Comparison of apolipoprotein and proteoglycan deposits in human coronary atherosclerotic plaques : Colocalization of biglycan with apolipoproteins

Because the content of specific proteoglycans and apolipoproteins is increased in atherosclerotic plaques and in vitro studies have suggested a role for proteoglycans in mediating plaque apolipoprotein (apo) retention, immunohistochemistry was performed to systematically examine the relative locatio...

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Veröffentlicht in:	Circulation (New York, N.Y.) N.Y.), 1998-08, Vol.98 (6), p.519-527
Hauptverfasser:	O'BRIEN, K. D, OLIN, K. L, ALPERS, C. E, CHIU, W, FERGUSON, M, HUDKINS, K, WIGHT, T. N, CHAIT, A
Format:	Artikel
Sprache:	eng
Schlagworte:	Apolipoprotein A-I - metabolism Apolipoproteins - metabolism Apolipoproteins B - metabolism Apolipoproteins E - metabolism Atherosclerosis (general aspects, experimental research) Biglycan Biological and medical sciences Blood and lymphatic vessels Cardiology. Vascular system Coronary Artery Disease - metabolism Coronary Artery Disease - pathology Coronary Vessels - metabolism Coronary Vessels - pathology Extracellular Matrix Proteins Humans Immunohistochemistry Macrophages - pathology Medical sciences Necrosis Proteoglycans - metabolism Tissue Distribution
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container_end_page	527
container_issue	6
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container_title	Circulation (New York, N.Y.)
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creator	O'BRIEN, K. D OLIN, K. L ALPERS, C. E CHIU, W FERGUSON, M HUDKINS, K WIGHT, T. N CHAIT, A
description	Because the content of specific proteoglycans and apolipoproteins is increased in atherosclerotic plaques and in vitro studies have suggested a role for proteoglycans in mediating plaque apolipoprotein (apo) retention, immunohistochemistry was performed to systematically examine the relative locations of proteoglycans and apolipoproteins in human atherosclerosis. The spatial relationships of versican, biglycan, and apoE were compared on 68 human coronary artery segments; apoA-I and apoB also were evaluated on an additional 20 segments. Nonatherosclerotic intima contained extensive deposits of versican, whereas deposits of apoE, apoB, and apoA-I were much less prevalent. In contrast, nearly all atherosclerotic segments contained substantial deposits of biglycan, apoE, apoA-I, and apoB. There was a high degree of colocalization of apoE and biglycan deposits. ApoA-I, the major apolipoprotein of HDL, and apoB also were detected in regions with apoE and biglycan deposition. Exceptions to the localization of biglycan with apolipoproteins were found in regions that lacked intact extracellular matrix because of necrosis or dense macrophage accumulation. In vitro studies demonstrated that biglycan binds apoE-containing but not apoE-free HDL and that biglycan also binds LDL. These results suggest that biglycan may bind apoE and apoB in atherosclerotic intima. They also raise the possibility that apoE may act as a "bridging" molecule that traps apoA-I-containing HDL in atherosclerotic intima. Taken together, these findings are consistent with the hypothesis that biglycan may contribute to the pathogenesis of atherosclerosis by trapping lipoproteins in the artery wall.
doi_str_mv	10.1161/01.CIR.98.6.519
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In contrast, nearly all atherosclerotic segments contained substantial deposits of biglycan, apoE, apoA-I, and apoB. There was a high degree of colocalization of apoE and biglycan deposits. ApoA-I, the major apolipoprotein of HDL, and apoB also were detected in regions with apoE and biglycan deposition. Exceptions to the localization of biglycan with apolipoproteins were found in regions that lacked intact extracellular matrix because of necrosis or dense macrophage accumulation. In vitro studies demonstrated that biglycan binds apoE-containing but not apoE-free HDL and that biglycan also binds LDL. These results suggest that biglycan may bind apoE and apoB in atherosclerotic intima. They also raise the possibility that apoE may act as a "bridging" molecule that traps apoA-I-containing HDL in atherosclerotic intima. 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These results suggest that biglycan may bind apoE and apoB in atherosclerotic intima. They also raise the possibility that apoE may act as a "bridging" molecule that traps apoA-I-containing HDL in atherosclerotic intima. Taken together, these findings are consistent with the hypothesis that biglycan may contribute to the pathogenesis of atherosclerosis by trapping lipoproteins in the artery wall.</description><subject>Apolipoprotein A-I - metabolism</subject><subject>Apolipoproteins - metabolism</subject><subject>Apolipoproteins B - metabolism</subject><subject>Apolipoproteins E - metabolism</subject><subject>Atherosclerosis (general aspects, experimental research)</subject><subject>Biglycan</subject><subject>Biological and medical sciences</subject><subject>Blood and lymphatic vessels</subject><subject>Cardiology. 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source	MEDLINE; American Heart Association Journals; Journals@Ovid Complete; EZB-FREE-00999 freely available EZB journals
subjects	Apolipoprotein A-I - metabolism Apolipoproteins - metabolism Apolipoproteins B - metabolism Apolipoproteins E - metabolism Atherosclerosis (general aspects, experimental research) Biglycan Biological and medical sciences Blood and lymphatic vessels Cardiology. Vascular system Coronary Artery Disease - metabolism Coronary Artery Disease - pathology Coronary Vessels - metabolism Coronary Vessels - pathology Extracellular Matrix Proteins Humans Immunohistochemistry Macrophages - pathology Medical sciences Necrosis Proteoglycans - metabolism Tissue Distribution
title	Comparison of apolipoprotein and proteoglycan deposits in human coronary atherosclerotic plaques : Colocalization of biglycan with apolipoproteins
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