D. V. Aksenov scite author profile

Little is known about exogenous inhibitors of low-density lipoprotein (LDL) aggregation. The search for nontoxic and bioavailable inhibitors of LDL aggregation is of interest, especially considering that the suppression of the aggregation of LDL might represent a therapeutic approach. We hypothesized that amphiphilic copolymers of propylene oxide and ethylene oxide, the so-called Pluronic block copolymers, can be used to influence the aggregation of LDL. In this work we used Pluronic® P85, L61 and F68. A comparative study of the effects of Pluronic block copolymers with various hydrophilic-lipophilic properties on the aggregation process of LDL showed that Pluronic copolymers with strong hydrophobic properties (P85 and L61) at concentrations close to or greater than the respective critical concentration of micelle formation inhibited the aggregation process of LDL; however, the "hydrophilic" Pluronic F68 had no effect on the aggregation of LDL at any concentration. Thus, the study demonstrated for the first time that Pluronic® block copolymers inhibit LDL self-association. The possibility of modulating the aggregation of LDL by various Pluronic copolymers can be regarded as a prerequisite in the creation of new types of anti-atherosclerotic drugs.

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Revealing binding sites for myeloperoxidase on the surface of human low density lipoproteins

Sokolov

Чеканов

Kostevich

et al. 2011

Chemistry and Physics of Lipids

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Deglycosylation of apo B-containing lipoproteins increase their ability to aggregate and to promote intracellular cholesterol accumulationin vitro

Aksenov¹,

Medvedeva²,

Skalbe³

et al. 2008

Archives of Physiology and Biochemistry

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Desialylation Decreases the Resistance of Apo B-Containing Lipoproteins to Aggregation and Increases Their Atherogenic Potential

et al. 2005

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Subfractions of apo B-containing lipoproteins (VLDL and intermediate-density lipoproteins) with reduced content of sialic acid were found in human blood. These lipoproteins are characterized by high capacity to spontaneous association (aggregation) and stimulated accumulation of cholesterol in smooth muscle cells of human aortic intima. In vitro treatment of apo B-containing lipoproteins with alpha-2,6-sialidase and alpha-2,3-sialidase stimulated aggregation and increased the ability of these particles to potentiate cholesterol accumulation in smooth muscle cells of the intact human aortic intima. Probably, desialylation of various apo B-containing lipoproteins can occur in the blood; this process decreases their resistance to aggregation, and increases the ability of these particles to stimulate accumulation of cholesterol in human aortic intima cells, i.e. increases their atherogenic potential.

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D. V. Aksenov

Identification and properties of complexes formed by myeloperoxidase with lipoproteins and ceruloplasmin

Pluronic Block Copolymers Inhibit Low Density Lipoprotein Self‐Association

Revealing binding sites for myeloperoxidase on the surface of human low density lipoproteins

Deglycosylation of apo B-containing lipoproteins increase their ability to aggregate and to promote intracellular cholesterol accumulationin vitro

Desialylation Decreases the Resistance of Apo B-Containing Lipoproteins to Aggregation and Increases Their Atherogenic Potential

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