Irawati Deasy, Mamo John C L, Slivkoff-Clark Karin M, Soares Mario J, James Anthony P
1School of Public Health, Faculty of Health Sciences,Curtin University,Perth,WA 6102,Australia.
Br J Nutr. 2017 Feb;117(3):403-412. doi: 10.1017/S0007114517000150. Epub 2017 Feb 20.
TAG depleted remnants of postprandial chylomicrons are a risk factor for atherosclerosis. Recent studies have demonstrated that in the fasted state, the majority of chylomicrons are small enough for transcytosis to arterial subendothelial space and accelerate atherogenesis. However, the size distribution of chylomicrons in the absorptive state is unclear. This study explored in normolipidaemic subjects the postprandial distribution of the chylomicron marker, apoB-48, in a TAG-rich lipoprotein plasma fraction (Svedberg flotation rate (Sf>400), in partially hydrolysed remnants (Sf 20-400) and in a TAG-deplete fraction (Sf<20), following ingestion of isoenergetic meals with either palm oil (PO), rice bran or coconut oil. Results from this study show that the majority of fasting chylomicrons are within the potentially pro-atherogenic Sf<20 fraction (70-75 %). Following the ingestion of test meals, chylomicronaemia was also principally distributed within the Sf<20 fraction. However, approximately 40 % of subjects demonstrated exaggerated postprandial lipaemia specifically in response to the SFA-rich PO meal, with a transient shift to more buoyant chylomicron fractions. The latter demonstrates that heterogeneity in the magnitude and duration of hyper-remnantaemia is dependent on both the nature of the meal fatty acids ingested and possible metabolic determinants that influence chylomicron metabolism. The study findings reiterate that fasting plasma TAG is a poor indicator of atherogenic chylomicron remnant homoeostasis and emphasises the merits of considering specifically, chylomicron remnant abundance and kinetics in the context of atherogenic risk. Few studies address the latter, despite the majority of life being spent in the postprandial and absorptive state.
餐后乳糜微粒中甘油三酯(TAG)耗尽的残余物是动脉粥样硬化的危险因素。最近的研究表明,在空腹状态下,大多数乳糜微粒小到足以通过胞吞作用进入动脉内皮下间隙并加速动脉粥样硬化的发生。然而,吸收状态下乳糜微粒的大小分布尚不清楚。本研究在血脂正常的受试者中,探究了摄入等能量的棕榈油(PO)、米糠或椰子油餐后,富含TAG的脂蛋白血浆组分(斯维德伯格漂浮率(Sf>400))、部分水解的残余物(Sf 20 - 400)和TAG耗尽的组分(Sf<20)中乳糜微粒标志物载脂蛋白B - 48的餐后分布情况。本研究结果表明,大多数空腹乳糜微粒存在于潜在促动脉粥样硬化的Sf<20组分中(70 - 75%)。摄入试验餐后,乳糜微粒血症也主要分布在Sf<20组分中。然而,约40%的受试者表现出餐后血脂异常升高,特别是对富含饱和脂肪酸的PO餐有反应,乳糜微粒组分出现短暂向更具浮力的方向转变。后者表明,高残留血症的程度和持续时间的异质性既取决于摄入膳食脂肪酸的性质,也取决于影响乳糜微粒代谢的可能的代谢决定因素。研究结果重申,空腹血浆TAG是动脉粥样硬化性乳糜微粒残余物稳态的不良指标,并强调了在动脉粥样硬化风险背景下具体考虑乳糜微粒残余物丰度和动力学的优点。尽管大多数时间处于餐后和吸收状态,但很少有研究涉及后者。