Ranking Antibody Binding Epitopes and Proteins Across Samples from Whole Proteome Tiled Linear Peptides.

Sean J McIlwain, Anna Hoefges, Amy K Erbe, Paul M Sondel, Irene M Ong
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Abstract

Introduction: Ultradense peptide binding arrays that can probe millions of linear peptides comprising the entire proteomes of human or mouse, or hundreds of thousands of microbes, are powerful tools for studying the antibody repertoire in serum samples to understand adaptive immune responses.

Motivation: There are few tools for exploring high-dimensional, significant and reproducible antibody targets for ultradense peptide binding arrays at the linear peptide, epitope (grouping of adjacent peptides), and protein level across multiple samples/subjects (i.e. epitope spread or immunogenic regions of proteins) for understanding the heterogeneity of immune responses.

Results: We developed HERON (Hierarchical antibody binding Epitopes and pROteins from liNear peptides), an R package, which identifies immunogenic epitopes, using meta-analyses and spatial clustering techniques to explore antibody targets at various resolution and confidence levels, that can be found consistently across a specified number of samples through the entire proteome to study antibody responses for diagnostics or treatment. Our approach estimates significance values at the linear peptide (probe), epitope, and protein level to identify top candidates for validation. We test the performance of predictions on all three levels using correlation between technical replicates and comparison of epitope calls on two datasets, which shows HERON's competitiveness in estimating false discovery rates and finding general and sample-level regions of interest for antibody binding.

Availability: The HERON R package is available at Bioconductor https://bioconductor.org/packages/release/bioc/html/HERON.html.

Supplementary information: Supplementary data are available at Bioinformatics online.

从全蛋白质组平铺线性肽对样本中的抗体结合表位和蛋白质进行排序。
简介超高密度肽结合阵列可以探测数百万个线性肽,包括人类或小鼠的整个蛋白质组,或数十万个微生物,是研究血清样本中抗体复合物以了解适应性免疫反应的强大工具:目前很少有工具能在线性肽、表位(相邻肽的分组)和蛋白质水平上探索超高密度肽结合阵列的高维、重要和可重现的抗体靶标(即蛋白质的表位扩散或免疫原性区域),以了解免疫反应的异质性:我们开发了HERON(Hierarchical antibody binding Epitopes and pROteins from liNear peptides),这是一个R软件包,它利用荟萃分析和空间聚类技术识别免疫原表位,以不同的分辨率和置信度探索抗体靶点,这些靶点可以在整个蛋白质组的指定数量样本中找到,以研究用于诊断或治疗的抗体反应。我们的方法在线性肽(探针)、表位和蛋白质水平上估算显著性值,以确定需要验证的顶级候选目标。我们使用技术复制之间的相关性和两个数据集上表位调用的比较来测试所有三个层面的预测性能,这表明 HERON 在估计误发现率和发现抗体结合的一般和样本级感兴趣区域方面具有竞争力:HERON R软件包可从Bioconductor https://bioconductor.org/packages/release/bioc/html/HERON.html.Supplementary 获取:补充数据可在 Bioinformatics online 上获取。
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