Presseizen Katya, Friedman Ziva, Shapiro Hava, Radnay Judith, Ellis Martin H
Department of Geriatrics, Meir Hospital, Kfar Saba, Israel.
Clin Appl Thromb Hemost. 2002 Jan;8(1):33-9. doi: 10.1177/107602960200800104.
Recently, the asymmetric distribution of phospholipids in eukaryotic cell membranes has been appreciated and been found to be dependent on the activity of a number of enzymes. The expression of phosphatidylserine (PS), a negatively charged phospholipid, on the platelets of patients with polycythemia vera (P vera) and essential thrombocythemia (ET) was compared to that in normal individuals. The effect of platelet aggregation on PS expression was determined. Exposure of PS on platelets obtained from patients with P vera and ET and from age- and sex-matched healthy volunteers was measured by fluorescein-labeled Annexin V binding to platelets and by the platelets' thrombin-generating capacity determined by the prothrombinase assay. PLatelet prothrombinase activity (mean +/- standard deviation [SD]), as measured by thrombin generation, was 2.32+/-2.2 micro/mL in the P vera group and 1.55+/-1.0 micro/mL in the control group (p=0.3). PS expression as measured by Annexin V binding (mean +/- SD) was 2.6+/-2.4 % in the P vera group versus 1.55+/-1.2% among controls (p=0.03). In the ET group, prothrombinase activity (mean +/- SD) was 1.0+/-0.6 micro/mL and 2.1+/-0.9 micro/mL in the control group (p=0.006). Annexin V binding (mean +/- SD) was 4.8+/-4.2% in the ET group and 2.77+/-2.1% among control subjects (p=0.09). When the prothrombinase assay was performed after addition of adenosine diphosphate (ADP) to the platelets, there was a significant increase in thrombin generation in the myeloproliferative disorder (MPD) group (3.1+/-2.0 micro/mL) compared to the thrombin generated by unstimulated myeloproliferative disorder platelets (2.07+/-1.69 micro/mL) (p=0.0006). An increase in thrombin generation was seen in the ADP-stimulated platelet samples in all ten paired samples studied. Likewise, the addition of ADP to control platelets increased thrombin generation from 2.0+/-1.0 micro/mL in unstimulated platelets to 4.3+/-1.6 micro/mL in ADP-treated platelets (p=0.0006). Thrombin generation increased in all of the ADP-stimulated platelet samples compared to the untreated platelets. There was however, no difference in the increased thrombin generation when ADP-stimulated platelets from MPD patient and control subjects were compared (p=0.3). Results indicate that some patients with MPDs may show increased PS expression on platelet surface. When analyzed overall, there was a tendency toward greater PS expression in the P vera and ET patient groups; however, the increase did not reach statistical significance. This increase was noted in both the prothrombinase assay the Annexin V binding assay. We have also shown that stimulation of platelets by addition of the agonist ADP results in enhanced PS expression, which appears increase the thrombogenic potential of the platelets as demonstrated by the enhanced thrombin generation demonstrated by these platelets in the prothrombinase assay. There was no difference in the degree of PS expression in response to ADP stimulation between MPD and control platelets. Results show that PS expression and platelet-dependent thrombin generation is variable in patients with MPDs. This expression is increased after platelet aggregation occurs. The role of PS expression in the thromboembolic complications of MPD patients should be studied further.
最近,人们认识到真核细胞膜中磷脂的不对称分布,并发现其依赖于多种酶的活性。将真性红细胞增多症(P vera)和原发性血小板增多症(ET)患者血小板上带负电荷的磷脂酰丝氨酸(PS)的表达与正常个体进行了比较。确定了血小板聚集对PS表达的影响。通过荧光素标记的膜联蛋白V与血小板结合以及通过凝血酶原酶测定法测定的血小板凝血酶生成能力,来测量从P vera和ET患者以及年龄和性别匹配的健康志愿者获得的血小板上PS的暴露情况。通过凝血酶生成测量的血小板凝血酶原酶活性(平均值±标准差[SD]),在P vera组中为2.32±2.2微升/毫升,在对照组中为1.55±1.0微升/毫升(p = 0.3)。通过膜联蛋白V结合测量的PS表达(平均值±SD),在P vera组中为2.6±2.4%,而在对照组中为1.55±1.2%(p = 0.03)。在ET组中,凝血酶原酶活性(平均值±SD)为1.0±0.6微升/毫升,在对照组中为2.1±0.9微升/毫升(p = 0.006)。膜联蛋白V结合(平均值±SD)在ET组中为4.8±4.2%,在对照受试者中为2.77±2.1%(p = 0.09)。当在血小板中加入二磷酸腺苷(ADP)后进行凝血酶原酶测定时,与未刺激的骨髓增殖性疾病(MPD)血小板产生的凝血酶(2.07±1.69微升/毫升)相比,MPD组中凝血酶生成显著增加(3.1±2.0微升/毫升)(p = 0.0006)。在所研究的所有十个配对样本中,ADP刺激的血小板样本中均可见凝血酶生成增加。同样,向对照血小板中加入ADP可使凝血酶生成从未刺激血小板中的2.0±1.0微升/毫升增加至ADP处理血小板中的4.3±1.6微升/毫升(p = 0.0006)。与未处理的血小板相比,所有ADP刺激的血小板样本中凝血酶生成均增加。然而,比较MPD患者和对照受试者的ADP刺激血小板时,凝血酶生成增加量没有差异(p = 0.3)。结果表明,一些MPD患者可能在血小板表面表现出PS表达增加。总体分析时,P vera和ET患者组中PS表达有增加的趋势;然而,这种增加未达到统计学意义。在凝血酶原酶测定和膜联蛋白V结合测定中均注意到了这种增加。我们还表明,通过加入激动剂ADP刺激血小板会导致PS表达增强,如这些血小板在凝血酶原酶测定中凝血酶生成增强所证明的,这似乎增加了血小板的血栓形成潜力。MPD和对照血小板对ADP刺激的PS表达程度没有差异。结果表明,MPD患者中PS表达和血小板依赖性凝血酶生成是可变的。血小板聚集发生后这种表达会增加。PS表达在MPD患者血栓栓塞并发症中的作用应进一步研究。
