一种多功能蛋白质微阵列平台，可实现针对变性蛋白质的抗体分析。

A versatile protein microarray platform enabling antibody profiling against denatured proteins.

机构信息

Virginia G. Piper Center for Personalized Diagnostics, Biodesign Institute, Arizona State University, Tempe, AZ 85287-6401, USA.

出版信息

Proteomics Clin Appl. 2013 Jun;7(5-6):378-83. doi: 10.1002/prca.201200062. Epub 2013 May 17.

DOI:10.1002/prca.201200062

PMID:23027520

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4127978/

Abstract

PURPOSE

We aim to develop a protein microarray platform capable of presenting both natural and denatured forms of proteins for antibody biomarker discovery. We will further optimize plasma screening protocols to improve detection.

EXPERIMENTAL DESIGN

We developed a new covalent capture protein microarray chemistry using HaloTag fusion proteins and ligand. To enhance protein yield, we used HeLa cell lysate as an in vitro transcription translation (IVTT) system. Escherichia coli lysates were added to the plasma blocking buffer to reduce nonspecific background. These protein microarrays were probed with plasma samples and autoantibody responses were quantified and compared with or without denaturing buffer treatment.

RESULTS

We demonstrated that protein microarrays using the covalent attachment chemistry endured denaturing conditions. Blocking with E. coli lysates greatly reduced the background signals and expression with IVTT based on HeLa cell lysates significantly improved the antibody signals on protein microarrays probed with plasma samples. Plasma samples probed on denatured protein arrays produced autoantibody profiles distinct from those probed on natively displayed proteins.

CONCLUSIONS AND CLINICAL RELEVANCE

This versatile protein microarray platform allows the display of both natural and denatured proteins, offers a new dimension to search for disease-specific antibodies, broadens the repertoire of potential biomarkers, and will potentially yield clinical diagnostics with greater performance.

摘要

目的

我们旨在开发一种蛋白质微阵列平台，能够同时呈现天然和变性形式的蛋白质，用于抗体生物标志物的发现。我们将进一步优化血浆筛选方案，以提高检测的灵敏度。

实验设计

我们开发了一种新的基于 HaloTag 融合蛋白和配体的共价捕获蛋白质微阵列化学。为了提高蛋白质产量，我们使用 HeLa 细胞裂解物作为体外转录翻译 (IVTT) 系统。将大肠杆菌裂解物添加到血浆封闭缓冲液中，以减少非特异性背景。用这些蛋白质微阵列探测血浆样品，并对抗体反应进行定量分析，并与未经变性缓冲液处理的情况进行比较。

结果

我们证明了使用共价附着化学的蛋白质微阵列能够耐受变性条件。用大肠杆菌裂解物封闭可以大大降低背景信号，而基于 HeLa 细胞裂解物的 IVTT 表达则显著提高了蛋白质微阵列探测血浆样品时的抗体信号。在变性蛋白质阵列上探测的血浆样品产生的自身抗体图谱与在天然展示蛋白质上探测的图谱明显不同。

结论和临床相关性

这种多功能的蛋白质微阵列平台允许同时显示天然和变性蛋白质，为寻找疾病特异性抗体提供了新的维度，拓宽了潜在生物标志物的范围，并有可能产生性能更高的临床诊断。

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