London Fredda S, Marcinkiewicz Mariola, Walsh Peter N
Sol Sherry Thrombosis Research Center, Temple University School of Medicine, Philadelphia, Pennsylvania 19140, USA.
Biochemistry. 2006 Jun 13;45(23):7289-98. doi: 10.1021/bi060294m.
We previously reported that only a subpopulation of PAR-1-stimulated platelets binds coagulation factor IXa, since confirmed by other laboratories. Since calcium changes have been implicated in exposure of procoagulant aminophospholipids, we have now examined calcium fluxes in this subpopulation by measuring fluorescence changes in Fura Red/AM-loaded platelets following PAR-1 stimulation. While fluorescence changes in all platelets indicated calcium release from internal stores and influx of external calcium, a subpopulation of platelets displayed a pronounced increase in calcium transients by 15 s and positive factor IXa binding by 2 min, with calcium transients sustained for 45 min. Pretreatment of platelets with Xestospongin C to inhibit IP3-mediated dense tubule calcium release, and the presence of impermeable calcium channel blockers nifedipine, SKF96365, or LaCl3, inhibited PAR-1-induced development of a subpopulation with pronounced calcium transients, factor IXa binding, and platelet support of FXa generation, suggesting the importance of both release of calcium from internal stores and influx of extracellular calcium. When platelets were stimulated in EDTA for 5-20 min before addition of calcium, factor IXa binding sites developed on a smaller subpopulation but with unchanged rate, indicating sustained opening of calcium channels and continued availability of signaling elements required for binding site exposure. While pretreatment of platelets with 100 microM BAPTA/AM (Kd 160 nM) had minimal effects, 100 microM 5,5'-dimethylBAPTA/AM (Kd 40 nM) completely inhibited the appearance and function of the platelet subpopulation, indicating the importance of minor increases of cytoplasmic calcium. We conclude that PAR-1-stimulated development of factor IXa binding sites in a subpopulation of platelets is dependent upon release of calcium from internal stores leading to sustained and pronounced calcium transients.
我们之前报道过,PAR-1激活的血小板中只有一个亚群能结合凝血因子IXa,这一结果已得到其他实验室的证实。由于钙变化与促凝血氨基磷脂的暴露有关,我们现在通过测量PAR-1刺激后负载Fura Red/AM的血小板中的荧光变化,研究了该亚群中的钙通量。虽然所有血小板中的荧光变化都表明有钙从内部储存库释放以及外部钙流入,但有一个血小板亚群在15秒时钙瞬变显著增加,2分钟时能与因子IXa阳性结合,且钙瞬变持续45分钟。用西司他丁C预处理血小板以抑制IP3介导的致密小管钙释放,以及存在不可渗透的钙通道阻滞剂硝苯地平、SKF96365或LaCl3,均抑制了PAR-1诱导的具有显著钙瞬变、因子IXa结合以及对FXa生成有血小板支持作用的亚群的形成,这表明从内部储存库释放钙和细胞外钙流入都很重要。当在添加钙之前将血小板在EDTA中刺激5至20分钟时,因子IXa结合位点在较小的亚群上形成,但速率不变,这表明钙通道持续开放且结合位点暴露所需的信号元件持续可用。虽然用100 microM BAPTA/AM(解离常数160 nM)预处理血小板影响最小,但100 microM 5,5'-二甲基BAPTA/AM(解离常数40 nM)完全抑制了血小板亚群的出现和功能,这表明细胞质钙的微小增加很重要。我们得出结论,PAR-1刺激的血小板亚群中因子IXa结合位点的形成依赖于从内部储存库释放钙,从而导致持续且显著的钙瞬变。