加热影响花生过敏原Ara h2的结构、肠细胞吸附和信号传导以及免疫原性。

Philipp Starkl, Durga Krishnamurthy, Krisztina Szalai, Ferdinand Felix, Anna Lukschal, Dominik Oberthuer, Hugh A Sampson, Ines Swoboda, Christian Betzel, Eva Untersmayr, Erika Jensen-Jarolim
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引用次数: 34

摘要

先前的研究表明,蛋白质的特定分子特性可能决定了它们的致敏性。过敏原与上皮细胞的相互作用作为第一个接触点可能是决定性的结果免疫反应。我们在这里研究了花生过敏原Ara h2的热处理是否会导致结构变化,从而影响蛋白质与肠细胞的分子相互作用、随后的细胞信号反应和免疫原性。在食物过敏小鼠模型中,对Ara h2进行热处理并分析患者IgE结合、结构改变、与人肠细胞的相互作用、相关信号传导以及免疫原性。加热Ara h2可显著增强其与Caco-2/TC7人肠上皮细胞的结合。结构分析表明,加热引起了持续的结构变化,并导致溶液中Ara h2低聚物的形成。通过血清IgG和IgE抗体水平以及脾细胞释放IL-2和IL-6来测定,加热蛋白在体内表现出明显更高的免疫原性潜力。在人Caco-2/TC7细胞中,Ara h2孵育在RNA水平上导致免疫和应激信号相关途径组分的反应,而加热的过敏原仅诱导应激反应。以花生过敏原为例,我们认为食品加工可能改变了分子免疫原性,并调节了食物过敏原与肠上皮的相互作用能力。增加与肠细胞的结合行为和信号通路的启动可以触发免疫组并影响食物蛋白质的致敏能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heating Affects Structure, Enterocyte Adsorption and Signalling, As Well as Immunogenicity of the Peanut Allergen Ara h 2.

Previous studies have indicated that specific molecular properties of proteins may determine their allergenicity. Allergen interaction with epithelia as the first contact site could be decisive for a resulting immune response. We investigate here for the major peanut allergen Ara h 2 whether thermal processing results in structural changes which may impact the protein's molecular interactions with enterocytes, subsequent cellular signalling response, and immunogenicity.Ara h 2 was heat processed and analyzed in terms of patient IgE binding, structural alterations, interaction with human enterocytes and associated signalling as well as immunogenicity in a food allergy mouse model.Heating of Ara h 2 led to significantly enhanced binding to Caco-2/TC7 human intestinal epithelial cells. Structural analyses indicated that heating caused persistent structural changes and led to the formation of Ara h 2 oligomers in solution. Heated protein exhibited a significantly higher immunogenic potential in vivo as determined by IgG and IgE serum antibody levels as well as IL-2 and IL-6 release by splenocytes. In human Caco-2/TC7 cells, Ara h 2 incubation led to a response in immune- and stress signalling related pathway components at the RNA level, whereas heated allergen induced a stress-response only.We suggest from this peanut allergen example that food processing may change the molecular immunogenicity and modulate the interaction capacity of food allergens with the intestinal epithelium. Increased binding behaviour to enterocytes and initiation of signalling pathways could trigger the epimmunome and influence the sensitization capacity of food proteins.

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