OBJECTIVE: To examine and compare the composition, fluidity and oxidizability of HDL hydrophobic core and amphipathic surface of two groups of adult males (25kg/m²<BMI<30kg/m²), the former mixed dyslipidemic patients (MD) and the latter age- and BMI-matched healthy controls. METHODS AND RESULTS: Pyrenyl-cholesteryl ester and pyrenyl-phosphatidylcholine, respectively incorporated in HDL core or surface were used for measuring both 2,2'-azobis-2-methyl-propanimidamide-dihydrochloride-induced peroxidation kinetics and fluidities of these regions. In comparison with the controls, MD HDL showed: a) higher free cholesterol to phospholipid ratio in surface and triacylglycerols to cholesteryl ester ratio in the core, b) higher malondialdehyde levels and lower alpha-tocopherol and beta-carotene to neutral lipid ratios, c) a more rigid surface and more fluid core, d) dramatically decreased lag-time and increased propagation rate of peroxidation kinetic in the core, but only an increased propagation rate on the surface. CONCLUSION: These results suggest that better knowledge of the physical-chemical properties and oxidizability of HDL core and surface could contribute to better understanding of the mechanisms connecting HDL alteration to increased risk of CDV in MD.
OBJECTIVE: To examine and compare the composition, fluidity and oxidizability of HDL hydrophobic core and amphipathic surface of two groups of adult males (25kg/m²<BMI<30kg/m²), the former mixed dyslipidemic patients (MD) and the latter age- and BMI-matched healthy controls. METHODS AND RESULTS:Pyrenyl-cholesteryl ester and pyrenyl-phosphatidylcholine, respectively incorporated in HDL core or surface were used for measuring both 2,2'-azobis-2-methyl-propanimidamide-dihydrochloride-induced peroxidation kinetics and fluidities of these regions. In comparison with the controls, MD HDL showed: a) higher free cholesterol to phospholipid ratio in surface and triacylglycerols to cholesteryl ester ratio in the core, b) higher malondialdehyde levels and lower alpha-tocopherol and beta-carotene to neutral lipid ratios, c) a more rigid surface and more fluid core, d) dramatically decreased lag-time and increased propagation rate of peroxidation kinetic in the core, but only an increased propagation rate on the surface. CONCLUSION: These results suggest that better knowledge of the physical-chemical properties and oxidizability of HDL core and surface could contribute to better understanding of the mechanisms connecting HDL alteration to increased risk of CDV in MD.
Authors: Stephen J Peterson; Luca Vanella; Angelica Bialczak; Joseph Schragenheim; Ming Li; Lars Bellner; Joseph I Shapiro; Nader G Abraham Journal: Cell Stem Cells Regen Med Date: 2016-04-27
Authors: Monica Zocchi; Matteo Della Porta; Federico Lombardoni; Roberta Scrimieri; Gian Vincenzo Zuccotti; Jeanette A Maier; Roberta Cazzola Journal: Biomedicines Date: 2022-06-07
Authors: Roberta Cazzola; Matteo Della Porta; Sara Castiglioni; Luciano Pinotti; Jeanette A M Maier; Benvenuto Cestaro Journal: Molecules Date: 2019-12-28 Impact factor: 4.411
Authors: L Montefusco; F D'Addio; C Loretelli; M Ben Nasr; M Garziano; A Rossi; I Pastore; L Plebani; M E Lunati; A M Bolla; M D Porta; G Piuri; F Rocchio; A Abdelsalam; E Assi; M Barichella; A Maestroni; V Usuelli; L Loreggian; F Muzio; G V Zuccotti; R Cazzola; P Fiorina Journal: J Endocrinol Invest Date: 2021-03-08 Impact factor: 4.256