Volf I, Koller E, Bielek E, Koller F
Institute of Medical Physiology, University of Vienna, Austria.
Am J Physiol. 1997 Jul;273(1 Pt 1):C118-29. doi: 10.1152/ajpcell.1997.273.1.C118.
Low-density lipoproteins (LDL) specifically bind to the human platelet integrin-alpha IIb and -beta 3 (Koller et al., J. Biol. Chem. 264: 12412-12418, 1989). We show by electron microscopy (EM) that gold (Au)-labeled LDL bind to sites randomly distributed on the surface of platelets in suspension. Within a few minutes, mobile ligand-receptor complexes are translocated from the surface to the open canalicular system (OCS), which finally centralizes as a broad belt. Binding and translocation of Au-LDL are independent of stimulation of platelets by ADP and are completely reversible. Au-fibrinogen shows a strikingly similar, though agonist-dependent, redistribution behavior. Platelets are markedly activated by LDL. This activation is initiated by the binding of LDL to the plasma membrane receptor, and receptor internalization is probably not required for the activation but may instead be one of its consequences. Coincubation with Au-LDL and Au-fibrinogen results in more pronounced activation. The amount of OCS-localized ligands is significantly increased, most likely reflecting enhanced receptor recycling. The two ligands show a tendency to segregate in separate clusters, indicating differences in their postbinding pathways.
低密度脂蛋白(LDL)特异性结合人血小板整合素αIIb和β3(Koller等人,《生物化学杂志》264: 12412 - 12418,1989年)。我们通过电子显微镜(EM)显示,金(Au)标记的LDL结合到悬浮液中血小板表面随机分布的位点上。在几分钟内,移动的配体 - 受体复合物从表面转移到开放小管系统(OCS),最终集中形成一条宽带。Au - LDL的结合和转移与ADP对血小板的刺激无关,并且是完全可逆的。Au - 纤维蛋白原表现出惊人的相似但依赖激动剂的再分布行为。LDL可显著激活血小板。这种激活是由LDL与质膜受体的结合引发的,激活可能不需要受体内化,相反,受体内化可能是其结果之一。与Au - LDL和Au - 纤维蛋白原共同孵育会导致更明显的激活。OCS定位的配体数量显著增加,最有可能反映出受体再循环增强。这两种配体倾向于在不同的簇中分离,表明它们结合后途径存在差异。
