Department of Pharmacological Sciences, Università degli Studi di Milano, via Balzaretti 9, 20133, Milan, Italy.
Plant Foods Hum Nutr. 2010 Dec;65(4):396-402. doi: 10.1007/s11130-010-0199-8.
The immunological cross-reactivity among major protein- and oil-crops, including lupin, lentil, pea, peanut, kidney bean and soybean, has been studied by a combination of in vitro and in vivo experimental approaches: SDS-PAGE separations of legume protein extracts and immuno-blot revelations with 12 peanut-sensitive subjects' sera, Immuno-CAP and Skin Prick tests on the same subjects. The immuno-blotting data showed a wide range of IgE-binding responses both displayed by one subject towards different plant extracts and among subjects. Differences were both quantitative and qualitative. The prevalent responses of most subjects' sera were seen with peanut polypeptides, as expected, as well as with various polypeptides of the other legumes, the most recurrent of which were the basic subunits of the 11S globulins. The distribution of in vivo responses generally paralleled those obtained by in vitro approaches with strong responses elicited by peanut, lentil and pea protein extracts, especially by most sensitive subjects, thus providing a consistent overall set of results. In this work, the comparison of various approaches has allowed us to get an overall broad picture of the immunological cross-reactivities among proteins of widely used different seed species and to hypothesize the role of most conserved specific polypeptides.
采用体外和体内实验相结合的方法研究了主要蛋白质和油料作物(包括羽扇豆、小扁豆、豌豆、花生、芸豆和大豆)之间的免疫交叉反应性:通过 SDS-PAGE 分离豆科植物蛋白提取物,并使用 12 份花生敏感个体的血清进行免疫印迹揭示,对同一对象进行免疫 CAP 和皮肤点刺试验。免疫印迹数据显示,一个个体对不同植物提取物和个体之间存在广泛的 IgE 结合反应。差异既有定量的也有定性的。大多数研究对象的血清最常见的反应是对花生多肽的反应,这是预期的,也对其他豆类的各种多肽有反应,其中最常见的是 11S 球蛋白的碱性亚基。体内反应的分布通常与体外方法的结果相似,花生、小扁豆和豌豆蛋白提取物可引起强烈反应,尤其是在最敏感的个体中,从而提供了一致的整体结果。在这项工作中,各种方法的比较使我们能够全面了解广泛使用的不同种子物种蛋白质之间的免疫交叉反应性,并假设大多数保守的特异性多肽的作用。
