Waters Lorna C, Veverka Vaclav, Strong Sarah L, Muskett Frederick W, Dedi Neesha, Lawson Alastair D G, Prosser Christine E, Taylor Richard J, Henry Alistair J, Carr Mark D
Department of Molecular and Cell Biology/Leicester Institute of Structural and Chemical Biology, Henry Wellcome Building, University of Leicester, Lancaster Road, Leicester LE1 9HN, United Kingdom.
Department of Molecular and Cell Biology/Leicester Institute of Structural and Chemical Biology, Henry Wellcome Building, University of Leicester, Lancaster Road, Leicester LE1 9HN, United Kingdom.
Cytokine. 2021 Jun;142:155476. doi: 10.1016/j.cyto.2021.155476. Epub 2021 Mar 9.
The proinflammatory cytokines IL-17A and IL-17F have been identified as key drivers of a range of human inflammatory diseases, such as psoriasis, which has led to several therapeutic antibodies targeted at IL-17A. The two cytokines have been shown to tightly associate as functional homo and hetero dimers, which induce signalling via the formation of a cell surface signalling complex with a single copy of both IL-17RA and IL-17RC. Striking differences in affinity have been observed for IL-17RA binding to IL-17AA, IL-17AF and IL-17FF, however, the functional significance and molecular basis for this has remained unclear. We have obtained comprehensive backbone NMR assignments for full length IL-17AA (79%), IL-17AF (93%) and IL-17FF (89%), which show that the dimers adopt almost identical backbone topologies in solution to those observed in reported crystal structures. Analysis of the line widths and intensities of assigned backbone amide NMR signals has revealed striking differences in the conformational plasticity and dynamics of IL-17AA compared to both IL-17AF and IL-17FF. Our NMR data indicate that a number of regions of IL-17AA are interconverting between at least two distinct conformations on a relatively slow timescale. Such conformational heterogeneity has previously been shown to play an important role in the formation of many high affinity protein-protein complexes. The locations of the affected IL-17AA residues essentially coincides with the regions of both IL-17A and IL-17F previously shown to undergo significant structural changes on binding to IL-17RA. Substantially less conformational exchange was revealed by the NMR data for IL-17FF and IL-17AF. We propose that the markedly different conformational dynamic properties of the distinct functional IL-17 dimers plays a key role in determining their affinities for IL-17RA, with the more dynamic and plastic nature of IL-17AA contributing to the significantly tighter affinity observed for binding to IL-17RA. In contrast, the dynamic properties are expected to have little influence on the affinity of IL-17 dimers for IL-17RC, which has recently been shown to induce only small structural changes in IL-17FF upon binding.
促炎细胞因子白细胞介素-17A(IL-17A)和白细胞介素-17F(IL-17F)已被确定为一系列人类炎症性疾病的关键驱动因素,如银屑病,这已促使产生了几种靶向IL-17A的治疗性抗体。这两种细胞因子已被证明以功能性同源二聚体和异源二聚体的形式紧密结合,它们通过与单个拷贝的IL-17RA和IL-17RC形成细胞表面信号复合物来诱导信号传导。然而,已观察到IL-17RA与IL-17AA、IL-17AF和IL-17FF结合时亲和力存在显著差异,但其功能意义和分子基础仍不清楚。我们已获得全长IL-17AA(79%)、IL-17AF(93%)和IL-17FF(89%)的全面主链核磁共振(NMR)归属,结果表明这些二聚体在溶液中的主链拓扑结构与报道的晶体结构中观察到的几乎相同。对已归属的主链酰胺NMR信号的线宽和强度分析表明,与IL-17AF和IL-17FF相比,IL-17AA在构象可塑性和动力学方面存在显著差异。我们的NMR数据表明,IL-17AA的多个区域在相对较慢的时间尺度上至少在两种不同构象之间相互转换。此前已表明,这种构象异质性在许多高亲和力蛋白质-蛋白质复合物的形成中起重要作用。受影响的IL-17AA残基的位置基本上与先前显示在与IL-17RA结合时发生显著结构变化的IL-17A和IL-17F的区域一致。IL-17FF和IL-17AF的NMR数据显示其构象交换明显较少。我们提出,不同功能的IL-17二聚体明显不同的构象动力学特性在决定它们对IL-17RA的亲和力方面起关键作用,IL-17AA更具动态性和可塑性的性质导致其与IL-17RA结合时观察到的显著更强的亲和力。相比之下,预计动力学特性对IL-17二聚体与IL-17RC的亲和力影响不大,最近已表明IL-17RC在结合时仅在IL-17FF中诱导微小的结构变化。
