Schlegel R A, Williamson P
Department of Biochemistry and Molecular Biology, Penn State University, University Park, PA 16802, USA.
Cell Death Differ. 2001 Jun;8(6):551-63. doi: 10.1038/sj.cdd.4400817.
Virtually every cell in the body restricts phosphatidylserine (PS) to the inner leaflet of the plasma membrane by energy-dependent transport from the outer to the inner leaflet of the bilayer. Apoptotic cells of all types rapidly randomize the asymmetric distribution, bringing PS to the surface where it serves as a signal for phagocytosis. A myriad of phagocyte receptors have been implicated in the recognition of apoptotic cells, among them a PS receptor, yet few ligands other than PS have been identified on the apoptotic cell surface. Since apoptosis and the associated exposure of PS on the cell surface is probably over 600 million years old, it is not surprising that evolution has appropriated aspects of this process for specialized purposes such as blood coagulation, membrane fusion and erythrocyte differentiation. Failure to efficiently remove apoptotic cells may contribute to inflammatory responses and autoimmune diseases resulting from chronic, inappropriate exposure of PS.
机体内几乎每个细胞都通过能量依赖的转运过程,将磷脂酰丝氨酸(PS)限制在质膜的内小叶,即从脂双层的外小叶转运至内小叶。所有类型的凋亡细胞都会迅速使这种不对称分布随机化,将PS带到细胞表面,作为吞噬作用的信号。众多吞噬细胞受体参与了对凋亡细胞的识别,其中包括PS受体,但在凋亡细胞表面除PS外,几乎未鉴定出其他配体。由于凋亡以及与之相关的PS在细胞表面的暴露可能已有超过6亿年的历史,因此进化将这一过程的某些方面用于诸如血液凝固、膜融合和红细胞分化等特殊目的也就不足为奇了。未能有效清除凋亡细胞可能会导致炎症反应以及因PS长期不适当暴露而引发的自身免疫性疾病。