Abstract
Plasma low density lipoproteins from 20 patients were separated by capillary isotachophoresis (ITP). In each patient the apparent diameter of the predominant LDL peak on whole plasma was also determined by nondenaturing gradient gel electrophoresis. Furthermore the concentration of the more electronegatively charged in vivo oxidized LDL- was accomplished using anion exchange high pressure liquid chromatography. By analytical capillary ITP of whole plasma lipoproteins, prestained with a lipophilic dye, LDL were separated into four subfractions. Usually, the predominant subfraction was the slow migrating LDL4, followed by LDL3, and then by the faster LDL2 and LDL1. Slow migrating LDL4 correlated negatively with plasma triglycerides and LDL- and positively with plasma high density lipoprotein (HDL) cholesterol and with the LDL diameter, while the faster LDL1 showed an inverse behavior. The LDL1 + LDL2 to LDL3 + LDL4 ratio showed a strong positive correlation with LDL- concentration (r = 0.87; P < 0.001) and a highly significant inverse correlation with the LDL particle diameter (r = -0.74; P < 0.001). At least three highly atherogenic LDL that could be found in human plasma, namely oxidized, glycated and small-dense, are characterized by a greater electric charge. The LDL profile from capillary ITP and the relative prevalence of faster or slower migrating LDL fractions could indicate the presence of more atherogenic LDL.
Highlights
Plasma low density lipoproteins from 20 patients were separated by capillary isotachophoresis (ITP)
The results of this study agree with previous data showing that the abundance of small low density lipoproteins (LDL) particles, as measured by laser densitometric scanning of polyacrylamide gradient gels, correlate positively with plasma triglycerides and negatively with plasma high density lipoprotein (HDL)-C [5, 8, 27,28,29,30]
The aim of this study was, to verify whether changes in electric charge due to different size, structure of the particle, or to post-secretive phenomena, like oxidation, are detectable by capillary ITP, and whether this method offers information that is applicable to clinical practice
Summary
Plasma low density lipoproteins from 20 patients were separated by capillary isotachophoresis (ITP). By analytical capillary ITP of whole plasma lipoproteins, prestained with a lipophilic dye, LDL were separated into four subfractions. Slow migrating LDL4 correlated negatively with plasma triglycerides and LDL؊ and positively with plasma high density lipoprotein (HDL) cholesterol and with the LDL diameter, while the faster LDL1 showed an inverse behavior. The LDL1 ؉ LDL2 to LDL3 ؉ LDL4 ratio showed a strong positive correlation with LDL؊ concentration (r ؍0.87; P Ͻ 0.001) and a highly significant inverse correlation with the LDL particle diameter (r ϭ ؊0.74; P Ͻ 0.001). The LDL profile from capillary ITP and the relative prevalence of faster or slower migrating LDL fractions could indicate the presence of more atherogenic LDL.—Bittolo-Bon, G., and G. Analytical capillary isotachophoresis of total plasma lipoproteins: a new tool to identify atherogenic low density lipoproteins.
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