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  • Title: Lipoprotein lipase-mediated uptake of lipoprotein in human fibroblasts: evidence for an LDL receptor-independent internalization pathway.
    Author: Fernández-Borja M, Bellido D, Vilella E, Olivecrona G, Vilaró S.
    Journal: J Lipid Res; 1996 Mar; 37(3):464-81. PubMed ID: 8728311.
    Abstract:
    Lipoprotein lipase (LPL), a key enzyme in lipoprotein triglyceride metabolism, produces a marked increase in the retention and uptake of all classes of lipoproteins by cultured cells. It was previously shown that two different receptors are involved in mediating the LPL effects: heparan sulfate proteoglycans (HSPG) and the low density lipoprotein (LDL) receptor-related protein/alpha 2 macroglobulin receptor (LRP). By immunofluorescence we show here that cell surface-bound LPL displays a pattern that corresponds to the previously described distribution of cell surface HSPG. No evident relation to the distribution of bound activated alpha 2-macroglobulin (alpha 2M*) or to LRP was observed. By immunoelectron microscopy we found that after 30 min at 37 degrees C most of the detected alpha 2M* (70% of the total gold particles) was inside the cells and associated with endosomal vesicles. However, at the same time, 76% of the LPL remained at the cell surface, suggesting that, LPL is internalized by a slow endocytic process. Binding of triglyceride-rich lipoproteins (TRL) or LDL together with LPL led to a spectacular increase in bound lipoproteins, which completely colocalized with LPL. After incubation at 37 degrees C, LPL and 1,1'-dioctadecyl-3,3,3,'3'-tetramethylindocarbocyanine (DiI)-TRL formed large clusters on the cell surface. Immunofluorescene and quantitative immunoelectron microscopy provided evidence of co-internalization of LPL and apoE-containing TRL by a slow endocytic process. In the absence of LPL, the fibroblasts rapidly internalized DiI-LDL and showed fluorescence in central, lysosome-like vesicles. In contrast, when LPL was present, internalization of DiI-LDL involved small, widely distributed vesicles. This pattern slowly changed to one consisting of large perinuclear vesicles. LDL receptor-deficient fibroblasts internalized DiI-LDL, either with or without LPL, into small widely distributed vesicles and no central vesicles were seen. Chloroquine-treated normal fibroblasts internalized DiI-LDL in a pattern similar to that of receptor-deficient fibroblasts. Taken together our results suggest an alternative receptor-independent endocytosis pathway for LDL. This pathway is potentiated by LPL and is characterized by a slow uptake involving small vesicles that gradually reach lysosomes. We suggest that, through its interaction with HSPG, LPL provides high capacity binding sites for lipoproteins and a independent internalization pathway.
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