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通过肽微阵列免疫分析对大西洋鲑主要过敏原进行表位作图。

Epitope mapping of Atlantic salmon major allergen by peptide microarray immunoassay.

机构信息

Department of Allergy, Hospital Fundacion Jimenez Diaz, Avda. Reyes Católicos 2, Madrid, Spain.

出版信息

Int Arch Allergy Immunol. 2012;157(1):31-40. doi: 10.1159/000324677. Epub 2011 Sep 5.

DOI:10.1159/000324677
PMID:21894026
Abstract

BACKGROUND

IgE epitope mapping of allergens reveals important information about antigen elicitors involved in allergic reactions. The peptide-based microarray immunoassay offers an advantage of scale and parallel design over previous methods of epitope mapping. It has been used to map epitopes of some food allergens but has never been used with fish allergens.

OBJECTIVE

We sought to develop a peptide microarray immunoassay to map allergenic fish epitopes of two isoforms of Atlantic salmon (Salmo salar) parvalbumin, Sal s 1 beta 1 and Sal s 1 beta 2.

METHODS

Sera from 16 fish-allergic patients with specific IgE to salmon parvalbumin were used. Twelve healthy volunteers were used as negative controls. A library of overlapping peptides was synthesized commercially, representing the primary sequence of Sal s 1 beta 1 and Sal s 1 beta 2. Peptides were used to analyze allergen-specific IgE antibodies by immunolabeling with patient sera.

RESULTS

Three antigenic regions, not previously described, were identified in Sal s 1 beta 1. Two of them correlated with those previously reported in Gad c 1, parvalbumin from Baltic cod (Gadus callarias). No allergenic regions were found in Sal s 1 beta 2. This could be explained by crucial amino acid substitutions between isoforms.

CONCLUSIONS

We have identified three antigenic regions in Sal s 1 beta 1 using a peptide microarray immunoassay. These three sequential epitopes formed a unique antigenic determinant in the three-dimensional model of the protein. In addition, we proved that isoforms from the same protein might have a different allergenic behavior.

摘要

背景

过敏原 IgE 表位作图揭示了参与过敏反应的抗原引发剂的重要信息。基于肽的微阵列免疫分析相对于先前的表位作图方法具有规模和并行设计的优势。它已被用于绘制一些食物过敏原的表位,但从未用于鱼类过敏原。

目的

我们试图开发一种肽微阵列免疫分析方法,以绘制两种大西洋鲑(Salmo salar)副肌球蛋白 Sal s 1 beta 1 和 Sal s 1 beta 2 的过敏原鱼表位。

方法

使用对鲑鱼副肌球蛋白具有特异性 IgE 的 16 名鱼过敏患者的血清。12 名健康志愿者作为阴性对照。商业合成了重叠肽文库,代表 Sal s 1 beta 1 和 Sal s 1 beta 2 的一级序列。使用肽通过与患者血清的免疫标记来分析过敏原特异性 IgE 抗体。

结果

在 Sal s 1 beta 1 中鉴定出三个以前未描述的抗原区域。其中两个与波罗的海鳕鱼(Gadus callarias)副肌球蛋白 Gad c 1 中先前报道的区域相关。在 Sal s 1 beta 2 中未发现过敏原区域。这可以用同工型之间的关键氨基酸取代来解释。

结论

我们使用肽微阵列免疫分析在 Sal s 1 beta 1 中鉴定出三个抗原区域。这三个连续的表位在蛋白质的三维模型中形成了独特的抗原决定簇。此外,我们证明来自同一蛋白质的同工型可能具有不同的过敏原行为。

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