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主要蜂毒过敏原Api m 1的三级结构通过多次突变发生改变,同时伴有低IgE反应性。

Alteration of the tertiary structure of the major bee venom allergen Api m 1 by multiple mutations is concomitant with low IgE reactivity.

作者信息

Buhot Cécile, Chenal Alexandre, Sanson Alain, Pouvelle-Moratille Sandra, Gelb Michael H, Ménez André, Gillet Daniel, Maillère Bernard

机构信息

Protein Engineering and Research Department, bâtiment 152, CEA-Saclay, 91191 Gif sur Yvette, France.

出版信息

Protein Sci. 2004 Nov;13(11):2970-8. doi: 10.1110/ps.04885404. Epub 2004 Sep 30.

DOI:10.1110/ps.04885404
PMID:15459335
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2286571/
Abstract

We have engineered a recombinant form of the major bee venom allergen (Api m 1) with the final goal of reducing its IgE reactivity. This molecule (Api mut) contains 24 mutations and one deletion of 10 amino acids. The successive introduction of these sequence modifications led to a progressive loss of specific IgE and IgG reactivity and did not reveal any immunodominant epitopes. However, Api mut exhibited a clear loss of reactivity for Api m 1-specific IgE and IgG. Injection of Api mut into mice induced specific antibody production. This humoral response was as high as that induced by the Api m 1 but the cross-reactivity of the antibodies was weak. As inferred by far UV circular dichroism, this mutant was correctly folded. However, near UV circular dichroism and denaturation curves of Api mut showed that it exhibits a dynamic tertiary structure and that it is a highly flexible molecule. Finally, as all the sequence modifications have been introduced outside the human and murine T cell epitope regions, we investigated its T cell properties in mice. We showed that Api mut-specific T lymphocytes induced in vivo were stimulated in vitro by both proteins. These data provide new insights in the design of hypoallergenic molecules.

摘要

我们构建了一种重组形式的主要蜂毒过敏原(Api m 1),最终目标是降低其IgE反应性。该分子(Api mut)包含24个突变和一个10个氨基酸的缺失。这些序列修饰的相继引入导致特异性IgE和IgG反应性逐渐丧失,且未发现任何免疫显性表位。然而,Api mut对Api m 1特异性IgE和IgG的反应性明显丧失。将Api mut注射到小鼠体内可诱导特异性抗体产生。这种体液反应与Api m 1诱导的反应一样高,但抗体的交叉反应性较弱。通过远紫外圆二色性推断,该突变体折叠正确。然而,Api mut的近紫外圆二色性和变性曲线表明,它呈现出动态三级结构,是一个高度灵活的分子。最后,由于所有序列修饰均引入到人和小鼠T细胞表位区域之外,我们在小鼠中研究了其T细胞特性。我们发现,体内诱导产生的Api mut特异性T淋巴细胞在体外受到两种蛋白质的刺激。这些数据为低变应原性分子的设计提供了新的见解。

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