Amino Acid Substitution in Par j 2 Recombinant Allergen and Its Effect on IgE Binding Capacity

Scholarly Research Exchange Pub Date : 2009-04-01 DOI:10.3814/2009/343405

D. Nuzzo, F. Pizzo, G. Albeggiani, S. Sciarrino, G. Duro

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Abstract

Therapeutic attempts to cure allergic diseases reduce symptoms without circumventing the onset of the allergic reaction. Specific immunotherapy (SIT), is the most commonly used treatment. Nevertheless, SIT may account for various adverse events. Therefore, different therapies have been developed in order to treat and prevent allergic reactions. Among these therapies, there is an increased interest in studying recombinant peptides mutated in the IgE binding site. Several studies have shown two major allergens of Parietaria judaica (Pj) named Par j 1 and Par j 2, which have been cloned and characterized by us. In our study we have fragmented the Par j 2 protein in order to determine the major epitopes recognized by human IgE and we used site-directed mutagenesis to identify potential amino acid residues involved in IgE binding. The IgE binding activity of the recombinant peptides was tested and the results showed that site-specific mutagenesis at positions K41, T42, T43, and C52 caused a loss of IgE binding. The goal of this work is to synthesize molecules which can induce a protective immune response against Pj. These molecules will be used in immunotherapy in order to create new vaccines for the treatment of Parietaria pollen allergy.

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parj 2重组过敏原的氨基酸取代及其对IgE结合能力的影响

治疗性疾病的尝试是在不避免过敏反应发生的情况下减轻症状。特异性免疫疗法(SIT)是最常用的治疗方法。然而，SIT可以解释各种不良事件。因此，为了治疗和预防过敏反应，已经开发了不同的疗法。在这些疗法中，人们对研究在IgE结合位点突变的重组肽越来越感兴趣。在一些研究中发现了两种主要的致敏原，分别为parj 1和parj 2，我们已经克隆并鉴定了它们。在我们的研究中，为了确定人类IgE识别的主要表位，我们对parj 2蛋白进行了片段化，并使用定点诱变技术来确定参与IgE结合的潜在氨基酸残基。对重组肽的IgE结合活性进行了测试，结果表明，在K41、T42、T43和C52位点特异性突变导致IgE结合丧失。本工作的目的是合成能够诱导对Pj产生保护性免疫反应的分子。这些分子将用于免疫治疗，以创造新的疫苗治疗顶叶花粉过敏。

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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