Department of Biochemistry and Molecular Biology, Medical and Health Science Center, University of Debrecen, Nagyerdei krt 98, Debrecen H-4032, Hungary.
Proc Natl Acad Sci U S A. 2012 Jan 10;109(2):431-6. doi: 10.1073/pnas.1107811108. Epub 2011 Dec 22.
The multifunctional, protein cross-linking transglutaminase 2 (TG2) is the main autoantigen in celiac disease, an autoimmune disorder with defined etiology. Glutamine-rich gliadin peptides from ingested cereals, after their deamidation by TG2, induce T-lymphocyte activation accompanied by autoantibody production against TG2 in 1-2% of the population. The pathogenic role and exact binding properties of these antibodies to TG2 are still unclear. Here we show that antibodies from different celiac patients target the same conformational TG2 epitope formed by spatially close amino acids of adjacent domains. Glu153 and 154 on the first alpha-helix of the core domain and Arg19 on first alpha-helix of the N-terminal domain determine the celiac epitope that is accessible both in the closed and open conformation of TG2 and dependent on the relative position of these helices. Met659 on the C-terminal domain also can cooperate in antibody binding. This composite epitope is disease-specific, recognized by antibodies derived from celiac tissues and associated with biological effects when passively transferred from celiac mothers into their newborns. These findings suggest that celiac antibodies are produced in a surface-specific way for which certain homology of the central glutamic acid residues of the TG2 epitope with deamidated gliadin peptides could be a structural basis. Monoclonal mouse antibodies with partially overlapping epitope specificity released celiac antibodies from patient tissues and antagonized their harmful effects in cell culture experiments. Such antibodies or similar specific competitors will be useful in further functional studies and in exploring whether interference with celiac antibody actions leads to therapeutic benefits.
多功能、蛋白交联转谷氨酰胺酶 2(TG2)是乳糜泻(一种具有明确病因的自身免疫性疾病)的主要自身抗原。摄入的谷物中的富含谷氨酰胺的麦胶肽在 TG2 的脱酰胺作用后,诱导 T 淋巴细胞活化,并伴有 TG2 自身抗体的产生,这种情况在 1-2%的人群中发生。这些抗体对 TG2 的致病作用和确切结合特性仍不清楚。在这里,我们发现来自不同乳糜泻患者的抗体针对的是 TG2 上相同的构象表位,该表位由相邻结构域中空间上接近的氨基酸形成。核心结构域第一α-螺旋上的Glu153 和 154 以及 N-末端结构域第一α-螺旋上的 Arg19 决定了乳糜泻表位,该表位在 TG2 的闭合和开放构象中都是可及的,并且依赖于这些螺旋的相对位置。C-末端结构域上的 Met659 也可以与抗体结合。这个复合表位是疾病特异性的,可被乳糜泻组织中的抗体识别,并在从乳糜泻母亲被动转移到新生儿时具有生物学效应。这些发现表明,乳糜泻抗体是针对特定表面产生的,其中 TG2 表位的中央谷氨酸残基与脱酰胺麦胶肽的某些同源性可能是结构基础。具有部分重叠表位特异性的单克隆鼠抗体从患者组织中释放乳糜泻抗体,并在细胞培养实验中拮抗其有害作用。这种抗体或类似的特异性竞争物将有助于进一步的功能研究,并探索是否干扰乳糜泻抗体的作用会带来治疗益处。