Jones D H, Nusbacher J, Anderson C L
J Cell Biol. 1985 Feb;100(2):558-64. doi: 10.1083/jcb.100.2.558.
Fc receptor-mediated endocytosis of monomeric IgG1 by human mononuclear phagocytes was evaluated under conditions where aggregated IgG and insulin readily undergo receptor-mediated internalization. U937 cells or normal human peripheral blood monocytes were incubated at 37 degrees C in the absence of free radioligand after having first bound 125I-IgG1 at 0 degrees C. To determine the amount of cell-associated IgG1 internalized after varying periods of 37 degrees C incubation, surface-bound IgG1 was removed by sequential exposure of cells at 0 degrees C to a nonspecific proteinase for 1 h and to acetic acid at pH 3.2 for 3 min. The failure to develop a proteinase- and acid-resistant fraction, similar to that seen over time at 37 degrees C in parallel experiments with 125I-insulin and 125I-aggregated IgG, and the lack of degradation of the IgG1 released into the medium from the same cells over time show that these cells do not endocytose and degrade monomeric IgG by an Fc receptor-specific mechanism and suggest that constitutive recycling without degradation is unlikely to be occurring. These data fulfill one prediction of the hypothesis that receptor-receptor interaction triggers Fc receptor-mediated endocytosis.
在聚集的IgG和胰岛素易于进行受体介导的内化作用的条件下,评估了人单核吞噬细胞通过Fc受体介导的单体IgG1的内吞作用。首先在0℃下使U937细胞或正常人外周血单核细胞结合125I-IgG1,然后在无游离放射性配体的情况下于37℃孵育。为了确定在37℃孵育不同时间后内化的细胞相关IgG1的量,通过在0℃下将细胞依次暴露于非特异性蛋白酶1小时和pH 3.2的乙酸3分钟来去除表面结合的IgG1。在与125I-胰岛素和125I-聚集的IgG的平行实验中,未能形成类似于在37℃下随时间观察到的蛋白酶和酸抗性部分,并且随着时间的推移从相同细胞释放到培养基中的IgG1缺乏降解,这表明这些细胞不会通过Fc受体特异性机制内吞和降解单体IgG,并且表明不太可能发生无降解的组成型再循环。这些数据符合受体 - 受体相互作用触发Fc受体介导的内吞作用这一假设的一个预测。