Apolipoprotein A-I peptide models as probes to formulate potential inhibitors of the low-density lipoprotein oxidation.

Apolipoprotein A-I (apoA-I), which constitutes the principal protein component of high-density lipoprotein, is responsible for its major antiatherogenic functions. Aiming at contributing to the development of potent inhibitors of low-density lipoprotein (LDL) peptide models of helices 4,6 and 9,10 of apoA-I were designed and synthesized. Specific amino acid substitutions, resulting in transformation of the original helix class A and Y to G according to the Schiffer and Edmundson helical wheel representation, were introduced in order to validate the contribution of these modifications in the inhibitory activity of the synthesized peptide models against the LDL oxidation. The role of Met at positions 112 (helix 4) and 148 (helix 6) as oxidant scavenger was also investigated. The helical characteristics of all the peptide models were studied by CD in membrane-mimicking microenvironments and compared with the original helices.

Effect of Plant Polyphenols on Adipokine Secretion from Human SGBS Adipocytes.

Introduction. Adipose tissue contributes to atherosclerosis with mechanisms related to adipokine secretion. Polyphenols may exhibit antiatherogenic properties. The aim of the study was to investigate the effects of three polyphenols, namely, quercetin, epigallocatechin gallate (EGCG), and resveratrol on adipokine secretion from cultured human adipocytes. Methods. Human SGBS adipocytes were treated with quercetin, EGCG, and resveratrol for 24 and 48 hours. Visfatin, leptin, and adiponectin were measured in the supernatant. Results. Visfatin secretion was inhibited by quercetin 10 µM by 16% and 24% at 24 and 48 hours respectively. The corresponding changes for quercetin 25 µM were 47% and 48%. Resveratrol 25 µM reduced visfatin by 28% and 38% at 24 and 48 hours. EGCG did not have an effect on visfatin. None of tested polyphenols influenced leptin and adiponectin secretion. Conclusion. Quercetin and resveratrol significantly decreased visfatin secretion from SGBS adipocytes. This effect may contribute to their overall antiatherogenic properties.

Efficient enzymatic preparation of hydroxycinnamates in ionic liquids enhances their antioxidant effect on lipoproteins oxidative modification.

Biocatalytic lipophilization of hydroxycinnamic acids was performed in several BF(4)(-) and PF(6)(-) imidazolium ionic liquids using immobilized lipases. The influence of various reaction parameters on the performance of the biocatalytic process was pointed out, using as model reaction the esterification of ferulic acid. The biocatalytic lipophilization strongly depended on the ion composition of ionic liquids used. Conversions and initial reaction rates were significantly higher in PF(6)(-) as compared with BF(4)(-) ionic liquids and commonly used organic solvents. The high enzyme stability and the relative solubility of substrate versus product in PF(6)(-) ionic liquids can account for the improved synthesis of lipophilic ferulates. These lipophilic derivatives, when used at a concentration of up to 400-fold lower than the parental compound, efficiently inhibited the oxidation of isolated LDL, HDL and total serum in vitro. Moreover, it has been shown for the first time that the lipophilic ferulates improve the antioxidant efficiency of the HDL(3c) towards LDL in vitro oxidation.

Recent advances on the antiatherogenic effects of HDL-derived proteins and mimetic peptides.

The plasma levels of high-density lipoprotein (HDL) cholesterol are inversely correlated with the risk of atherosclerosis and cardiovascular disease (CVD) in humans. One of the major mechanisms whereby HDL particles protect against atherosclerosis is that of reverse cholesterol transport from atherosclerotic lesion macrophages to the liver. HDL particles also exhibit various antiatherogenic and cardioprotective effects by modulating the function of various cells including the cells of the artery wall and by expressing antioxidant, anti-inflammatory, antithrombotic and antiapoptotic effects. Most these effects are mediated by various lipid and protein HDL components. A plethora of studies have been conducted in order to shed light on the mechanisms by which each HDL component contributes to the functionality of this lipoprotein. The complete elucidation of these mechanisms will significantly contribute to current efforts focused on the development of therapeutic strategies to promote the antiatherogenic potency of HDL. The present review discusses current knowledge on the biological activities of the major apolipoproteins and enzymes associated with HDL, which may significantly contribute to the overall antiatherogenic and cardioprotective effects of this lipoprotein.

Conformational study of new amphipathic alpha-helical peptide models of apoA-I as potential atheroprotective agents.

Aiming at contributing to the development of potential atheroprotective agents, we report on the concept and design of two peptide models, which mimic the amphipathic helices of apoA-I and incorporate Met into their sequences to validate its role as oxidant scavenger: Ac-ESK(Palm)KELSKSW(10)SEM(13)LKEK(Palm)SKS-NH(2) (model 1 [W(10), M(13)]) and Ac-ESK(Palm)KELSKSM(10)SEW(13)LKEK(Palm)SKS-NH(2) (model 2 [M(10), W(13)]). Hydrophobic residues of both models cover about the half of the surface, while the positively and negatively charged residues constitute two separate clusters on the hydrophilic face. Palmitoyl groups were introduced into the Lys-N(epsilon)H(2) groups at positions 3 and 17 to contribute to the amphipathic character of the peptides and stabilize the nonpolar face of the helix. Conformational study by the combined application of 2D-NMR and molecular dynamics simulations, CD, FTIR, and fluorescence spectroscopy revealed that model 1 adopts helical conformation and Met is well exposed to the microenvironment. Model 2 that derives from model 1 by exchanging W(10) (model 1) with M(10) and M(13) (model 1) with W(13) also displays helical characteristics, while Met is rather shielded. Oxidation experiments indicated that model 1 exhibits a 2-fold more potent antioxidant activity towards LDL oxidation, compared to model 2, confirming the role of Met, when is devoid of steric hindrances, as oxidant scavenger for the protection of LDL.