van de Wal Y, Kooy Y M, van Veelen P, Vader W, August S A, Drijfhout J W, Peña S A, Koning F
Department of Immunohaematology and Bloodbank, Leiden University Medical Center, Leiden, The Netherlands.
Eur J Immunol. 1999 Oct;29(10):3133-9. doi: 10.1002/(SICI)1521-4141(199910)29:10<3133::AID-IMMU3133>3.0.CO;2-G.
Gluten ingestion causes coeliac disease in susceptible individuals. Gluten is a heterogeneous mixture of glutenin and gliadin, the latter of which is considered responsible for disease induction. By combining high-performance liquid chromatography purification steps of gluten with a T cell bioassay and mass spectral analyses, we have identified a glutenin peptide (glt04 707-742) that activates T cells from the small intestine of a coeliac disease patient and results in the secretion of large amounts of IFN-gamma. The minimal T cell stimulatory core of the peptide (residues 724-734) is repetitively present in glutenin molecules. Moreover, it was observed that a large number of naturally occurring variants of this peptide are recognized by the T cells. These data suggest that the large heterogeneity of glutenin proteins dramatically increases the number of available T cell epitopes. Together, the results provide new insight into the nature of the gluten antigens that lead to coeliac disease and suggest that glutenin, next to gliadin-derived antigens, may be involved in the disease process.
摄入麸质会使易感个体患上乳糜泻。麸质是谷蛋白和醇溶蛋白的异质混合物,后者被认为是引发疾病的原因。通过将麸质的高效液相色谱纯化步骤与T细胞生物测定和质谱分析相结合,我们鉴定出一种谷蛋白肽(glt04 707 - 742),它能激活乳糜泻患者小肠中的T细胞,并导致大量干扰素 - γ的分泌。该肽的最小T细胞刺激核心(残基724 - 734)在谷蛋白分子中重复出现。此外,还观察到该肽的大量天然变体可被T细胞识别。这些数据表明,谷蛋白蛋白质的巨大异质性显著增加了可用T细胞表位的数量。总之,这些结果为导致乳糜泻的麸质抗原的性质提供了新的见解,并表明谷蛋白除了源自醇溶蛋白的抗原外,可能也参与了疾病过程。
