The NH2-terminal region of apolipoprotein B is sufficient for lipoprotein association with glycosaminoglycans

An initial event in atherosclerosis is the retention of lipoproteins within the intima of the vessel wall. The co-localization of apolipoprotein (apo) B and proteoglycans within lesions has suggested that retention is due to lipoprotein interaction with these highly electronegative glycoconjugates....

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Bibliographic Details
Published in:The Journal of biological chemistry 1998-12, Vol.273 (52), p.35355-35361
Main Authors: Goldberg, I.J. (Columbia University College of Physicians and Surgeons, NY.), Wagner, W.D, Pang, L, Paka, L, Curtiss, L.K, DeLozier, J.A, Shelness, G.S, Young, C.S.H, Pillarisetti, S
Format: Article
Language:English
Subjects:
AMINO ACID SEQUENCES
Animals
Antibodies, Monoclonal
Apolipoprotein B-100
Apolipoprotein B-48
Apolipoproteins B - immunology
Apolipoproteins B - metabolism
ARTERE
ARTERIAS
ARTERIES
Arteriosclerosis - etiology
BINDING
BINDING SITES
Binding, Competitive
Cattle
CHEMICAL COMPOSITION
Chromatography, Affinity
COMPOSICION QUIMICA
COMPOSITION CHIMIQUE
DECORIN
DERMATAN SULFATE
Endothelium, Vascular - metabolism
EPITELIO
EPITHELIUM
Extracellular Matrix - metabolism
GENERO HUMANO
GENRE HUMAIN
GLICOSAMINOGLICANOS
GLYCOSAMINOGLYCANE
GLYCOSAMINOGLYCANS
HEPARIN
Heparin - metabolism
HEPARINA
HEPARINE
Humans
LIPOPROTEINAS
LIPOPROTEINE
LIPOPROTEINS
Lipoproteins, LDL - metabolism
LOW DENSITY LIPOPROTEIN
MANKIND
Mice
Peptide Fragments - metabolism
Protein Binding
PROTEOGLICANOS
PROTEOGLYCANE
PROTEOGLYCANS
SUBENDOTHELIAL MATRIX
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Summary:An initial event in atherosclerosis is the retention of lipoproteins within the intima of the vessel wall. The co-localization of apolipoprotein (apo) B and proteoglycans within lesions has suggested that retention is due to lipoprotein interaction with these highly electronegative glycoconjugates. Both apoB100- and apoB48-containing lipoproteins, i.e. low density lipoproteins (LDLs) and chylomicron remnants, are atherogenic. This suggests that retention is due to determinants in the initial 48% of apoB. To test this, the interaction of an apoB fragment (apoB17), and apoB48- and apoB100- containing lipoproteins with heparin, subendothelial matrix, and artery wall purified proteoglycans was studied. ApoB100-containing LDL from humans and human apoB transgenic mice and apoB48-containing LDLs from apoE knockout mice were used. Despite the lack of the carboxyl-terminal 52% of apoB, the apoB48-LDL bound to heparin-affinity gel as well as did apoB100-LDL. An NH 2 -terminal fragment containing 17% of full-length apoB was made using a recombinant adenovirus; apoB17 bound to heparin as well as did LDL. Monoclonal antibodies against the NH 2 -terminal region of apoB decreased apoB100 LDL binding to heparin, whereas antibodies against the LDL receptor-binding region did not alter LDL-heparin interaction. The role of the NH 2 -terminal region of apoB in LDL interaction with matrix molecules was also assessed. Media containing apoB17 decreased LDL binding to subendothelial matrix by 42%. Moreover, removal of the apoB17 by immunoprecipitation abrogated the inhibitory effect of these media. Antibodies to the NH 2 -terminal region decreased LDL binding to matrix and dermatan sulfate proteoglycans. Purified apoB17 effectively competed for binding of LDL to artery derived decorin and to subendothelial matrix. Thus, despite the presence of multiple basic amino acids near the LDL receptor-binding domain of LDL, the NH 2 -terminal region of apoB is sufficient for the interaction of lipoproteins with glycoconjugates produced by endothelial and smooth muscle cells. The presence of a proteoglycan-binding site in the NH 2 -terminal region of apoB may explain why apoB48- and apoB100-containing lipoproteins are equally atherogenic.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.273.52.35355