和纤维蛋白积聚(P<.05),但未能减少动脉型血栓中的血小板或纤维蛋白积聚(两种情况均P>.1)。口服和注入的APAP均可延长活化部分凝血活酶时间,并防止血栓形成依赖的血浆纤维蛋白肽A、凝血酶 - 抗凝血酶III复合物、β - 血小板球蛋白和血小板因子4水平升高。此外,APAP对插入体外AV分流管中15分钟的血管移植物段上与血栓结合的FXa产生剂量依赖性抑制作用。
FXa的口服合成拮抗剂APAP通过使结合的和可溶性FXa失活来抑制富含纤维蛋白的静脉型血栓形成,而不损害血小板的止血功能。
