In silico analysis of molecular mimicry between human aquaporin 3, Aspergillus fumigatus aquaporin and aquaporins from allergic sources.

Q2 Pharmacology, Toxicology and Pharmaceutics

F1000Research Pub Date : 2024-09-12 eCollection Date: 2024-01-01 DOI:10.12688/f1000research.142843.2

Andrés Sánchez, Yaquelin Padilla, Adriana Lorduy, Jorge Sanchez, Marlon Munera, Claudia Baena, Carlos Bernal, Juan Urrego

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引用次数: 0

Abstract

Background: Atopic dermatitis (AD) is a chronic inflammatory skin condition that has a significant impact on quality of life. The immune response and allergy symptoms in AD are triggered by the recognition of specific allergens by IgE antibodies. Cross-reactivity can lead to auto-IgE responses, potentially worsening AD symptoms. Our research aimed to enhance our understanding of allergenic sources, including A. fumigatus, and their role in AD. We focused on molecular mimicry between human AQP3 and A. fumigatus aquaporin.

Methods: In our in-silico analysis, we compared the amino acid sequences of human aquaporin 3 (AQP3) and A. fumigatus aquaporin with 25 aquaporins from various allergenic sources, sourced from the UniProt and NCBI databases. Phylogenetic relationship analysis and homology-based modeling were conducted. We identified conserved antigenic regions located within the 3D structures.

Results: The global identity levels among the studied aquaporins averaged 32.6%. One antigenic site exhibited a remarkable local region, with a conserved identity of 71.4%. We categorized the aquaporins into five monophyletic clades (A-E), with group B showing the highest identity (95%), including six mammalian aquaporins, including AQP3. When comparing A. fumigatus aquaporins, the highest identity was observed with Malassezia sympodialis at 35%. Both human and A. fumigatus aquaporins have three linear and three discontinuous epitopes.

Conclusions: We identified potential linear and conformational epitopes of AQP3, indicating a possible molecular mimicry between humans and A. fumigatus aquaporins. This suggests autoreactivity and potential cross-reactivity, although further validation using in vitro and in vivo experiments is required.

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对人类水蒸发蛋白 3、曲霉菌水蒸发蛋白和过敏源水蒸发蛋白之间的分子拟态进行硅学分析。

背景：特应性皮炎（AD）是一种慢性炎症性皮肤病，对生活质量有很大影响。特应性皮炎的免疫反应和过敏症状是由 IgE 抗体识别特定过敏原引发的。交叉反应可导致自身 IgE 反应，从而可能加重 AD 症状。我们的研究旨在加深对包括烟曲霉菌在内的过敏源及其在AD中的作用的了解。我们重点研究了人类 AQP3 与烟曲霉水囊蛋白之间的分子模拟：方法：我们从 UniProt 和 NCBI 数据库中获取了 25 种来自不同过敏源的水肿蛋白，并对它们的氨基酸序列进行了比较。我们进行了系统进化关系分析和基于同源性的建模。我们确定了位于三维结构中的保守抗原区：结果：所研究的水蒸发蛋白之间的总体相同度平均为 32.6%。一个抗原位点表现出显著的局部区域，其保守同一性达到 71.4%。我们将水生蛋白分为五个单系支系（A-E），其中 B 组的同一性最高（95%），包括 AQP3 在内的六种哺乳动物水生蛋白。在比较烟曲霉水囊蛋白时，发现与马拉色菌水囊蛋白的同一性最高，为 35%。人类和烟曲霉水囊蛋白都有三个线性表位和三个非连续表位：我们确定了 AQP3 的潜在线性表位和构象表位，这表明人类和烟曲霉水囊蛋白之间可能存在分子拟态。结论：我们发现了 AQP3 的潜在线性表位和构象表位，这表明人类与烟曲霉水汽蛋白之间可能存在分子拟态，这表明两者之间存在自反应性和潜在的交叉反应性，但还需要通过体外和体内实验进行进一步验证。

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

F1000Research Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (all)

CiteScore

5.00

自引率

0.00%

发文量

1646

审稿时长

1 weeks

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