Dysfunctional HDL: From Structure-Function-Relationships to Biomarkers

Riwanto, Meliana; Rohrer, Lucia; Eckardstein, Arnold von; Landmesser, Ulf

doi:10.1007/978-3-319-09665-0_10

Cited by 52 publications

(58 citation statements)

References 181 publications

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“…Indeed, both absolute levels and profiles of total PC-P + PE-P(20:4) and PC-P + PE-P(22:6) at D0 and at D180 in native LDL, HDL2, and HDL3 obtained by LC/MS closely resembled those quantitated as total plasmalogen by HPLC protects against the action of a wide spectrum of reactive oxygen species (ROS) and attenuates LDL oxidation in part by removal of seeding LOOH species (21,22,24,26,27,32,34,51). Central to HDL-mediated antioxidative activity is the direct reduction of LOOHs by methionine residues of apoAI and apoAII, with conversion to residuespecific methionine sulfoxides (apoAI + 16, apoAI + 32, and apoAII + 16) (21,(30)(31)(32).…”

Section: Discussionmentioning

confidence: 90%

“…Equally, however, evidence is emerging that HDL-associated plasmalogens, PLs containing a vinylether bond of high oxidative susceptibility, are implicated in this potentially antiatherogenic process (26,(33)(34)(35). Indeed, it is of immediate relevance that the oxidative products of plasmalogens do not propagate lipid peroxidation, thereby attenuating formation of proatherogenic secondary oxidation products such as aldehydes (33,35,36).…”

mentioning

confidence: 99%

“…By contrast, it is now established that HDL particles display defective biological activities across a wide range of dyslipidemic states associated with premature atherosclerotic vascular disease, and that such dysfunction is intimately linked to alterations in their lipidomic and proteomic profiles (22)(23)(24)(25)(26)(27). With respect to the lipidome, alterations in content of both neutral core [triacylglycerols and CEs] and electrostatically charged surface lipids [sphingolipids and phospholipids (PLs)] are implicated in HDL dysfunction in dyslipidemia (22)(23)(24)(25)(26)(27). To what degree then might statinmediated modulation of HDL metabolism and particle composition impact the HDL lipidome, and might such modulation contribute to potential statin-mediated normalization of defective HDL function in dyslipidemic states?…”

mentioning

confidence: 99%

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Statin action enriches HDL3 in polyunsaturated phospholipids and plasmalogens and reduces LDL-derived phospholipid hydroperoxides in atherogenic mixed dyslipidemia

Orsoni

Thérond

Tan

et al. 2016

Journal of Lipid Research

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Section: Discussionmentioning

confidence: 90%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Statin action enriches HDL3 in polyunsaturated phospholipids and plasmalogens and reduces LDL-derived phospholipid hydroperoxides in atherogenic mixed dyslipidemia

Orsoni

Thérond

Tan

et al. 2016

Journal of Lipid Research

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“…16 Since then, a broad spectrum of dysfunctions of HDL in patients with cardiovascular diseases has been described, including a reduced cholesterol efflux capacity from macrophages and other cells, impaired anti-oxidative effects, a reduced ability to inhibit adhesion molecule expression on endothelial cells, a lack of the normal ability to stimulate endothelial nitric oxide bioavailability as well as diminished activities to promote endothelial cell survival. 5,39 There are several examples of dysfunction where HDL was not only characterized by loss or reduction of normal functionality but by the gain of atypical functions. For example, HDL of patients with CAD or chronic kidney disease (CKD) was found to inhibit rather than stimulate nitric oxide production because it gained the ability to interact with the lectin-like oxidized LDL receptor LOX-1 and the toll-like receptors TLR2 and TLR4, respectively.…”

Section: Dysfunctional Hdl In Cardiovascular Diseasementioning

confidence: 99%

Dysfunctional high-density lipoproteins in coronary heart disease: implications for diagnostics and therapy

Annema

Eckardstein

2016

Translational Research

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Low plasma levels of high-density lipoprotein (HDL) cholesterol are associated with increased risks of coronary heart disease. HDL mediates cholesterol efflux from macrophages for reverse transport to the liver and elicits many anti-inflammatory and anti-oxidative activities which are potentially antiatherogenic. Nevertheless, HDL has not been successfully targeted by drugs for prevention or treatment of cardiovascular diseases. One potential reason is the targeting of HDL cholesterol which does not capture the structural and functional complexity of HDL particles. Hundreds of lipid species and dozens of proteins as well as several microRNAs have been identified in HDL. This physiological heterogeneity is further increased in pathologic conditions due to additional quantitative and qualitative molecular changes of HDL components which have been associated with both loss of physiological function and gain of pathologic dysfunction. This structural and functional complexity of HDL has prevented clear assignments of molecules to the functions of normal HDL and dysfunctions of pathologic HDL. Systematic analyses of structure-function relationships of HDL-associated molecules and their modifications are needed to test the different components and functions of HDL for their relative contribution in the pathogenesis of atherosclerosis. The derived biomarkers and targets may eventually help to exploit HDL for treatment and diagnostics of cardiovascular diseases.

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“…Recent investigations suggest that HDL-C may lose its antiatherosclerotic properties and turn dysfunctional in patients with chronic inflammatory disorder. 31 Therefore, dysfunctional HDL-C may be another therapeutic target to reduce residual risk. 32 The present study confirmed that insulin use at the time of baseline PCI was a significant independent predictor of nontarget lesions PCI in diabetic patients after DES implantation.…”

Section: Predictors Of Progression Of Clinical Nontarget Lesions Requmentioning

confidence: 99%

Percutaneous Coronary Intervention Rates and Associated Independent Predictors for Progression of Nontarget Lesions in Patients With Diabetes Mellitus After Drug-Eluting Stent Implantation

et al. 2015

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Little is known about clinically driven percutaneous coronary intervention (PCI) rates and predictors for progression of nontarget lesions in diabetic patients who have undergone drug-eluting stent (DES) implantation. We retrospectively analyzed the clinical and angiographic data of 2187 diabetic patients undergoing DES implantation. The cumulative rate of nontarget lesion PCI was 6.3% at 1 year, 14.3% at 2 years, and 19.8% at 3 years. The independent predictors of need for clinically driven PCI in patients with diabetes mellitus after DES implantation included obesity (odds ratio [OR] 2.303, 95% confidence interval [CI] 1.657-3.199, P < .001), low levels of high-density lipoprotein cholesterol (OR 1.412, 95% CI 1.114-1.789, P ¼ .004), statin use (OR 0.669, 95% CI 0.454-0.986, P ¼ .042), insulin use (OR 1.310, 95% CI 1.030-1.665, P ¼ .027), and Synergy Between PCI With Taxus and Cardiac Surgery (SYNTAX) score (OR 1.061, 95% CI 1.045-1.077, P < .001) at baseline PCI. These findings may facilitate prediction of the risk of repeat revascularization and improve repeat revascularization rates in diabetic patients after DES implantation.

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Dysfunctional HDL: From Structure-Function-Relationships to Biomarkers

Cited by 52 publications

References 181 publications

Statin action enriches HDL3 in polyunsaturated phospholipids and plasmalogens and reduces LDL-derived phospholipid hydroperoxides in atherogenic mixed dyslipidemia

Statin action enriches HDL3 in polyunsaturated phospholipids and plasmalogens and reduces LDL-derived phospholipid hydroperoxides in atherogenic mixed dyslipidemia

Dysfunctional high-density lipoproteins in coronary heart disease: implications for diagnostics and therapy

Percutaneous Coronary Intervention Rates and Associated Independent Predictors for Progression of Nontarget Lesions in Patients With Diabetes Mellitus After Drug-Eluting Stent Implantation

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