Detection of gluten peptides in human duodenal fluids with immuno-liquid chromatography-mass spectrometry

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analytical Methods Pub Date : 2024-09-03 DOI:10.1039/d4ay00852a

Loïc Dayon, Antonio Núñez Galindo, Julien Chevalier, Michèl Aquarius, Britt Otten, Freddy J. Troost, Peter Duncan, Michael Affolter

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Abstract

Gluten proteins are storage proteins in wheat that exhibit a certain resistance to gastrointestinal digestion. To explore solutions to cope with accidental ingestion of gluten in individuals suffering from gluten-related disorders, it is essential to monitor the fate of gluten peptides in biological samples, i.e., gastrointestinal juices, blood plasma or urine. In this work, we aimed at developing a mass spectrometry (MS)-based method for measuring gluten peptides in human duodenal fluids. Seven gluten peptides, including the well-documented 33-mer gluten peptide (LQLQPFPQPQLPYPQPQLPYPQPQLPYPQPQPF), were selected after a literature review and characterization of a gluten-containing product. Isotopically labelled peptides were used as references and a targeted liquid chromatography (LC) MS assay based on high resolution parallel reaction monitoring (PRM) was designed. Despite iterative and fine tuning of the LC-PRM-MS method, the low level of endogenous gluten peptides in human duodenal fluid samples precluded their direct detection. Thus, an initial immunoprecipitation (IP) step was included. Several antibodies were tested, and one proved reliable for the enrichment of the 33-mer gluten peptide as well as a few additional gluten peptides. Figures-of-merits of the immuno-LC-PRM-MS assay were assessed with a focus on quantification trueness and precision. We have developed an MS-based method for measuring the 33-mer gluten peptide in human duodenal fluids. Based on isotopic dilution, the method relies on the combination of IP and LC-PRM-MS analysis. Measurements were shown to be sensitive, quantitative, and reproducible.

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用免疫液相色谱-质谱法检测人体十二指肠液中的谷蛋白肽

麸质蛋白是小麦中的贮存蛋白，对胃肠道消化有一定的抵抗力。为了探索应对麸质相关疾病患者意外摄入麸质的解决方案，必须监测生物样本（即胃肠液、血浆或尿液）中麸质肽的去向。在这项工作中，我们旨在开发一种基于质谱（MS）的方法，用于测量人体十二指肠液中的谷蛋白肽。在查阅文献并对含麸质的产品进行特征描述后，我们选择了七种麸质肽，其中包括有据可查的 33-mer麸质肽（LQLQPFPQPQLPYPQPQLPYPQPQLPYPQPQPF）。以同位素标记的肽为参照物，设计了一种基于高分辨率平行反应监测（PRM）的目标液相色谱（LC）质谱检测方法。尽管对 LC-PRM-MS 方法进行了反复微调，但由于人体十二指肠液样本中的内源性谷蛋白肽含量较低，因此无法对其进行直接检测。因此，我们加入了初始免疫沉淀（IP）步骤。对几种抗体进行了测试，其中一种抗体被证明可以富集 33 个聚合物的谷蛋白肽以及其他几种谷蛋白肽。我们评估了免疫液相色谱-PRM-MS 法的相似度，重点是定量的真实性和精确性。我们开发了一种基于 MS 的方法，用于测量人体十二指肠液中的 33-mer 谷蛋白肽。该方法以同位素稀释为基础，结合了 IP 和 LC-PRM-MS 分析。测量结果表明，该方法灵敏、定量且重现性好。

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