Wen F Q, Jabbar A A, Patel D A, Kazarian T, Valentino L A
Department of Pediatrics, Rush Medical College and Rush Children's Hospital, Chicago, IL 60612-3833, USA.
Arterioscler Thromb Vasc Biol. 1999 Mar;19(3):519-24. doi: 10.1161/01.atv.19.3.519.
Gangliosides, sialic acid-containing glycosphingolipids, accumulate in atherosclerotic vessels. Their role in the pathogenesis of atherosclerosis is unknown. Gangliosides isolated from tumor cells promote collagen-stimulated platelet aggregation and ATP secretion and enhance platelet adhesion to immobilized collagen. These activities are all mediated by ganglioside effects on the platelet integrin collagen receptor alpha2beta1. Therefore, we hypothesized that gangliosides isolated from atherosclerotic plaques would enhance platelet adhesion to immobilized collagen, a major component of the subendothelial matrix of blood vessels. Furthermore, we questioned whether this effect of atherosclerotic gangliosides might play a role in the pathogenesis of atherosclerosis. To test this hypothesis, we isolated the gangliosides from postmortem aortas of patients with extensive atherosclerotic disease and examined their effects on platelet adhesion. Samples of aortic tissue taken from areas involved with atherosclerotic plaque demonstrated accumulation of gangliosides (64.9+/-6.5 nmol/g wet weight) compared with gangliosides isolated from control normal aortic tissue taken from children who died of noncardiac causes (NAGs; 21.1+/-6.4 nmol/g wet weight). Interestingly, samples of tissue taken from diseased aortas but from areas not involved with gross plaque formation also demonstrated ganglioside accumulation (47.6+/-12.8 nmol/g wet weight). Next, the activity of each of these gangliosides on platelet adhesion to immobilized type I collagen was studied. Atherosclerotic aortic gangliosides (AAGs) as well as those isolated from grossly unaffected areas of the same aorta (UAGs) both increased platelet adhesion compared with control NAGs (OD570, 0. 37+/-0.11 and 0.29+/-0.14 versus 0.16+/-0.07, respectively; P<0.01 and P<0.05, respectively). These OD570 values corresponded to 9x10(5), 8x10(4), and 6x10(3) platelets per well after preincubation with 5 micromol/L AAG, UAG, and NAG, respectively. Increased adhesion was observed after preincubation with as little as 0.5 micromol/L AAG, and maximal adhesion was seen at 2.5 micromol/L, with a plateau extending to the highest concentration tested, 10 micromol/L. The effect of AAGs on platelet adhesion to collagen was abrogated by incubation of treated platelets with F-17 anti-alpha2 monoclonal antibody (OD570, 0.13+/-0.02). Finally, the effects of the major individual gangliosides isolated from atherosclerotic tissues, GM3 and GD3, were tested. GM3 increased adhesion to collagen (OD570, 0.415+/-0.06) as did GD3 (0.31+/-0.08). Similar to that of AAGs, the effect of both molecules was blocked by F-17 (0. 09+/-0.04 and 0.13+/-0.06, respectively). These experiments demonstrate that accumulated atherosclerotic gangliosides promote platelet adhesion to collagen, the major component of the subendothelial matrix. Furthermore, this activity is mediated by an effect of the gangliosides on the collagen-binding integrin alpha2beta1. This activity may provide a mechanism for the development of platelet thrombi at sites where atherosclerotic gangliosides accumulate and help to explain the role of platelets in the process of atherosclerotic disease progression.
神经节苷脂是含唾液酸的糖鞘脂,在动脉粥样硬化血管中蓄积。它们在动脉粥样硬化发病机制中的作用尚不清楚。从肿瘤细胞中分离出的神经节苷脂可促进胶原蛋白刺激的血小板聚集和ATP分泌,并增强血小板与固定化胶原蛋白的黏附。这些活性均由神经节苷脂对血小板整合素胶原蛋白受体α2β1的作用介导。因此,我们推测从动脉粥样硬化斑块中分离出的神经节苷脂会增强血小板与固定化胶原蛋白的黏附,胶原蛋白是血管内皮下基质的主要成分。此外,我们还质疑动脉粥样硬化神经节苷脂的这种作用是否可能在动脉粥样硬化的发病机制中发挥作用。为了验证这一假设,我们从患有广泛动脉粥样硬化疾病患者的尸检主动脉中分离出神经节苷脂,并检测它们对血小板黏附的影响。与从死于非心脏原因的儿童(NAGs;21.1±6.4 nmol/g湿重)的对照正常主动脉组织中分离出的神经节苷脂相比,取自动脉粥样硬化斑块累及区域的主动脉组织样本显示神经节苷脂蓄积(64.9±6.5 nmol/g湿重)。有趣的是,取自患病主动脉但未形成明显斑块区域的组织样本也显示神经节苷脂蓄积(47.6±12.8 nmol/g湿重)。接下来,研究了这些神经节苷脂对血小板与固定化I型胶原蛋白黏附的活性。与对照NAGs相比,动脉粥样硬化主动脉神经节苷脂(AAGs)以及从同一主动脉未受明显影响区域分离出的神经节苷脂(UAGs)均增加了血小板黏附(OD570分别为0.37±0.11和0.29±0.14,而对照为0.16±0.07;P分别<0.01和P<0.05)。这些OD570值分别对应于用5 μmol/L AAG、UAG和NAG预孵育后每孔9×10⁵、8×10⁴和6×10³个血小板。用低至0.5 μmol/L AAG预孵育后即可观察到黏附增加,在2.5 μmol/L时观察到最大黏附,平台期延伸至测试的最高浓度10 μmol/L。用F-17抗α2单克隆抗体孵育处理后的血小板可消除AAGs对血小板与胶原蛋白黏附的影响(OD570,0.13±0.02)。最后,测试了从动脉粥样硬化组织中分离出的主要单个神经节苷脂GM3和GD3的作用。GM3增加了对胶原蛋白的黏附(OD570,0.415±0.06),GD3也有同样作用(0.31±0.08)。与AAGs类似,这两种分子的作用均被F-17阻断(分别为0.09±0.04和0.13±0.06)。这些实验表明,蓄积的动脉粥样硬化神经节苷脂促进血小板与胶原蛋白黏附,胶原蛋白是内皮下基质的主要成分。此外,这种活性由神经节苷脂对胶原蛋白结合整合素α2β1的作用介导。这种活性可能为动脉粥样硬化神经节苷脂蓄积部位血小板血栓的形成提供一种机制,并有助于解释血小板在动脉粥样硬化疾病进展过程中的作用。
