Stoorvogel W, Geuze H J, Griffith J M, Schwartz A L, Strous G J
Laboratory of Cell Biology, University of Utrecht Medical School, The Netherlands.
J Cell Biol. 1989 Jun;108(6):2137-48. doi: 10.1083/jcb.108.6.2137.
We compared the intracellular pathways of the transferrin receptor (TfR) with those of the asialoglycoprotein receptor (ASGPR) and the cation-independent mannose 6-phosphate receptor (MPR)/insulin-like growth factor II receptor during endocytosis in Hep G2 cells. Cells were allowed to endocytose a conjugate of horseradish peroxidase and transferrin (Tf/HRP) via the TfR system. Postnuclear supernatants of homogenized cells were incubated with 3,3'-diaminobenzidine (DAB) and H2O2. Peroxidase-catalyzed oxidation of DAB within Tf/HRP-containing endosomes cross-linked their contents to DAB polymer. The cross-linking efficiency was dependent on the intravesicular Tf/HRP concentration. The loss of detectable receptors from samples of cell homogenates treated with DAB/H2O2 was used as a measure of colocalization with Tf/HRP. To compare the distribution of internalized plasma membrane receptors with Tf/HRP, cells were first surface-labeled with 125I at 0 degrees C. After uptake of surface 125I-labeled receptors at 37 degrees C in the presence of Tf/HRP, proteinase K was used at 0 degrees C to remove receptors remaining at the plasma membrane. Endocytosed receptors were isolated by means of immunoprecipitation. 125I-TfR and 125I-ASGPR were not sorted from endocytosed Tf/HRP. 125I-MPR initially also resided in Tf/HRP-containing compartments, however 70% was sorted from the Tf/HRP pathway between 20 and 45 min after uptake. To study the accessibility of total intracellular receptor pools to endocytosed Tf/HRP, nonlabeled cells were used, and the receptors were detected by means of Western blotting. The entire intracellular TfR population, but only 70 and 50% of ASGPR and MPR, respectively, were accessible to endocytosed Tf/HRP. These steady-state levels were reached by 10 min of continuous Tf/HRP uptake at 37 degrees C. We conclude that 30% of the intracellular ASGPR pool is not involved in endocytosis (i.e., is silent). Double-labeling immunoelectron microscopy on DAB-labeled cells showed a considerable pool of ASGPR in secretory albumin-positive, Tf/HRP-negative, trans-Golgi reticulum. We suggest that this pool represents the silent ASGPR that has been biochemically determined. A model of receptor transport routes is presented and discussed.
我们比较了转铁蛋白受体(TfR)、去唾液酸糖蛋白受体(ASGPR)以及阳离子非依赖性甘露糖6-磷酸受体(MPR)/胰岛素样生长因子II受体在Hep G2细胞内吞过程中的细胞内途径。使细胞通过TfR系统内吞辣根过氧化物酶与转铁蛋白的偶联物(Tf/HRP)。将匀浆细胞的核后上清液与3,3'-二氨基联苯胺(DAB)和H2O2一起孵育。含Tf/HRP的内体中过氧化物酶催化的DAB氧化将其内容物交联到DAB聚合物上。交联效率取决于囊泡内Tf/HRP的浓度。用DAB/H2O2处理的细胞匀浆样品中可检测到的受体的损失用作与Tf/HRP共定位的指标。为了比较内化的质膜受体与Tf/HRP的分布,首先在0℃用125I对细胞进行表面标记。在37℃于Tf/HRP存在下摄取表面125I标记的受体后,在0℃使用蛋白酶K去除残留在质膜上的受体。通过免疫沉淀分离内吞的受体。125I-TfR和125I-ASGPR未从内吞的Tf/HRP中分拣出来。125I-MPR最初也存在于含Tf/HRP的区室中,然而在摄取后20至45分钟之间,70%从Tf/HRP途径中被分拣出来。为了研究细胞内总受体库对内吞的Tf/HRP的可及性,使用未标记的细胞,并通过蛋白质印迹法检测受体。内吞的Tf/HRP可接触到整个细胞内的TfR群体,但分别仅70%和50%的ASGPR和MPR。在37℃持续摄取Tf/HRP 10分钟后达到这些稳态水平。我们得出结论,细胞内30%的ASGPR库不参与内吞作用(即处于沉默状态)。对DAB标记的细胞进行双标记免疫电子显微镜检查显示,在分泌白蛋白阳性、Tf/HRP阴性的反式高尔基体网状结构中有大量的ASGPR。我们认为这个库代表了已通过生物化学方法确定的沉默ASGPR。提出并讨论了受体运输途径的模型。
