食物基质可减少食物过敏原在体内的消化和吸收。

A food matrix reduces digestion and absorption of food allergens in vivo.

机构信息

Department of Pathophysiology and Allergy Research, Medical University of Vienna, Waehringer Guertel 18-20, Vienna, Austria.

出版信息

Mol Nutr Food Res. 2011 Oct;55(10):1484-91. doi: 10.1002/mnfr.201100234. Epub 2011 Aug 30.

DOI:10.1002/mnfr.201100234

PMID:21984443

Abstract

SCOPE

Food allergy is caused by primary (class 1) food allergens, e.g. Bos d 5 (cow's milk) and Cor a 8 (hazelnut) or secondary (class 2) food allergens, e.g. Mal d 1 (apple). The latter cannot sensitize susceptible individuals but can cause allergy due to immunological cross-reactivity with homologous respiratory allergens. Here, we studied the effects of food matrix on gastrointestinal proteolysis, epithelial transport and in vivo absorption of class 1 and class 2 food allergens.

METHODS AND RESULTS

Mal d 1 lost its IgE-reactivity immediately after simulated gastric digestion whereas Bos d 5 and Cor a 8 did not. Only Cor a 8 maintained IgE-binding capacity after simulated intestinal proteolysis. The presence of hazelnut and peanut extracts, which served as protein-rich model food matrices, delayed gastrointestinal degradation and reduced epithelial transport rates of all allergens through CaCo-2 monolayers. Finally, IgE-reactive allergens were assessed at different time points in sera from rats fed with all three allergens with or without hazelnut extract. The levels of all allergens peaked 2 h after animals were fed without matrix and increased over 8 h after feeding.

CONCLUSIONS

A protein-rich food matrix delays gastrointestinal digestion and epithelial transport of food allergens and thereby may affect their sensitizing capacity and clinical symptoms.

摘要

范围

食物过敏是由主要（1 类）食物过敏原引起的，例如 Bos d 5（牛奶）和 Cor a 8（榛子），或次要（2 类）食物过敏原，例如 Mal d 1（苹果）。后者不能致敏易感个体，但由于与同源呼吸道过敏原的免疫交叉反应，可以引起过敏。在这里，我们研究了食物基质对 1 类和 2 类食物过敏原的胃肠道蛋白水解、上皮转运和体内吸收的影响。

方法和结果

Mal d 1 在模拟胃消化后立即失去 IgE 反应性，而 Bos d 5 和 Cor a 8 则没有。只有 Cor a 8 在模拟肠蛋白水解后保持 IgE 结合能力。榛子和花生提取物的存在，作为富含蛋白质的模型食物基质，延迟了所有过敏原的胃肠道降解，并降低了它们通过 CaCo-2 单层的上皮转运速率。最后，在给予所有三种过敏原且含有或不含榛子提取物的大鼠血清中，在不同时间点评估 IgE 反应性过敏原。在没有基质的情况下喂养后 2 小时，所有过敏原的水平达到峰值，并在喂养 8 小时后增加。

结论

富含蛋白质的食物基质可延迟食物过敏原的胃肠道消化和上皮转运，从而可能影响其致敏能力和临床症状。

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食物基质可减少食物过敏原在体内的消化和吸收。

A food matrix reduces digestion and absorption of food allergens in vivo.

机构信息

出版信息

SCOPE

METHODS AND RESULTS

CONCLUSIONS

范围

方法和结果

结论

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