Low Density Lipoprotein Receptor Class A Repeats Are O-Glycosylated in Linker Regions

Nis Borbye Pedersen,Shengjun Wang,Yoshiki Narimatsu,Zhang Yang,Adnan Halim,Katrine Ter-Borch Gram Schjoldager,Thomas Daugbjerg Madsen,Nabil G Seidah,Eric Paul Bennett,Steven B Levery,Henrik Clausen

doi:10.1074/jbc.m113.545053

Abstract

The low density lipoprotein receptor (LDLR) is crucial for cholesterol homeostasis and deficiency in LDLR functions cause hypercholesterolemia. LDLR is a type I transmembrane protein that requires O-glycosylation for stable expression at the cell surface. It has previously been suggested that LDLR O-glycosylation is found N-terminal to the juxtamembrane region. Recently we identified O-glycosylation sites in the linker regions between the characteristic LDLR class A repeats in several LDLR-related receptors using the "SimpleCell" O-glycoproteome shotgun strategy. Herein, we have systematically characterized O-glycosylation sites on recombinant LDLR shed from HEK293 SimpleCells and CHO wild-type cells. We find that the short linker regions between LDLR class A repeats contain an evolutionarily conserved O-glycosylation site at position -1 of the first cysteine residue of most repeats, which in wild-type CHO cells is glycosylated with the typical sialylated core 1 structure. The glycosites in linker regions of LDLR class A repeats are conserved in LDLR from man to Xenopus and found in other homologous receptors. O-Glycosylation is controlled by a large family of polypeptide GalNAc transferases. Probing into which isoform(s) contributed to glycosylation of the linker regions of the LDLR class A repeats by in vitro enzyme assays suggested a major role of GalNAc-T11. This was supported by expression of LDLR in HEK293 cells, where knock-out of the GalNAc-T11 isoform resulted in the loss of glycosylation of three of four linker regions.

Highlights

Evidence of O-glycosylation of the LDL receptor (LDLR) ligand-binding domain has been reported
Expression of low density lipoprotein receptor (LDLR) in CHO and HEK293—We previously identified a single O-glycopeptide in the LDLR covering the short linker region between LDLR class A repeats 2–3 in secreted LDLR using the SimpleCell approach [19, 20]
We identified glycopeptides from the same region in several LDLR-related receptors, and in most cases the glycosites were identified as the Ϫ1 Thr residue in the linker sequence motif between two LDLR class A repeats (XXC6XXXTC1-XX) [19, 20]

Summary

Background

Evidence of O-glycosylation of the LDL receptor (LDLR) ligand-binding domain has been reported. Probing into which isoform(s) contributed to glycosylation of the linker regions of the LDLR class A repeats by in vitro enzyme assays suggested a major role of GalNAc-T11 This was supported by expression of LDLR in HEK293 cells, where knock-out of the GalNAcT11 isoform resulted in the loss of glycosylation of three of four linker regions. In this study they used an LDLR construct without the stem region containing the putative proteolytic release site(s) as well as the juxtamembrane O-glycosylation sites Their results demonstrated that when expressed in CHO cells the surface expression and half-life of the LDLR, as well as its binding to LDL and internalization were not affected. The biological significance of these O-glycans is not yet clear, but our results provide a firm basis for functional studies

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION