Size, density and cholesterol load of HDL predict microangiopathy, coronary artery disease and β-cell function in men with T2DM

• Published in: Diabetes & metabolic syndrome clinical research & reviews Vol. 11; no. 2; pp. 125 - 131
• Main Authors: Hermans, Michel P., MD, PhD, DipNatSci, DipEarthSci, DipGeogEnv, PGCert (SocSc), Amoussou-Guenou, K. Daniel, Bouenizabila, Evariste, Sadikot, Shaukat S, Ahn, Sylvie A, Rousseau, Michel F
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier Ltd 01.04.2017
• Subjects: Aged; Aged, 80 and over; Apolipoprotein A-I; Apolipoprotein A-I - blood; Biomarkers - blood; Cholesterol, HDL - blood; Cohort Studies; Coronary artery disease; Coronary Artery Disease - blood; Diabetes Mellitus, Type 2 - blood; Diabetic Angiopathies - blood; Endocrinology & Metabolism; HDL-C; Humans; Insulin-Secreting Cells - physiology; Male; Microangiopathy; Middle Aged; β-cell function; HDL-C; β-cell function; Microangiopathy; Coronary artery disease; Apolipoprotein A-I
• ISSN: 1871-4021; 1878-0334
• DOI: 10.1016/j.dsx.2016.08.029

Abstract The role of high-density lipoprotein cholesterol (HDL-C) as modifiable risk factor for cardiovascular (CV) disease is increasingly debated, notwithstanding the finding that small-dense and dysfunctional HDL are associated with the metabolic syndrome and T2DM. In order to better clarify the epidemiological risk related to HDL of different size/density, without resorting to direct measures, it would seem appropriate to adjust HDL-C to the level of its main apolipoprotein (apoA-I), thereby providing an [HDL-C/apoA-I] ratio. The latter allows not only to estimate an average size for HDLs, but also to derive indices on particle number, cholesterol load, and density. So far, the potential usefulness of this ratio in diabetes is barely addressed. To this end, we sorted 488 male patients with T2DM according to [HDL-C/apoA-I] quartiles (Q), to determine how the ratio relates to cardiometabolic risk, β-cell function, glycaemic control, and micro- and macrovascular complications. Five lipid parameters were derived from the combined determination of HDL-C and apoA-I, namely HDL size; particle number; cholesterol load/particle; apoA-I/particle; and particle density. An unfavorable cardiometabolic profile characterized patients from QI and QII, in which HDLs were pro-atherogenic, denser and apoA-I-depleted. By contrast, QIII patients had an [HDL-C/apoA-I] ratio close to that of non-diabetic controls. QIV patients had better than average HDL size and composition, and in those patients whose [HDL-C/apoA-I] ratio was above normal, a more favorable phenotype was observed regarding lifestyle, anthropometry, metabolic comorbidities, insulin sensitivity, MetS score/severity, glycaemic control, and target-organ damage pregalence in small or large vessels. In conclusion, [HDL-C/apoA-I] and the resulting indices of HDL composition and functionality predict macrovascular risk and β-cell function decline, as well as overall microangiopathic risk, suggesting that this ratio could serve both in cardiometabolic assessment and as biomarker of vascular complications.