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通过高分辨率/精确质量平行反应监测测定人高密度脂蛋白中的多种载脂蛋白动力学。

Multiple apolipoprotein kinetics measured in human HDL by high-resolution/accurate mass parallel reaction monitoring.

作者信息

Singh Sasha A, Andraski Allison B, Pieper Brett, Goh Wilson, Mendivil Carlos O, Sacks Frank M, Aikawa Masanori

机构信息

Center for Interdisciplinary Cardiovascular Sciences, Cardiovascular Division Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, MA.

Department of Nutrition, Harvard T. H. Chan School of Public Health, Boston, MA.

出版信息

J Lipid Res. 2016 Apr;57(4):714-28. doi: 10.1194/jlr.D061432. Epub 2016 Feb 9.

DOI:10.1194/jlr.D061432
PMID:26862155
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4808760/
Abstract

Endogenous labeling with stable isotopes is used to study the metabolism of proteins in vivo. However, traditional detection methods such as GC/MS cannot measure tracer enrichment in multiple proteins simultaneously, and multiple reaction monitoring MS cannot measure precisely the low tracer enrichment in slowly turning-over proteins as in HDL. We exploited the versatility of the high-resolution/accurate mass (HR/AM) quadrupole Orbitrap for proteomic analysis of five HDL sizes. We identified 58 proteins in HDL that were shared among three humans and that were organized into five subproteomes according to HDL size. For seven of these proteins, apoA-I, apoA-II, apoA-IV, apoC-III, apoD, apoE, and apoM, we performed parallel reaction monitoring (PRM) to measure trideuterated leucine tracer enrichment between 0.03 to 1.0% in vivo, as required to study their metabolism. The results were suitable for multicompartmental modeling in all except apoD. These apolipoproteins in each HDL size mainly originated directly from the source compartment, presumably the liver and intestine. Flux of apolipoproteins from smaller to larger HDL or the reverse contributed only slightly to apolipoprotein metabolism. These novel findings on HDL apolipoprotein metabolism demonstrate the analytical breadth and scope of the HR/AM-PRM technology to perform metabolic research.

摘要

用稳定同位素进行内源性标记用于研究体内蛋白质的代谢。然而,传统的检测方法如气相色谱/质谱法无法同时测量多种蛋白质中的示踪剂富集情况,而多反应监测质谱法也无法精确测量如高密度脂蛋白(HDL)中周转缓慢的蛋白质的低示踪剂富集情况。我们利用高分辨率/精确质量(HR/AM)四极杆轨道阱的多功能性对五种HDL大小进行蛋白质组分析。我们在HDL中鉴定出58种在三个人中共享的蛋白质,并根据HDL大小将它们组织成五个亚蛋白质组。对于其中七种蛋白质,载脂蛋白A-I、载脂蛋白A-II、载脂蛋白A-IV、载脂蛋白C-III、载脂蛋白D、载脂蛋白E和载脂蛋白M,我们进行了平行反应监测(PRM),以测量体内三氘代亮氨酸示踪剂在0.03%至1.0%之间的富集情况,这是研究它们代谢所必需的。除载脂蛋白D外,结果适用于多室模型。每个HDL大小中的这些载脂蛋白主要直接源自源区室,推测是肝脏和肠道。载脂蛋白从较小的HDL向较大的HDL或相反方向的通量对载脂蛋白代谢的贡献仅很小。这些关于HDL载脂蛋白代谢的新发现证明了HR/AM-PRM技术在进行代谢研究方面的分析广度和范围。

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Mass spectrometry meets the challenge of understanding the complexity of the lipoproteome: recent findings regarding proteins involved in dyslipidemia and cardiovascular disease.质谱技术应对了理解脂蛋白组复杂性的挑战:关于血脂异常和心血管疾病相关蛋白质的最新发现。
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Parallel reaction monitoring (PRM) and selected reaction monitoring (SRM) exhibit comparable linearity, dynamic range and precision for targeted quantitative HDL proteomics.平行反应监测(PRM)和选择反应监测(SRM)在靶向定量高密度脂蛋白蛋白质组学方面表现出相当的线性、动态范围和精密度。
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Practical immunoaffinity-enrichment LC-MS for measuring protein kinetics of low-abundance proteins.用于测量低丰度蛋白质动力学的实用免疫亲和富集液相色谱-质谱联用技术
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