Lysosomal degradation of receptor-bound urokinase-type plasminogen activator is enhanced by its inhibitors in human trophoblastic choriocarcinoma cells.
P H Jensen, E I Christensen, P Ebbesen, J Gliemann, P A Andreasen
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引用次数: 101
Abstract
We have studied the effect of plasminogen activator inhibitors PAI-1 and PAI-2 on the binding of urokinase-type plasminogen activator (u-PA) to its receptor in the human choriocarcinoma cell line JAR. With 125I-labeled ligands in whole-cell binding assays, both uncomplexed u-PA and u-PA-inhibitor complexes bound to the receptor with a Kd of approximately 100 pM at 4 degrees C. Transferring the cells to 37 degrees C led to degradation to amino acids of up to 50% of the cell-bound u-PA-inhibitor complexes, whereas the degradation of uncomplexed u-PA was 15%; the remaining ligand was recovered in an apparently intact form in the medium or was still cell associated. The degradation could be inhibited by inhibitors of vesicle transport and lysosomal hydrolases. By electron microscopic autoradiography, both 125I-u-PA and 125I-u-PA-inhibitor complexes were located over the cell membrane at 4 degrees C, with the highest density of grains over the membrane at cell-cell interphases, but, after incubation at 37 degrees C, 17 and 27% of the grains for u-PA and u-PA-PAI-1 complexes, respectively, appeared over lysosomal-like bodies. These findings suggest that the u-PA receptor possesses a clearance function for the removal of u-PA after its complex formation with a specific inhibitor. The data suggest a novel mechanism by which receptor-mediated endocytosis is initiated by the binding of a secondary ligand.
我们在人绒毛膜癌细胞JAR中研究了纤溶酶原激活剂抑制剂PAI-1和PAI-2对尿激酶型纤溶酶原激活剂(u-PA)与其受体结合的影响。在全细胞结合实验中,使用125i标记的配体,在4℃时,未络合的u-PA和u-PA抑制剂复合物都以约100 pM的Kd与受体结合。将细胞转移到37℃,导致高达50%的细胞结合的u-PA抑制剂复合物的氨基酸降解,而未络合的u-PA的降解率为15%;剩余的配体在培养基中以明显完整的形式恢复,或者仍然与细胞相关。囊泡转运和溶酶体水解酶抑制剂可抑制其降解。电镜放射自显影发现,在4℃时,125I-u-PA和125I-u-PA-抑制剂复合物均位于细胞膜上,在细胞间期膜上颗粒密度最高,但在37℃孵育后,分别有17%和27%的u-PA和u-PA- pai -1复合物颗粒出现在溶酶体样体上。这些发现表明,在与特定抑制剂形成复合物后,u-PA受体具有清除u-PA的功能。这些数据提示了一种新的机制,即受体介导的内吞作用是由次级配体的结合启动的。