Welin Henriksson E, Wahren-Herlenius M, Lundberg I, Mellquist E, Pettersson I
Department of Medicine, Rheumatology Research Unit, Karolinska Hospital, Karolinska Institutet, S-171 76 Stockholm, Sweden.
Proc Natl Acad Sci U S A. 1999 Dec 7;96(25):14487-92. doi: 10.1073/pnas.96.25.14487.
Epitopes depending on three-dimensional folding of proteins have during recent years been acknowledged to be main targets for many autoantibodies. However, a detailed resolution of conformation-dependent epitopes has to date not been achieved in spite of its importance for understanding the complex interaction between an autoantigen and the immune system. In analysis of immunodominant epitopes of the U1-70K protein, the major autoantigen recognized by human ribonucleoprotein (RNP)-positive sera, we have used diversely mutated recombinant Drosophila melanogaster 70K proteins as antigens in assays for human anti-RNP antibodies. Thus, the contribution of individual amino acids to antigenicity could be assayed with the overall structure of the major antigenic domain preserved, and analysis of how antigenicity can be reconstituted rather than obliterated was enabled. Our results reveal that amino acid residue 125 is situated at a crucial position for recognition by human anti-RNP autoantibodies and that flanking residues at positions 119-126 also appear to be of utmost importance for recognition. These results are discussed in relation to structural models of RNA-binding domains, and tertiary structure modeling indicates that the residues 119-126 are situated at easily accessible positions in the end of an alpha-helix in the RNA binding region. This study identifies a major conformation-dependent epitope of the U1-70K protein and demonstrates the significance of individual amino acids in conformational epitopes. Using this model, we believe it will be possible to analyze other immunodominant regions in which protein conformation has a strong impact.
近年来,人们已经认识到依赖蛋白质三维折叠的表位是许多自身抗体的主要靶标。然而,尽管构象依赖性表位的详细解析对于理解自身抗原与免疫系统之间的复杂相互作用至关重要,但迄今为止尚未实现。在分析U1 - 70K蛋白(人类核糖核蛋白(RNP)阳性血清识别的主要自身抗原)的免疫显性表位时,我们使用了多种突变的重组果蝇70K蛋白作为抗原,用于检测人类抗RNP抗体。因此,可以在保留主要抗原结构域整体结构的情况下检测单个氨基酸对抗原性的贡献,并且能够分析抗原性如何被重构而非消除。我们的结果表明,氨基酸残基125位于人类抗RNP自身抗体识别的关键位置,并且119 - 126位的侧翼残基对于识别似乎也至关重要。这些结果结合RNA结合结构域的结构模型进行了讨论,三级结构建模表明119 - 126位残基位于RNA结合区域α - 螺旋末端易于接近的位置。本研究确定了U1 - 70K蛋白的一个主要构象依赖性表位,并证明了单个氨基酸在构象表位中的重要性。使用这个模型,我们相信有可能分析蛋白质构象有强烈影响的其他免疫显性区域。