PGAP2对于糖基磷脂酰肌醇(GPI)锚定蛋白的正确加工和稳定表达至关重要。
PGAP2 is essential for correct processing and stable expression of GPI-anchored proteins.
作者信息
Tashima Yuko, Taguchi Ryo, Murata Chie, Ashida Hisashi, Kinoshita Taroh, Maeda Yusuke
机构信息
Department of Immunoregulation, Research Institute for Microbial Diseases, Osaka University, Suita, Osaka 565-0871, Japan.
出版信息
Mol Biol Cell. 2006 Mar;17(3):1410-20. doi: 10.1091/mbc.e05-11-1005. Epub 2006 Jan 11.
Abstract
Biosynthesis of glycosylphosphatidylinositol-anchored proteins (GPI-APs) in the ER has been extensively studied, whereas the molecular events during the transport of GPI-APs from the ER to the cell surface are poorly understood. Here, we established new mutant cell lines whose surface expressions of GPI-APs were greatly decreased despite normal biosynthesis of GPI-APs in the ER. We identified a gene responsible for this defect, designated PGAP2 (for Post-GPI-Attachment to Proteins 2), which encoded a Golgi/ER-resident membrane protein. The low surface expression of GPI-APs was due to their secretion into the culture medium. GPI-APs were modified/cleaved by two reaction steps in the mutant cells. First, the GPI anchor was converted to lyso-GPI before exiting the trans-Golgi network. Second, lyso-GPI-APs were cleaved by a phospholipase D after transport to the plasma membrane. Therefore, PGAP2 deficiency caused transport to the cell surface of lyso-GPI-APs that were sensitive to a phospholipase D. These results demonstrate that PGAP2 is involved in the processing of GPI-APs required for their stable expression at the cell surface.
摘要
内质网中糖基磷脂酰肌醇锚定蛋白(GPI-APs)的生物合成已得到广泛研究,而GPI-APs从内质网运输到细胞表面过程中的分子事件却知之甚少。在此,我们建立了新的突变细胞系,其GPI-APs的表面表达大幅降低,尽管内质网中GPI-APs的生物合成正常。我们鉴定出一个导致此缺陷的基因,命名为PGAP2(蛋白质GPI附着后2),它编码一种定位于高尔基体/内质网的膜蛋白。GPI-APs表面表达低是因为它们分泌到了培养基中。在突变细胞中,GPI-APs经过两个反应步骤进行修饰/切割。首先,在离开反式高尔基体网络之前,GPI锚被转化为溶血GPI。其次,溶血GPI-APs在运输到质膜后被磷脂酶D切割。因此,PGAP2缺陷导致对磷脂酶D敏感的溶血GPI-APs运输到细胞表面。这些结果表明,PGAP2参与了GPI-APs在细胞表面稳定表达所需的加工过程。
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