Magnusson S, Berg T
Institute for Nutrition Research, University of Oslo, Norway.
Biochem J. 1989 Feb 1;257(3):651-6. doi: 10.1042/bj2570651.
Isolated sinusoidal endothelial rat liver cells (EC) in suspension bound and internalized ovalbumin, a mannose-terminated glycoprotein, in a saturable manner. The binding and uptake were Ca2+-dependent and were effectively inhibited by alpha-methyl mannoside and yeast mannan, but not by galactose or asialoglycoproteins. This corresponds to the binding specificity described for the mannose receptor of macrophages and non-parenchymal liver cells. Binding studies indicated a surface pool of 20,000-25,000 mannose receptors per cell, with a dissociation constant of 6 x 10(-8) M. Uptake and degradation of ovalbumin by isolated EC were inhibited by weak bases and ionophores which inhibit acidification of endocytic vesicles and dissociation of receptor-ligand complexes. Cycloheximide had no effect on uptake or degradation. Degradation, but not uptake, was inhibited by leupeptin. We conclude that ovalbumin dissociates from the mannose receptors in the endosomal compartment and the receptors are recycled to the cell surface, while the ovalbumin is directed to the lysosomes for degradation. A fraction of the internalized ovalbumin was recycled intact to the cell surface and escaped degradation (retroendocytosis). The rate of internalization of ovalbumin by isolated EC was very fast, with a Ke (endocytotic rate constant) of 4.12 min-1, which corresponds to a half-life of 10 s for the surface pool of receptor-ligand complexes. To our knowledge, this is the highest Ke reported for a receptor-mediated endocytosis system.
悬浮状态下分离的大鼠肝窦状内皮细胞(EC)以可饱和的方式结合并内化卵清蛋白,一种甘露糖末端糖蛋白。这种结合和摄取依赖于Ca2+,并被α-甲基甘露糖苷和酵母甘露聚糖有效抑制,但不被半乳糖或去唾液酸糖蛋白抑制。这与巨噬细胞和肝非实质细胞的甘露糖受体所描述的结合特异性相符。结合研究表明,每个细胞表面有20,000 - 25,000个甘露糖受体库,解离常数为6×10(-8) M。分离的EC对卵清蛋白的摄取和降解受到弱碱和离子载体的抑制,这些物质抑制内吞小泡的酸化和受体-配体复合物的解离。放线菌酮对摄取或降解没有影响。亮抑蛋白酶肽抑制降解,但不抑制摄取。我们得出结论,卵清蛋白在内体区室中与甘露糖受体解离,受体被循环回细胞表面,而卵清蛋白则被导向溶酶体进行降解。一部分内化的卵清蛋白完整地循环回细胞表面并逃避降解(逆向内吞作用)。分离的EC对卵清蛋白的内化速率非常快,内吞速率常数(Ke)为4.12 min-1,这对应于受体-配体复合物表面库的半衰期为10 s。据我们所知,这是受体介导的内吞系统报道的最高Ke值。