HLA-DR4Pred2: An improved method for predicting HLA-DRB1*04:01 binders

IF 4.2 3区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

Methods Pub Date : 2024-10-19 DOI:10.1016/j.ymeth.2024.10.007

Sumeet Patiyal , Anjali Dhall , Nishant Kumar , Gajendra P.S. Raghava

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引用次数: 0

Abstract

HLA-DRB1*04:01 is associated with numerous diseases, including sclerosis, arthritis, diabetes, and COVID-19, emphasizing the need to scan for binders in the antigens to develop immunotherapies and vaccines. Current prediction methods are often limited by their reliance on the small datasets. This study presents HLA-DR4Pred2, developed on a large dataset containing 12,676 binders and an equal number of non-binders. It’s an improved version of HLA-DR4Pred, which was trained on a small dataset, containing 576 binders and an equal number of non-binders. All models were trained, optimized, and tested on 80 % of the data using five-fold cross-validation and evaluated on the remaining 20 %. A range of machine learning techniques was employed, achieving maximum AUROC of 0.90 and 0.87, using composition and binary profile features, respectively. The performance of the composition-based model increased to 0.93, when combined with BLAST search. Additionally, models developed on the realistic dataset containing 12,676 binders and 86,300 non-binders, achieved a maximum AUROC of 0.99. Our proposed method outperformed existing methods when we compared the performance of our best model to that of existing methods on the independent dataset. Finally, we developed a standalone tool and a webserver for HLADR4Pred2, enabling the prediction, design, and virtual scanning of HLA-DRB1*04:01 binding peptides, and we also released a Python package available on the Python Package Index (https://webs.iiitd.edu.in/raghava/hladr4pred2/; https://github.com/raghavagps/hladr4pred2; https://pypi.org/project/hladr4pred2/).

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HLA-DR4Pred2：预测 HLA-DRB1*04:01 结合者的改进方法。

HLA-DRB1*04:01 与多种疾病相关，包括硬化症、关节炎、糖尿病和 COVID-19，这强调了扫描抗原中的结合剂以开发免疫疗法和疫苗的必要性。目前的预测方法往往受限于对小型数据集的依赖。本研究提出的 HLA-DR4Pred2 是在包含 12,676 个结合者和同等数量的非结合者的大型数据集上开发的。它是 HLA-DR4Pred 的改进版，HLA-DR4Pred 是在包含 576 个绑定者和同等数量的非绑定者的小型数据集上训练出来的。所有模型都在 80% 的数据上使用五倍交叉验证进行了训练、优化和测试，并在剩余的 20% 数据上进行了评估。采用了一系列机器学习技术，利用成分特征和二元剖面特征分别获得了 0.90 和 0.87 的最大 AUROC。当与 BLAST 搜索相结合时，基于成分的模型的性能提高到了 0.93。此外，在包含 12,676 个粘合剂和 86,300 个非粘合剂的现实数据集上开发的模型，最大 AUROC 为 0.99。在独立数据集上比较最佳模型和现有方法的性能时，我们提出的方法优于现有方法。最后，我们为 HLADR4Pred2 开发了一个独立工具和一个网络服务器，实现了 HLA-DRB1*04:01 结合肽的预测、设计和虚拟扫描，我们还发布了一个 Python 软件包，可在 Python 软件包索引 (https://webs.iiitd.edu.in/raghava/hladr4pred2/; https://github.com/raghavagps/hladr4pred2; https://pypi.org/project/hladr4pred2/) 上查阅。

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

Methods 生物-生化研究方法

CiteScore

9.80

自引率

2.10%

发文量

222

审稿时长

11.3 weeks

期刊介绍： Methods focuses on rapidly developing techniques in the experimental biological and medical sciences. Each topical issue, organized by a guest editor who is an expert in the area covered, consists solely of invited quality articles by specialist authors, many of them reviews. Issues are devoted to specific technical approaches with emphasis on clear detailed descriptions of protocols that allow them to be reproduced easily. The background information provided enables researchers to understand the principles underlying the methods; other helpful sections include comparisons of alternative methods giving the advantages and disadvantages of particular methods, guidance on avoiding potential pitfalls, and suggestions for troubleshooting.