Dropinski Jerzy, Musial Jacek, Jakiela Bogdan, Wegrzyn Wojciech, Sanak Marek, Szczeklik Andrew
Department of Medicine, Jagiellonian University School of Medicine, Krakow, Poland.
Thromb Haemost. 2005 Dec;94(6):1300-5.
Individual variability in response to clopidogrel is known but its mechanism is poorly understood. We examined the relationship between glycoprotein IIIa polymorphism P1(A1/A2) and anti-thrombotic actions of clopidogrel. Clopidogrel (75 mg/d; 2 weeks) was administered to 48 normolipemic patients with coronary artery disease. Bleeding time, thrombin generation at the site of microvascular injury, platelet function under high shear, using PFA-100 with ADP cartridge, and platelet surface activation markers (P-selectin and fibrinogen binding sites on GPIIb/IIIa complex detected by PAC-1 antibody), were studied both before and after clopidogrel treatment. Both unstimulated and low-dose (0.02 microM and 1 microM) in vitro ADP-stimulated platelets were examined. GP IIIa polymorphism was assessed by polymerase chain reaction and restriction fragment length polymorphism analysis. We identified 32 P1(A1/A1) homozygotes, 15 P1(A1/A2 heterozygotes and one P1(A2/A2) homozygote. Clopidogrel significantly prolonged bleeding time in all subjects, but this effect was greater in P1(A2 carriers (p < 0.01). Furthermore, clopidogrel only depressed thrombin generation at the site of microvascular injury (p < 0.01) in P1(A2) patients and prolonged closure time measured in vitro by PFA-100 (p < 0.05). At baseline spontaneous expression of PAC-1 and P-selectin was higher in P1(A2) subjects as compared to P1(A1) homozygotes (p < 0.05 for both antigens). Clopidogrel lowered the expression of both markers affecting more P1(A2) carriers, so that the difference in binding PAC-1 antibody between platelets from P1(A1) and P1(A2) carriers disappeared, while the difference in P-selectin expression slightly diminished. Anti-thrombotic effects of clopidogrel are more pronounced in CAD patients carrying the P1(A2) allele than in P1(A1) homozygotes.
已知氯吡格雷的个体反应存在差异,但其机制尚不清楚。我们研究了糖蛋白IIIa多态性P1(A1/A2)与氯吡格雷抗血栓作用之间的关系。对48例血脂正常的冠心病患者给予氯吡格雷(75mg/d,持续2周)。在氯吡格雷治疗前后,研究了出血时间、微血管损伤部位的凝血酶生成、使用ADP检测卡的PFA-100在高切变率下的血小板功能以及血小板表面活化标志物(通过PAC-1抗体检测的GPIIb/IIIa复合物上的P-选择素和纤维蛋白原结合位点)。对未刺激的和低剂量(0.02μM和1μM)体外ADP刺激的血小板均进行了检测。通过聚合酶链反应和限制性片段长度多态性分析评估GP IIIa多态性。我们鉴定出32例P1(A1/A1)纯合子、15例P1(A,/A2)杂合子和1例P1(A2/A2)纯合子。氯吡格雷使所有受试者的出血时间显著延长,但这种作用在P1(A2)携带者中更明显(p<0.01)。此外,氯吡格雷仅使P1(A2)患者微血管损伤部位的凝血酶生成受到抑制(p<0.01),并使通过PFA-100体外测量的封闭时间延长(p<0.05)。在基线时,与P1(A1)纯合子相比,P1(A2)受试者中PAC-1和P-选择素的自发表达更高(两种抗原均p<0.05)。氯吡格雷降低了两种标志物的表达,对P1(A2)携带者的影响更大,从而使P1(A1)和P1(A2)携带者的血小板之间结合PAC-抗体的差异消失,而P-选择素表达的差异略有减小。携带P1(A2)等位基因的冠心病患者中,氯吡格雷的抗血栓作用比P1(A1)纯合子更明显。
