大鼠肝细胞中两种碳水化合物特异性受体介导的卵清蛋白内吞作用。卵清蛋白向溶酶体的细胞内转运在肝内皮细胞中比在实质细胞中更快。
Receptor-mediated endocytosis of ovalbumin by two carbohydrate-specific receptors in rat liver cells. The intracellular transport of ovalbumin to lysosomes is faster in liver endothelial cells than in parenchymal cells.
作者信息
Kindberg G M, Magnusson S, Berg T, Smedsrød B
机构信息
Institute for Nutrition Research, University of Oslo, Blindern, Norway.
出版信息
Biochem J. 1990 Aug 15;270(1):197-203. doi: 10.1042/bj2700197.
Abstract
- The uptake of ovalbumin (OVA) in rat liver parenchymal cells (PC) and non-parenchymal cells was studied in vivo and in vitro in order to compare the cellular expression of glycoprotein receptors and the kinetics of intracellular transport of ligand endocytosed by these receptors. 2. Ovalbumin was labelled with 125I or with 125I-tyramine-cellobiose (125I-TC). By using 125I-TC-OVA the labelled degradation products were trapped in the cells. 3. 125I-TC-OVA was rapidly cleared from blood mainly by receptor-mediated uptake in the liver. At 30 min after injection, 50% of the ligand was recovered in the liver. The endothelial cells (EC) and the PC were the predominant cell types responsible for uptake. 4. The uptake in PC was strongly inhibited by asialo-orosomucoid (AOM), but not by mannan, indicating that the uptake in these cells was mediated by the galactose receptor and not by the mannose receptor. This finding is compatible with the observation that a proportion of the OVA contains terminal galactose residues in the carbohydrate moiety. 5. In vitro uptake of OVA in cultured EC was saturable and inhibited by mannan, mannose, fructose, N-acetylglucosamine, EDTA or monensin, but not by galactose or AOM. The uptake of OVA in these cells was therefore mediated by the mannose receptor. 6. To label the organelles involved in endocytosis in PC and EC, 125I-TC-OVA was injected intravenously together with an excess of either AOM or mannan. In this way the labelled ligand could be directed selectively to EC or PC respectively. Subcellular fractionation of total liver in sucrose and Nycodenz gradients revealed that in EC the intracellular transport of OVA is so fast that endocytosed ligand accumulates and thus increases the density of the lysosomes. Conversely, in PC transfer of ligand is slower, with the result that accumulation of undegraded ligand in the lysosomes does not occur. These findings are interpreted to mean that in EC the rate-limiting step of handling of endocytosed ligand is intralysosomal degradation, whereas in PC the rate-limiting step is transport of ligand to the lysosomes. 7. Altogether, these findings suggest that endocytosis of OVA by the liver EC and PC is mediated by mannose and galactose receptors respectively, and that the kinetics of intracellular transport of OVA differ in the two cell types.
摘要
- 为了比较糖蛋白受体的细胞表达以及这些受体介导内吞的配体在细胞内的运输动力学,在体内和体外研究了大鼠肝实质细胞(PC)和非实质细胞对卵清蛋白(OVA)的摄取。2. 用125I或125I-酪胺-纤维二糖(125I-TC)标记卵清蛋白。使用125I-TC-OVA时,标记的降解产物会被困在细胞内。3. 125I-TC-OVA主要通过肝脏中的受体介导摄取从血液中迅速清除。注射后30分钟,50%的配体在肝脏中被回收。内皮细胞(EC)和PC是负责摄取的主要细胞类型。4. PC中的摄取受到去唾液酸血清类黏蛋白(AOM)的强烈抑制,但不受甘露聚糖的抑制,这表明这些细胞中的摄取是由半乳糖受体介导的,而不是由甘露糖受体介导的。这一发现与观察到的一部分OVA在碳水化合物部分含有末端半乳糖残基相符。5. 培养的EC中OVA的体外摄取是可饱和的,并受到甘露聚糖、甘露糖、果糖、N-乙酰葡糖胺、EDTA或莫能菌素的抑制,但不受半乳糖或AOM的抑制。因此,这些细胞中OVA的摄取是由甘露糖受体介导的。6. 为了标记PC和EC中参与内吞作用的细胞器,将125I-TC-OVA与过量的AOM或甘露聚糖一起静脉注射。通过这种方式,可以分别将标记的配体选择性地导向EC或PC。在蔗糖和Nycodenz梯度中对整个肝脏进行亚细胞分级分离显示,在EC中OVA的细胞内运输非常快,以至于内吞的配体积累,从而增加了溶酶体的密度。相反,在PC中配体的转移较慢,结果是未降解的配体不会在溶酶体中积累。这些发现被解释为意味着在EC中处理内吞配体的限速步骤是溶酶体内的降解,而在PC中限速步骤是配体向溶酶体的运输。7. 总之,这些发现表明肝脏EC和PC对OVA的内吞作用分别由甘露糖和半乳糖受体介导,并且OVA在这两种细胞类型中的细胞内运输动力学不同。
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