Apolipoproteins E and AV mediate lipoprotein clearance by hepatic proteoglycans
Jon C. Gonzales, … , Erin M. Foley, Jeffrey D. Esko
Jon C. Gonzales, … , Erin M. Foley, Jeffrey D. Esko
Published May 8, 2013
Citation Information: J Clin Invest. 2013;123(6):2742-2751. https://doi.org/10.1172/JCI67398.
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Research Article Cardiology

Apolipoproteins E and AV mediate lipoprotein clearance by hepatic proteoglycans

Abstract

The heparan sulfate proteoglycan (HSPG) syndecan-1 (SDC1) acts as a major receptor for triglyceride-rich lipoprotein (TRL) clearance in the liver. We sought to identify the relevant apolipoproteins on TRLs that mediate binding to SDC1 and determine their clinical relevance. Evidence supporting ApoE as a major determinant arose from its enrichment in TRLs from mice defective in hepatic heparan sulfate (Ndst1f/fAlbCre+ mice), decreased binding of ApoE-deficient TRLs to HSPGs on human hepatoma cells, and decreased clearance of ApoE-deficient [3H]TRLs in vivo. Evidence for a second ligand was suggested by the faster clearance of ApoE-deficient TRLs after injection into WT Ndst1f/fAlbCre versus mutant Ndst1f/fAlbCre+ mice and elevated fasting and postprandial plasma triglycerides in compound Apoe–/–Ndst1f/fAlbCre+ mice compared with either single mutant. ApoAV emerged as a candidate based on 6-fold enrichment of ApoAV in TRLs accumulating in Ndst1f/fAlbCre+ mice, decreased binding of TRLs to proteoglycans after depletion of ApoAV or addition of anti-ApoAV mAb, and decreased heparan sulfate–dependent binding of ApoAV-deficient particles to hepatocytes. Importantly, disruption of hepatic heparan sulfate–mediated clearance increased atherosclerosis. We conclude that clearance of TRLs by hepatic HSPGs is atheroprotective and mediated by multivalent binding to ApoE and ApoAV.

Authors

Jon C. Gonzales, Philip L.S.M. Gordts, Erin M. Foley, Jeffrey D. Esko

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Figure 3

TRL binding to heparan sulfate is independent of ApoB.

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TRL binding to heparan sulfate is independent of ApoB. (A) Binding of [3...
(A) Binding of [3H]TRLs from Apob100/100 and Apob48/48 mice to Hep3B cells was measured before (filled bars) or after (open bars) treatment with heparin lyases (n = 4). Binding of WT [3H]TRLs done at the same time is repeated here from Figure 1B for comparison. (B) Fasting plasma triglycerides from Apob100/100Ndst1f/fAlbCre (n = 12, filled triangles), Apob100/100Ndst1f/fAlbCre+ (n = 13, open triangles), Apob48/48Ndst1f/fAlbCre (n = 8, filled circles) and Apob48/48Ndst1f/fAlbCre+ (n = 13, open circles) mice were measured. Plasma triglycerides from Ndst1f/fAlbCre animals (squares) are included from Figure 2B for comparison. (C) Binding of purified [35S]HSPG ectodomains to human TRLs (hTRL) was measured by ultracentrifugation (see Methods). Binding of [35S]HSPGs to human TRLs (filled circles) occurred in a saturable manner and was inhibited by heparin (open circles). (D) Binding of [35S]HSPGs to ApoB48 only (open circles) or mixed human TRLs (filled circles) was measured. SDS-PAGE and silver staining for ApoB of purified human TRLs is also shown. (E) Diagram of epitope map for ApoB mAbs. Specific residues recognized by Abs are shown in parentheses, and heparin binding sites are shaded gray. Image is not drawn to scale. (F) [35S]HSPG binding to human TRLs was measured by ultracentrifugation in the absence (black bar) or presence of mouse IgG (dark gray bar) or mAbs specific for domains spanning ApoB (MB19, MB43, and/or MB47; light gray bars). A control experiment done without human TRLs (white bar) is shown for comparison.