Fuller S D, Simons K
J Cell Biol. 1986 Nov;103(5):1767-79. doi: 10.1083/jcb.103.5.1767.
We have characterized the polarity of the transferrin receptor in the epithelial Madin-Darby canine kidney (MDCK) cell line. The receptor is present in approximately 165,000 copies per cell, migrates as a diffuse band upon SDS gel electrophoresis with Mr 90,000, displays a dissociation constant for diferritransferrin at neutral pH of approximately 2 nM, and is active in essentially all of the cells of the population. Transferrin-mediated 55Fe uptake was used to measure the polarity of active transferrin receptors in filter-grown MDCK cells. The ratio of basolateral to apical receptors was approximately 800:1 for the high resistance strain I MDCK cells (typically greater than 2,000 ohm X cm2) and approximately 300:1 for the lower resistance strain II cells (less than 350 ohm X cm2). In combination with morphometric data this shows that a difference in resistance between these two strains is not reflected in a significant difference in cell surface polarity. We used the recycling of transferrin receptor in filter-grown MDCK cells to evaluate the accuracy of the sorting of a basolateral protein during endocytosis. Monitoring the amount of apically released 125I-labeled transferrin after application of 55Fe- and 125I-labeled transferrin to the basolateral surface provided a sensitive assay of the accuracy of sorting during recycling of the receptor from endosomes to the plasma membrane. The accuracy of transferrin receptor sorting (greater than 99.88%) during a single cycle of transit between the endosome and the plasma membrane is sufficient to maintain the high level of polarity of the cell.
我们已对上皮性犬肾(MDCK)细胞系中转铁蛋白受体的极性进行了表征。该受体每个细胞中约有165,000个拷贝,在SDS凝胶电泳中以Mr 90,000的弥散条带形式迁移,在中性pH下对双铁转铁蛋白的解离常数约为2 nM,并且在该群体的基本上所有细胞中均具有活性。转铁蛋白介导的55Fe摄取用于测量滤膜生长的MDCK细胞中活性转铁蛋白受体的极性。对于高电阻I型MDCK细胞(通常大于2,000 ohm X cm2),基底外侧受体与顶端受体的比例约为800:1,对于低电阻II型细胞(小于350 ohm X cm2),该比例约为300:1。结合形态计量学数据表明,这两种细胞系之间的电阻差异并未反映在细胞表面极性的显著差异上。我们利用滤膜生长的MDCK细胞中转铁蛋白受体的循环来评估内吞过程中基底外侧蛋白分选的准确性。在将55Fe和125I标记的转铁蛋白应用于基底外侧表面后,监测顶端释放的125I标记转铁蛋白的量,可提供一种灵敏的检测方法,用于检测受体从内体循环到质膜过程中分选的准确性。在受体在内体和质膜之间的单个转运周期中,转铁蛋白受体分选的准确性(大于99.88%)足以维持细胞的高度极性。