采用新的载脂蛋白 B48 和载脂蛋白 B100 动力学非稳态整合模型研究人载脂蛋白 B48 代谢。

Investigation of human apoB48 metabolism using a new, integrated non-steady-state model of apoB48 and apoB100 kinetics.

机构信息

Department of Molecular and Clinical Medicine, University of Gothenburg and Sahlgrenska University Hospital, Gothenburg, Sweden.

Institute of Cardiovascular and Medical Sciences, University of Glasgow, Glasgow, UK.

出版信息

J Intern Med. 2019 May;285(5):562-577. doi: 10.1111/joim.12877. Epub 2019 Mar 12.

DOI:10.1111/joim.12877

PMID:30779243

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6849847/

Abstract

BACKGROUND

Triglyceride-rich lipoproteins and their remnants have emerged as major risk factors for cardiovascular disease. New experimental approaches are required that permit simultaneous investigation of the dynamics of chylomicrons (CM) and apoB48 metabolism and of apoB100 in very low-density lipoproteins (VLDL).

METHODS

Mass spectrometric techniques were used to determine the masses and tracer enrichments of apoB48 in the CM, VLDL and VLDL density intervals. An integrated non-steady-state multicompartmental model was constructed to describe the metabolism of apoB48- and apoB100-containing lipoproteins following a fat-rich meal, as well as during prolonged fasting.

RESULTS

The kinetic model described the metabolism of apoB48 in CM, VLDL and VLDL . It predicted a low level of basal apoB48 secretion and, during fat absorption, an increment in apoB48 release into not only CM but also directly into VLDL and VLDL . ApoB48 particles with a long residence time were present in VLDL, and in subjects with high plasma triglycerides, these lipoproteins contributed to apoB48 measured during fasting conditions. Basal apoB48 secretion was about 50 mg day , and the increment during absorption was about 230 mg day . The fractional catabolic rates for apoB48 in VLDL and VLDL were substantially lower than for apoB48 in CM.

DISCUSSION

This novel non-steady-state model integrates the metabolic properties of both apoB100 and apoB48 and the kinetics of triglyceride. The model is physiologically relevant and provides insight not only into apoB48 release in the basal and postabsorptive states but also into the contribution of the intestine to VLDL pool size and kinetics.

摘要

背景

富含甘油三酯的脂蛋白及其残粒已成为心血管疾病的主要危险因素。需要新的实验方法，以便同时研究乳糜微粒（CM）和载脂蛋白 B48 代谢以及极低密度脂蛋白（VLDL）中的载脂蛋白 B100 的动力学。

方法

采用质谱技术测定 CM、VLDL 和 VLDL 密度间隔中载脂蛋白 B48 的质量和示踪剂丰度。构建了一个集成的非稳态多室模型，以描述高脂肪餐后以及长时间禁食期间载脂蛋白 B48 和载脂蛋白 B100 脂蛋白的代谢。

结果

该动力学模型描述了 CM、VLDL 和 VLDL 中载脂蛋白 B48 的代谢。它预测了基础载脂蛋白 B48 分泌水平低，在脂肪吸收期间，不仅 CM 而且直接进入 VLDL 和 VLDL 的载脂蛋白 B48 释放增加。长半衰期的载脂蛋白 B48 颗粒存在于 VLDL 中，在血浆甘油三酯水平较高的受试者中，这些脂蛋白在空腹条件下有助于测量载脂蛋白 B48。基础载脂蛋白 B48 分泌约为 50mg/天，吸收期间增加约 230mg/天。VLDL 和 VLDL 中载脂蛋白 B48 的分解代谢率明显低于 CM 中的载脂蛋白 B48。

讨论

该新型非稳态模型整合了载脂蛋白 B100 和载脂蛋白 B48 的代谢特性以及甘油三酯的动力学。该模型具有生理学相关性，不仅提供了基础和吸收后状态下载脂蛋白 B48 释放的见解，还提供了肠道对 VLDL 池大小和动力学的贡献的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c36/6849847/65d6d44e9108/JOIM-285-562-g001.jpg

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采用新的载脂蛋白 B48 和载脂蛋白 B100 动力学非稳态整合模型研究人载脂蛋白 B48 代谢。

Investigation of human apoB48 metabolism using a new, integrated non-steady-state model of apoB48 and apoB100 kinetics.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

DISCUSSION

背景

方法

结果

讨论

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