Abstract
Apolipoprotein B (apoB) is required for the hepatic assembly and secretion of very low density lipoprotein (VLDL). The LDL receptor (LDLR) promotes post-translational degradation of apoB and thereby reduces VLDL particle secretion. We investigated the trafficking pathways and ligand requirements for the LDLR to promote degradation of apoB. We first tested whether the LDLR drives apoB degradation in an endoplasmic reticulum (ER)-associated pathway. Primary mouse hepatocytes harboring an ethyl-nitrosourea-induced, ER-retained mutant LDLR secreted comparable levels of apoB with LDLR-null hepatocytes, despite reduced secretion from cells expressing the wild-type LDLR. Additionally, treatment of cells with brefeldin A inhibited LDLR-dependent degradation. However, this rescue was reversible, and degradation of apoB occurred upon removal of brefeldin A. To characterize the lipoprotein reuptake pathway of degradation, we employed an LDLR mutant defective in constitutive endocytosis and internalization of apoB. This mutant was as effective in reducing apoB secretion as the wild-type LDLR. However, the effect was dependent on apolipoprotein E (apoE) as only the wild-type LDLR, and not the endocytic mutant, reduced apoB secretion in apoE-null cells. Treatment with heparin rescued a pool of apoB in cells expressing the endocytic mutant, indicating that reuptake of VLDL via apoE still occurs with this mutant. Finally, an LDLR mutant defective in binding apoB but not apoE reduced apoB secretion in an apoE-dependent manner. Together, these data suggest that the LDLR directs apoB to degradation in a post-ER compartment. Furthermore, the reuptake mechanism of degradation occurs via internalization of apoB through a constitutive endocytic pathway and apoE through a ligand-dependent pathway.
Highlights
Apolipoprotein B3 is the major protein component of very low density lipoprotein (VLDL), the triglyceride-enriched lipoprotein particle produced by the liver. apoB is essential for the assembly and secretion of nascent VLDL particles [1,2,3]. apoB is constitutively expressed, and its stability is regulated through co- and post-translational degradation [4]
To determine whether retention of both the LDL receptor (LDLR) and apoB in the endoplasmic reticulum (ER) affects degradation of apoB, we investigated the effect of BFA on LDLR-dependent apoB degradation
We provided evidence that the LDLR does not induce the degradation of apoB within the ER (Fig. 1) and that anterograde transport from the ER is required for LDLR activity (Fig. 2)
Summary
Apolipoprotein B (apoB)3 is the major protein component of very low density lipoprotein (VLDL), the triglyceride-enriched lipoprotein particle produced by the liver. apoB is essential for the assembly and secretion of nascent VLDL particles [1,2,3]. apoB is constitutively expressed, and its stability is regulated through co- and post-translational degradation [4]. Studies in humans (6 – 8), mice (9 –11), primary hepatocytes [12,13,14,15], and human hepatoma cells [16] have revealed that the loss of LDLR activity leads to increased secretion of VLDL particles, due to a decrease in the degradation of apoB. This study sheds light on general mechanisms of LDLR-mediated degradation of apoB and predicts pathways by which an FH LDLR mutant may regulate VLDL secretion.
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