Gerhardt Stefan, Abbott W Mark, Hargreaves David, Pauptit Richard A, Davies Rick A, Needham Maurice R C, Langham Caroline, Barker Wendy, Aziz Azad, Snow Melanie J, Dawson Sarah, Welsh Fraser, Wilkinson Trevor, Vaugan Tris, Beste Gerald, Bishop Sarah, Popovic Bojana, Rees Gareth, Sleeman Matthew, Tuske Steven J, Coales Stephen J, Hamuro Yoshitomo, Russell Caroline
AstraZeneca, Alderley Park, Macclesfield, Cheshire SK10 4TG, UK.
J Mol Biol. 2009 Dec 18;394(5):905-21. doi: 10.1016/j.jmb.2009.10.008. Epub 2009 Oct 14.
IL-17A is a pro-inflammatory cytokine produced by the newly identified Th17 subset of T-cells. We have isolated a human monoclonal antibody to IL-17A (CAT-2200) that can potently neutralize the effects of recombinant and native human IL-17A. We determined the crystal structure of IL-17A in complex with the CAT-2200 Fab at 2.6 A resolution in order to provide a definitive characterization of the epitope and paratope regions. Approximately a third of the IL-17A dimer is disordered in this crystal structure. The disorder occurs in both independent copies of the complex in the asymmetric unit and does not appear to be influenced by crystal packing. The complex contains one IL-17A dimer sandwiched between two CAT-2200 Fab fragments. The IL-17A is a disulfide-linked homodimer that is similar in structure to IL-17F, adopting a cystine-knot fold. The structure is not inconsistent with the previous prediction of a receptor binding cavity on IL-17 family members. The epitope recognized by CAT-2200 is shown to involve 12 amino acid residues from the quaternary structure of IL-17A, with each Fab contacting both monomers in the dimer. All complementarity-determining regions (CDRs) in the Fab contribute to a total of 16 amino acid residues in the antibody paratope. In vitro affinity optimization was used to generate CAT-2200 from a parental lead antibody using random mutagenesis of CDR3 loops. This resulted in seven amino acid changes (three in VL-CDR3 and four in VH-CDR3) and gave an approximate 30-fold increase in potency in a cell-based neutralization assay. Two of the seven amino acids form part of the CAT-2200 paratope. The observed interaction site between CAT-2200 and IL-17A is consistent with data from hydrogen/deuterium exchange mass spectrometry and mutagenesis approaches.
白细胞介素-17A(IL-17A)是一种由新发现的T细胞亚群Th17产生的促炎细胞因子。我们分离出了一种针对IL-17A的人源单克隆抗体(CAT-2200),它能够有效中和重组人源和天然人源IL-17A的作用。我们以2.6埃的分辨率测定了IL-17A与CAT-2200 Fab复合物的晶体结构,以便对表位和互补决定区进行明确的表征。在此晶体结构中,大约三分之一的IL-17A二聚体是无序的。这种无序在不对称单元中的复合物的两个独立拷贝中都存在,并且似乎不受晶体堆积的影响。该复合物包含一个夹在两个CAT-2200 Fab片段之间的IL-17A二聚体。IL-17A是一种通过二硫键连接的同型二聚体,其结构与IL-17F相似,具有胱氨酸结折叠。该结构与先前对IL-17家族成员上受体结合腔的预测并不矛盾。结果表明,CAT-2200识别的表位涉及来自IL-17A四级结构的12个氨基酸残基,每个Fab与二聚体中的两个单体都有接触。Fab中的所有互补决定区(CDR)在抗体互补决定区中共贡献了16个氨基酸残基。使用体外亲和力优化方法,通过对CDR3环进行随机诱变,从亲本先导抗体生成了CAT-2200。这导致了7个氨基酸的变化(3个在VL-CDR3中,4个在VH-CDR3中),并在基于细胞的中和试验中使效力提高了约30倍。这7个氨基酸中的2个构成了CAT-2200互补决定区的一部分。观察到的CAT-2200与IL-17A之间的相互作用位点与氢/氘交换质谱和诱变方法的数据一致。
