The glycosylation-dependent interaction of perlecan core protein with LDL: implications for atherosclerosis[S]

Yu-Xin Xu; David Ashline; Li Liu; Carlos Tassa; Stanley Y. Shaw; Katya Ravid; Matthew D. Layne; Vernon Reinhold; Phillips W. Robbins

Journal of Lipid Research (Feb 2015)

The glycosylation-dependent interaction of perlecan core protein with LDL: implications for atherosclerosis[S]

Yu-Xin Xu,
David Ashline,
Li Liu,
Carlos Tassa,
Stanley Y. Shaw,
Katya Ravid,
Matthew D. Layne,
Vernon Reinhold,
Phillips W. Robbins

Affiliations

Yu-Xin Xu: To whom correspondence should be addressed; Center for Human Genetic Research and Cardiovascular Research CenterMassachusetts General Hospital, Boston, MA 02114; To whom correspondence should be addressed
David Ashline: The Glycomics Center, University of New Hampshire, Durham, NH 03824
Li Liu: Department of Molecular and Cell Biology, Boston University Henry M. Goldman School of Dental Medicine, Boston, MA 02118
Carlos Tassa: Center for Systems Biology, Massachusetts General Hospital, Boston, MA 02114
Stanley Y. Shaw: Center for Systems Biology, Massachusetts General Hospital, Boston, MA 02114
Katya Ravid: Departments of Medicine Boston University School of Medicine, Boston, MA 02118; Biochemistry, Boston University School of Medicine, Boston, MA 02118
Matthew D. Layne: Biochemistry, Boston University School of Medicine, Boston, MA 02118
Vernon Reinhold: The Glycomics Center, University of New Hampshire, Durham, NH 03824
Phillips W. Robbins: Department of Molecular and Cell Biology, Boston University Henry M. Goldman School of Dental Medicine, Boston, MA 02118

Journal volume & issue: Vol. 56, no. 2
pp. 266 – 276

Abstract

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Perlecan is a major heparan sulfate (HS) proteoglycan in the arterial wall. Previous studies have linked it to atherosclerosis. Perlecan contains a core protein and three HS side chains. Its core protein has five domains (DI–DV) with disparate structures and DII is highly homologous to the ligand-binding portion of LDL receptor (LDLR). The functional significance of this domain has been unknown. Here, we show that perlecan DII interacts with LDL. Importantly, the interaction largely relies on O-linked glycans that are only present in the secreted DII. Among the five repeat units of DII, most of the glycosylation sites are from the second unit, which is highly divergent and rich in serine and threonine, but has no cysteine residues. Interestingly, most of the glycans are capped by the negatively charged sialic acids, which are critical for LDL binding. We further demonstrate an additive effect of HS and DII on LDL binding. Unlike LDLR, which directs LDL uptake through endocytosis, this study uncovers a novel feature of the perlecan LDLR-like DII in receptor-mediated lipoprotein retention, which depends on its glycosylation. Thus, perlecan glycosylation may play a role in the early LDL retention during the development of atherosclerosis.

Published in Journal of Lipid Research

ISSN: 0022-2275 (Print); 1539-7262 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Science: Chemistry: Organic chemistry: Biochemistry
Website: https://www.journals.elsevier.com/journal-of-lipid-research

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