[Molecular mimicry between human thyroid peroxidase, thyroglobulin, cosinophil peroxidase, IL-24 and microorganisms antigens].

Andrés Sánchez, Valentina García, Yuliana Marcela Emiliani-Navarro, Jorge Sánchez, Juan Camilo Ramos-Gomez, Sonia Karina González-Rangel, Marlon Munera-Gomez
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Abstract

Objective: Identify molecular mimicry between TPO, eosinophil peroxidase (EPX), thyroglobulin and IL24 and microorganism antigens.

Methods: Through in silico analysis, we performed local alignments between human and microorganism antigens with PSI-BLAST. Proteins that did not present a 3D structure were modeled by homology through the Swiss Modeller server and epitope prediction was performed through Ellipro. Epitopes were located in the 3D models using PYMOL software.

Results: A total of 38 microorganism antigens (parasites, bacteria) had identities between 30% and 45%, being the highest with Anisakis simplex. The alignment between 2 candidate proteins from A. simplex and EPX presented significant values, with identities of 43 and 44%. In bacteria, Campylobacter jejuni presented the highest identity with thyroglobulin (35%). 220 linear and conformational epitopes of microorganism antigens were predicted. Peroxidasin-like proteins from Toxocara canis and Trichinella pseudospiralis presented 10 epitopes similar to TPO and EPX, as possible molecules triggering cross-reactivity. No virus presented identity with the human proteins studied.

Conclusion: TPO and EPX antigens shared potential cross-reactive epitopes with bacterial and nematode proteins, suggesting that molecular mimicry could be a mechanism that explains the relationship between infections and urticaria/hypothyroidism. In vitro work is needed to demonstrate the results obtained in the in silico analysis.

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[人甲状腺过氧化物酶、甲状腺球蛋白、嗜酸性粒细胞过氧化物酶、IL-24 和微生物抗原之间的分子模拟]。
目的:确定TPO、嗜酸性粒细胞过氧化物酶(EPX)、甲状腺球蛋白和IL24与微生物抗原之间的分子模拟:确定TPO、嗜酸性粒细胞过氧化物酶(EPX)、甲状腺球蛋白和IL24与微生物抗原之间的分子拟态:我们利用 PSI-BLAST 进行了人类抗原与微生物抗原之间的局部比对。对于没有三维结构的蛋白质,我们通过 Swiss Modeller 服务器进行了同源建模,并通过 Ellipro 进行了表位预测。使用PYMOL软件在三维模型中定位表位:共有 38 种微生物抗原(寄生虫、细菌)的同源性在 30% 至 45% 之间,其中与单纯疟原虫的同源性最高。单纯疟原虫的两种候选蛋白质与 EPX 的比对结果显示出显著的相同值,分别为 43% 和 44%。在细菌中,空肠弯曲杆菌与甲状腺球蛋白的同一性最高(35%)。预测了 220 个微生物抗原的线性表位和构象表位。来自犬弓形虫和假螺旋体毛癣菌的过氧化物酶样蛋白呈现出 10 个与 TPO 和 EPX 相似的表位,可能是引发交叉反应的分子。没有一种病毒与所研究的人类蛋白质有相同之处:结论:TPO和EPX抗原与细菌和线虫蛋白具有潜在的交叉反应表位,这表明分子模仿可能是解释感染与荨麻疹/甲状腺功能减退症之间关系的一种机制。需要开展体外工作来证明在硅学分析中获得的结果。
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