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

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

Publication date: Oct 19, 2024

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/).

Concepts Keywords
Diabetes Antigen binders
Immunotherapies BLAST search
Learning HLA-DRB1*04:01
Python Immunotherapy
Machine Learning
Prediction Method

Semantics

Type Source Name
disease MESH sclerosis
disease MESH arthritis
disease MESH COVID-19
drug DRUGBANK Aspartame
drug DRUGBANK Coenzyme M

Original Article

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