Devenir des allergènes dans le tube digestif

K. Adel-Patient, H. Bernard, J.-M. Wal
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引用次数: 9

Abstract

Mechanisms by which food allergens sensitize atopic individuals still remain unclear. However, most of them are thought to sensitize via the gastrointestinal tract. Due to the very acidic conditions in the stomach and the intense proteolysis occurring in the stomach and in the intestine, only small amounts of intact or immunologically active proteins are taken up by the gut mucosa. This suggested that food allergens are, at least partially, resistant to gastro-duodenal digestion in order to be able to sensitize the mucosal immune system. As a result, several in vitro models have been developed to evaluate the stability of potential allergens to digestion. Indeed, resistance to digestion is part of the premarketing allergenicity assessment of newly expressed proteins in genetically modified crops. However, some food allergens are rapidly and extensively degraded during digestion, whereas some other food proteins that are resistant to digestion are not allergenic. It has been shown that degradation products, i.e. peptide fragments of various sizes, produced during the digestion of a protein may keep (part of) the allergenicity of the native protein. In addition, other factors may interact as to make a food protein an allergen, such as the structure and composition of the food matrix, technologic processing including cooking of the whole food that contains the allergens. Some studies also suggested that the biological property of a protein to be an allergen can influence its mode and route of transport across the intestinal epithelial barrier, which may have a profound impact on the immune responses thus generated. It is noteworthy that a pregastric absorption also occurs, i.e. in the oral cavity, which explains the occurrence of symptoms few minutes after ingestion of food allergens.

在消化道中成为过敏原
食物过敏原致敏个体的机制仍不清楚。然而,大多数药物被认为是通过胃肠道致敏的。由于胃的酸性非常强,而且胃和肠道中发生了剧烈的蛋白质水解,因此只有少量完整的或具有免疫活性的蛋白质被肠道粘膜吸收。这表明,食物过敏原至少部分抵抗胃-十二指肠消化,从而能够使粘膜免疫系统敏感。因此,已经开发了几种体外模型来评估潜在过敏原对消化的稳定性。事实上,对消化的抵抗力是转基因作物中新表达的蛋白质上市前致敏性评估的一部分。然而,一些食物过敏原在消化过程中迅速而广泛地降解,而其他一些抗消化的食物蛋白质则不会引起过敏。已经证明,在蛋白质消化过程中产生的降解产物,即各种大小的肽片段,可以保持(部分)天然蛋白质的致敏性。此外,其他因素可能相互作用,使食物蛋白质成为过敏原,例如食物基质的结构和组成,技术加工,包括烹饪含有过敏原的整个食物。一些研究还表明,作为过敏原的蛋白质的生物学特性可以影响其通过肠上皮屏障的运输方式和途径,这可能对由此产生的免疫反应产生深远的影响。值得注意的是,胃前吸收也会发生,即在口腔中,这解释了在摄入食物过敏原几分钟后出现症状的原因。
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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