Dissection of the Endogenous Cellular Pathways of PCSK9-induced Low Density Lipoprotein Receptor Degradation

Elevated levels of plasma low density lipoprotein (LDL)-cholesterol, leading to familial hypercholesterolemia, are enhanced by mutations in at least three major genes, the LDL receptor (LDLR), its ligand apolipoprotein B, and the proprotein convertase PCSK9. Single point mutations in PCSK9 are assoc...

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Published in:The Journal of biological chemistry 2009-10, Vol.284 (42), p.28856-28864
Main Authors: Poirier, Steve, Mayer, Gaetan, Poupon, Viviane, McPherson, Peter S., Desjardins, Roxane, Ly, Kevin, Asselin, Marie-Claude, Day, Robert, Duclos, Franck J., Witmer, Mark, Parker, Rex, Prat, Annik, Seidah, Nabil G.
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container_end_page 28864
container_issue 42
container_start_page 28856
container_title The Journal of biological chemistry
container_volume 284
creator Poirier, Steve
Mayer, Gaetan
Poupon, Viviane
McPherson, Peter S.
Desjardins, Roxane
Ly, Kevin
Asselin, Marie-Claude
Day, Robert
Duclos, Franck J.
Witmer, Mark
Parker, Rex
Prat, Annik
Seidah, Nabil G.
description Elevated levels of plasma low density lipoprotein (LDL)-cholesterol, leading to familial hypercholesterolemia, are enhanced by mutations in at least three major genes, the LDL receptor (LDLR), its ligand apolipoprotein B, and the proprotein convertase PCSK9. Single point mutations in PCSK9 are associated with either hyper- or hypocholesterolemia. Accordingly, PCSK9 is an attractive target for treatment of dyslipidemia. PCSK9 binds the epidermal growth factor domain A (EGF-A) of the LDLR and directs it to endosomes/lysosomes for destruction. Although the mechanism by which PCSK9 regulates LDLR degradation is not fully resolved, it seems to involve both intracellular and extracellular pathways. Here, we show that clathrin light chain small interfering RNAs that block intracellular trafficking from the trans-Golgi network to lysosomes rapidly increased LDLR levels within HepG2 cells in a PCSK9-dependent fashion without affecting the ability of exogenous PCSK9 to enhance LDLR degradation. In contrast, blocking the extracellular LDLR endocytosis/degradation pathway by a 4-, 6-, or 24-h incubation of cells with Dynasore or an EGF-AB peptide or by knockdown of endogenous autosomal recessive hypercholesterolemia did not significantly affect LDLR levels. The present data from HepG2 cells and mouse primary hepatocytes favor a model whereby depending on the dose and/or incubation period, endogenous PCSK9 enhances the degradation of the LDLR both extra- and intracellularly. Therefore, targeting either pathway, or both, would be an effective method to reduce PCSK9 activity in the treatment of hypercholesterolemia and coronary heart disease.
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title Dissection of the Endogenous Cellular Pathways of PCSK9-induced Low Density Lipoprotein Receptor Degradation
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