High-throughput fractionation of human plasma for fast enrichment of low- and high-abundance proteins.

IF 2.4 3区医学 Q2 HEMATOLOGY

Blood Transfusion Pub Date : 2012-05-01 DOI:10.2450/2012.013S

Lucas Breen, Lulu Cao, Kirsten Eom, Martina Srajer Gajdosik, Lila Camara, Jasminka Giacometti, Damian E Dupuy, Djuro Josic

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引用次数: 12

Abstract

Background: Fast, cost-effective and reproducible isolation of IgM from plasma is invaluable to the study of IgM and subsequent understanding of the human immune system. Additionally, vast amounts of information regarding human physiology and disease can be derived from analysis of the low abundance proteome of the plasma. In this study, methods were optimized for both the high-throughput isolation of IgM from human plasma, and the high-throughput isolation and fractionation of low abundance plasma proteins.

Materials and methods: To optimize the chromatographic isolation of IgM from human plasma, many variables were examined including chromatography resin, mobile phases, and order of chromatographic separations. Purification of IgM was achieved most successfully through isolation of immunoglobulin from human plasma using Protein A chromatography with a specific resin followed by subsequent fractionation using QA strong anion exchange chromatography. Through these optimization experiments, an additional method was established to prepare plasma for analysis of low abundance proteins. This method involved chromatographic depletion of high-abundance plasma proteins and reduction of plasma proteome complexity through further chromatographic fractionation.

Results: Purification of IgM was achieved with high purity as confirmed by SDS-PAGE and IgM-specific immunoblot. Isolation and fractionation of low abundance protein was also performed successfully, as confirmed by SDS-PAGE and mass spectrometry analysis followed by label-free quantitative spectral analysis.

Discussion: The level of purity of the isolated IgM allows for further IgM-specific analysis of plasma samples. The developed fractionation scheme can be used for high throughput screening of human plasma in order to identify low and high abundance proteins as potential prognostic and diagnostic disease biomarkers.

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人血浆的高通量分离，用于快速富集低丰度和高丰度蛋白质。

背景:快速、经济、可重复地从血浆中分离IgM对IgM的研究和随后对人类免疫系统的理解是非常宝贵的。此外，大量关于人体生理和疾病的信息可以从分析血浆的低丰度蛋白质组中获得。本研究优化了人血浆中IgM的高通量分离方法，以及低丰度血浆蛋白的高通量分离和分离方法。材料和方法:为了优化人血浆中IgM的色谱分离，考察了许多变量，包括色谱树脂、流动相和色谱分离顺序。IgM的纯化最成功的方法是从人血浆中分离免疫球蛋白，先用特定的树脂进行蛋白A层析，然后用QA强阴离子交换层析进行分离。通过这些优化实验，建立了一种制备低丰度蛋白分析血浆的新方法。该方法涉及到高丰度血浆蛋白的色谱损耗，并通过进一步的色谱分离降低血浆蛋白质组的复杂性。结果:经SDS-PAGE和IgM特异性免疫印迹证实，IgM纯化纯度高。通过SDS-PAGE和质谱分析以及无标记定量光谱分析证实，低丰度蛋白的分离和分离也成功。讨论:分离IgM的纯度水平允许进一步对血浆样品进行IgM特异性分析。开发的分离方案可用于人血浆的高通量筛选，以识别低丰度和高丰度的蛋白质作为潜在的预后和诊断疾病的生物标志物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Blood Transfusion HEMATOLOGY-

CiteScore

6.10

自引率

2.70%

发文量

审稿时长

2 months

期刊介绍： Blood Transfusion welcomes international submissions of Original Articles, Review Articles, Case Reports and Letters on all the fields related to Transfusion Medicine.