In silico B-cell epitope prediction and molecular docking of Aspergillus allergens targeting improved ABPA diagnosis.

IF 1.7 4区医学 Q3 ALLERGY

Journal of Asthma Pub Date : 2025-04-01 Epub Date: 2024-11-05 DOI:10.1080/02770903.2024.2419452

Diksha Agrawal, Monika Sharma, Ruchi Sachdeva, Pragya Priyadarshini, Anu Priya Minhas

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引用次数: 0

Abstract

Objective: The objective of this study is to in silico predict Aspergillus fumigatus specific B-cell epitopes with a focus on enhancing Allergic Bronchopulmonary Aspergillosis (ABPA) diagnostic precision by using and to validate using molecular docking of Aspergillus fumigatus specific B-cell epitopes, aiming to overcome current serological and clinical method limitations and to support specific therapies and preventive strategies for better ABPA management.

Methods: The sequences of Asp f1, Asp f2, Asp f3, and Asp f4 from NCBI were analyzed using IEDB-AR for B-cell epitope prediction. Structural modeling and molecular docking analysis were conducted using MODELER and HADDOCK, respectively, with visualization via PyMOL and PDBe PISA.

Results: For Asp f1, two IgE-specific (40-47) and four IgG-specific (33-76, 125-148) B-cell epitopes were predicted. Asp f3 had one IgG-specific epitope (47-73), and Asp f4 had two IgG-specific epitopes (52-133) with no IgE epitopes. Asp f2 had eight IgE-specific epitopes (56-63, 93-99, 136-146, 153-160, 185-194, 200-206, 229-239) with IgPred scores above 0.931 and no IgG-specific epitopes. Molecular docking with HADDOCK Z-scores showed strong interactions between IgE and Asp f1 and Asp f2 epitopes. PyMOL and PISA-EBI identified key residues: LYS43 in Asp f1 forms a salt bridge with the IgE heavy chain. In Asp f2, out of nineteen identified residues, six residues (LYS 94, ARG 153, ASP 200, ASP 204, ASP 207 and GLU 233) were confirmed as part of the predicted IgE epitopes, exhibiting significant interactions with IgE, in agreement with both PyMOL and PISA analysis.

Conclusion: This study aimed to enhance ABPA diagnostics by identifying key B-cell epitopes of Aspergillus fumigatus through in silico prediction and molecular docking, a way to support personalized therapies and preventive strategies in future.

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以改进 ABPA 诊断为目标的曲霉过敏原的 B 细胞表位硅学预测和分子对接。

研究目的本研究的目的是对烟曲霉菌特异性B细胞表位进行硅学预测，重点是通过使用烟曲霉菌特异性B细胞表位的分子对接来提高过敏性支气管肺曲霉菌病（ABPA）诊断的精确性，并对其进行验证，以克服当前血清学和临床方法的局限性，支持特异性疗法和预防策略，从而更好地管理ABPA：方法：利用IEDB-AR分析NCBI中Asp f1、Asp f2、Asp f3和Asp f4的序列，进行B细胞表位预测。分别使用 MODELLER 和 HADDOCK 进行了结构建模和分子对接分析，并通过 PyMOL 和 PDBe PISA 进行了可视化：结果：对于 Asp f1，预测出了两个 IgE 特异性（40-47）和四个 IgG 特异性（33-76、125-148）B 细胞表位。Asp f3 有一个 IgG 特异性表位（47-73），Asp f4 有两个 IgG 特异性表位（52-133），没有 IgE 表位。Asp f2 有 8 个 IgE 特异性表位（56-63、93-99、136-146、153-160、185-194、200-206、229-239），IgPred 得分超过 0.931，但没有 IgG 特异性表位。用 HADDOCK Z score 进行分子对接显示，IgE 与 Asp f1 和 Asp f2 表位之间有很强的相互作用。PyMOL 和 PISA-EBI 确定了关键残基：Asp f1 中的 LYS43 与 IgE 重链形成盐桥。在 Asp f2 的 19 个已识别残基中，有 6 个残基（LYS 94、ARG 153、ASP 200、ASP 204、ASP 207 和 GLU 233）被证实是预测的 IgE 表位的一部分，与 IgE 有显著的相互作用，这与 PyMOL 和 PISA 分析结果一致：本研究旨在通过硅学预测和分子对接确定曲霉的关键 B 细胞表位，从而提高 ABPA 诊断水平，为未来的个性化疗法和预防策略提供支持。

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

Journal of Asthma 医学-过敏

CiteScore

4.00

自引率

5.30%

发文量

158

审稿时长

3-8 weeks

期刊介绍： Providing an authoritative open forum on asthma and related conditions, Journal of Asthma publishes clinical research around such topics as asthma management, critical and long-term care, preventative measures, environmental counselling, and patient education.