Schaerer E, Verrey F, Racine L, Tallichet C, Reinhardt M, Kraehenbuhl J P
Swiss Institute for Experimental Cancer Research, University of Lausanne.
J Cell Biol. 1990 Apr;110(4):987-98. doi: 10.1083/jcb.110.4.987.
A cDNA for the rabbit low Mr polymeric immunoglobulin (poly-Ig) receptor was expressed in an immortalized rabbit mammary cell line. The intracellular routing of the receptor and its cell surface expression was analyzed in stably transfected cells grown on permeable supports. Initially the cells formed a monolayer with no transmural electrical resistance. All monolayer cells expressed the poly-Ig receptor and cytokeratin 7 filaments characteristic of luminal mammary cells but absent in myoepithelial cells. Within 7 d in culture, the cells underwent cytodifferentiation and formed a bilayer with a transepithelial electrical resistance of approximately 500 omega x cm2. Upper layer cells formed tight junctions with adjacent cells and gap junctions with basal cells. Expression of the poly-Ig receptor and cytokeratin 7 was restricted to the cells from the upper layer. The kinetics of receptor biosynthesis and processing was similar to that reported for rabbit mammary gland and rat liver. The receptor was cleaved at the apical cell surface and release of secretory component into the apical medium occurred with a half-time of approximately 2 h. Selective cell surface trypsinization combined with pulse-chase experiments served to determine at which cell surface domain newly synthesized receptor appeared first. The receptor was digested with a half-time of approximately 60 min with trypsin present in the basolateral medium and 90 min with apical trypsin. These data are consistent with selective targeting of newly synthesized receptor to the basolateral surface. The results indicate that transcytosis of the receptor from basolateral to apical membrane in the presence or the absence of its ligand requires approximately 30 min. Cleavage of the receptor by endogenous protease is not concomitant with its appearance at the apical surface, but requires additional time, thus explaining the presence of intact receptor on the apical membrane.
兔低分子量聚合免疫球蛋白(poly-Ig)受体的cDNA在永生化兔乳腺细胞系中表达。在可渗透支持物上生长的稳定转染细胞中分析了该受体的细胞内转运及其细胞表面表达。最初,细胞形成单层,没有跨膜电阻。所有单层细胞均表达多聚Ig受体和管腔乳腺细胞特有的细胞角蛋白7细丝,但肌上皮细胞中不存在。在培养7天内,细胞发生细胞分化并形成双层,跨上皮电阻约为500Ω×cm2。上层细胞与相邻细胞形成紧密连接,与基底细胞形成间隙连接。多聚Ig受体和细胞角蛋白7的表达仅限于上层细胞。受体生物合成和加工的动力学与兔乳腺和大鼠肝脏报道的相似。受体在顶端细胞表面被切割,分泌成分释放到顶端培养基中的半衰期约为2小时。选择性细胞表面胰蛋白酶消化结合脉冲追踪实验用于确定新合成的受体首先出现在哪个细胞表面结构域。在基底外侧培养基中存在胰蛋白酶时受体的消化半衰期约为60分钟,在顶端胰蛋白酶存在时为90分钟。这些数据与新合成的受体选择性靶向基底外侧表面一致。结果表明,无论有无配体,受体从基底外侧膜向顶端膜的转胞吞作用大约需要30分钟。内源性蛋白酶对受体的切割与其在顶端表面的出现不同步,而是需要额外的时间,从而解释了顶端膜上完整受体的存在。