Younis Nahla, Charlton-Menys Valentine, Sharma Reena, Soran Handrean, Durrington Paul N
Cardiovascular Research Group, Core Technology Facility (3rd Floor), University of Manchester, 46 Grafton Street, Manchester M13 9NT, UK.
Atherosclerosis. 2009 Jan;202(1):162-8. doi: 10.1016/j.atherosclerosis.2008.04.036. Epub 2008 Apr 26.
LDL atherogenicity is frequently attributed to oxidative modification, but glycated LDL, which can participate in many of the cellular processes leading to atherosclerosis, generally circulates at higher concentration even in non-diabetic people. We tested the hypothesis that small-dense LDL, known to be most closely associated with coronary heart disease, undergoes more glycation than other LDL sub-fractions.
The concentration of glycated apolipoprotein B (apo B) was measured in serum, LDL and its sub-fractions from 44 non-diabetic subjects. By ELISA serum glycated apoB concentration was 3.0+/-1.1mg/dl (mean+/-S.D.) of which 84.6+/-13.6% was in LDL. Of the glycated apo B in LDL 67.8+/-21.9% was in small dense LDL (LDL3; D1.044-1.063g/ml) whereas only 32.2+/-21.9% was in more buoyant LDL subfractions (LDL1 and 2; D1.019-1.044g/ml). The percentage of apo B present in LDL1 and 2 which was glycated was 1.8+/-1.8% whereas in LDL3 it was 17.4+/-18.5% (P<0.001). Furthermore when LDL sub-fractions from non-diabetics (n=29) were incubated with glucose (30-80mmol/l) glycation of apo B in the denser LDL3 subfraction was significantly more pronounced than in less dense LDL subfractions.
Small-dense LDL is more susceptible to glycation and this may contribute to the atherogenicity of small-dense LDL, even in non-diabetic people.
低密度脂蛋白(LDL)的致动脉粥样硬化性常被归因于氧化修饰,但糖化LDL即使在非糖尿病患者中通常也以较高浓度循环,它可参与导致动脉粥样硬化的许多细胞过程。我们检验了一个假说,即已知与冠心病关系最为密切的小而密LDL比其他LDL亚组分经历更多的糖化。
测定了44名非糖尿病受试者血清、LDL及其亚组分中糖化载脂蛋白B(apo B)的浓度。通过酶联免疫吸附测定法(ELISA),血清糖化apoB浓度为3.0±1.1mg/dl(均值±标准差),其中84.6±13.6%存在于LDL中。LDL中的糖化apo B,67.8±21.9%存在于小而密LDL(LDL3;密度1.044 - 1.063g/ml)中,而只有32.2±21.9%存在于浮力更大的LDL亚组分(LDL1和2;密度1.019 - 1.044g/ml)中。LDL1和2中糖化的apo B百分比为1.8±1.8%,而在LDL3中为17.4±18.5%(P<0.001)。此外,当将非糖尿病患者(n = 29)的LDL亚组分与葡萄糖(30 - 80mmol/l)一起孵育时,密度较大的LDL3亚组分中apo B的糖化比密度较小的LDL亚组分更明显。
小而密LDL更容易发生糖化,这可能导致小而密LDL的致动脉粥样硬化性,即使在非糖尿病患者中也是如此。