Human Apolipoprotein A-II Enrichment Displaces Paraoxonase From HDL and Impairs Its Antioxidant Properties A New Mechanism Linking HDL Protein Composition and Antiatherogenic Potential
Vicent Ribas,José Luis Sánchez-Quesada,Rosa Antón,Mercedes Camacho,Josep Julve,Joan Carles Escolà-Gil,Luis Vila,Jordi Ordóñez-Llanos,Francisco Blanco-Vaca +8 more
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In conclusion, overexpression of human apoA-II in mice impairs the ability of HDL to protect apoB-containing lipoproteins from oxidation, which could explain in part why PON1 is mostly found in HDL particles with apo a-I and without apo A-II, as well as the poor antiatherogenic properties of apo-II–rich HDL.Abstract:
Apolipoprotein A-II (apoA-II), the second major high-density lipoprotein (HDL) apolipoprotein, has been linked to familial combined hyperlipidemia. Human apoA-II transgenic mice constitute an animal model for this proatherogenic disease. We studied the ability of human apoA-II transgenic mice HDL to protect against oxidative modification of apoB-containing lipoproteins. When challenged with an atherogenic diet, antigens related to low-density lipoprotein (LDL) oxidation were markedly increased in the aorta of 11.1 transgenic mice (high human apoA-II expressor). HDL from control mice and 11.1 transgenic mice were coincubated with autologous very LDL (VLDL) or LDL, or with human LDL under oxidative conditions. The degree of oxidative modification of apoB lipoproteins was then evaluated by measuring relative electrophoretic mobility, dichlorofluorescein fluorescence, 9- and 13-hydroxyoctadecadienoic acid content, and conjugated diene kinetics. In all these different approaches, and in contrast to control mice, HDL from 11.1 transgenic mice failed to protect LDL from oxidative modification. A decreased content of apoA-I, paraoxonase (PON1), and platelet-activated factor acetyl-hydrolase activities was found in HDL of 11.1 transgenic mice. Liver gene expression of these HDL-associated proteins did not differ from that of control mice. In contrast, incubation of isolated human apoA-II with control mouse plasma at 37°C decreased PON1 activity and displaced the enzyme from HDL. Thus, overexpression of human apoA-II in mice impairs the ability of HDL to protect apoB-containing lipoproteins from oxidation. Further, the displacement of PON1 by apoA-II could explain in part why PON1 is mostly found in HDL particles with apoA-I and without apoA-II, as well as the poor antiatherogenic properties of apoA-II–rich HDL.read more
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Functionally Defective High-Density Lipoprotein: A New Therapeutic Target at the Crossroads of Dyslipidemia, Inflammation, and Atherosclerosis
Anatol Kontush,M. John Chapman +1 more
TL;DR: A preferential increase in circulating concentrations of HDL particles possessing normalized antiatherogenic activity is therefore a promising therapeutic strategy for the treatment of common metabolic diseases featuring dyslipidemia, inflammation, and premature atherosclerosis.
Journal ArticleDOI
Antiatherogenic function of HDL particle subpopulations: focus on antioxidative activities.
Anatol Kontush,M. John Chapman +1 more
TL;DR: Pharmacological normalization of HDL metabolism concomitantly with correction of circulating levels, composition and biological activities of HDL particles, with enrichment in apoA-I and reduction in HDL surface rigidity, may constitute an efficacious therapeutic approach to attenuate atherosclerosis in dyslipidaemic patients at high cardiovascular risk.
Journal ArticleDOI
The paraoxonases: role in human diseases and methodological difficulties in measurement
TL;DR: The state of knowledge on PON biochemistry and function, the influence of genetic variations, and the involvement of PON in several diseases are summarized.
Journal ArticleDOI
High Affinity, Stability, and Lactonase Activity of Serum Paraoxonase PON1 Anchored on HDL with ApoA-I†
Leonid Gaidukov,Dan S. Tawfik +1 more
TL;DR: The results indicate the high stability, selectivity, and catalytic proficiency of PON1 when anchored onto apoA-I HDL, toward lactone substrates, and lipophilic lactones in particular.
Journal ArticleDOI
Increased Atherosclerosis in Mice Lacking Apolipoprotein A-I Attributable to Both Impaired Reverse Cholesterol Transport and Increased Inflammation
Ryan E. Moore,Mohamad Navab,John S. Millar,Francesca Zimetti,Susan Hama,George H. Rothblat,Daniel J. Rader +6 more
TL;DR: It is concluded that apoA-I inhibits atherosclerosis by promoting both macrophage reverse cholesterol transport and HDL antiinflammatory function, and that these anti-atherogenic functions of apo-I are largely independent of the plasma level of HDL-C in this mouse model.
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TL;DR: The results suggest that PON in HDL may protect against the induction of inflammatory responses in artery wall cells by destroying biologically active lipids in mildly oxidized LDL.
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Paraoxonase inhibits high-density lipoprotein oxidation and preserves its functions. A possible peroxidative role for paraoxonase.
Michael Aviram,Mira Rosenblat,Charles L. Bisgaier,Roger S. Newton,S. L. Primo-Parmo,B N La Du +5 more
TL;DR: It is concluded that HDL-associated PON possesses peroxidase-like activity that can contribute to the protective effect of PON against lipoprotein oxidation, and may be a major contributor to the antiatherogenicity of this lipop Protein.