Conformational flexibility of an anti-IL-13 DARPin†

A. Teplyakov, T. Malia, G. Obmolova, S. Jacobs, K. O'Neil, G. Gilliland
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引用次数: 9

Abstract

Designed ankyrin repeat proteins (DARPin®) are artificial non-immunoglobulin binding proteins with potential applications as therapeutic molecules. DARPin 6G9 binds interleukin-13 with high affinity and blocks the signaling pathway and as such is promising for the treatment of asthma and other atopic diseases. The crystal structures of DARPin 6G9 in the unbound form and in complex with IL-13 were determined at high resolution. The DARPin competes for the same epitope as the IL-13 receptor chain 13R&agr;1 but does not interfere with the binding of the other receptor chain, IL-4R&agr;. Analysis of multiple copies of the DARPin molecule in the crystal indicates the conformational instability in the N-terminal cap that was predicted from molecular dynamics simulations. Comparison of the DARPin structures in the free state and in complex with IL-13 reveals a concerted movement of the ankyrin repeats upon binding resulted in the opening of the binding site. The induced-fit mode of binding employed by DARPin 6G9 is very unusual for DARPins since they were designed as particularly stable and rigid molecules. This finding shows that DARPins can operate by various binding mechanisms and suggests that some flexibility in the scaffold may be an advantage.
抗il -13 DARPin†的构象柔韧性
设计锚蛋白重复序列蛋白(DARPin®)是一种人工非免疫球蛋白结合蛋白,具有潜在的治疗分子应用前景。DARPin 6G9以高亲和力结合白细胞介素-13并阻断信号通路,因此有望用于治疗哮喘和其他特应性疾病。在高分辨率下测定了DARPin 6G9的非结合形态和与IL-13配合物的晶体结构。DARPin与IL-13受体链13R&agr 1竞争相同的表位,但不干扰另一个受体链IL-4R&agr的结合。对晶体中多个拷贝的DARPin分子的分析表明,分子动力学模拟预测了n端帽的构象不稳定性。将游离状态和与IL-13复合物的DARPin结构进行比较,发现在结合时锚蛋白重复序列的协同运动导致了结合位点的打开。DARPin 6G9采用的诱导配合模式对DARPin来说是非常不寻常的,因为它们被设计为特别稳定和刚性的分子。这一发现表明,DARPins可以通过各种结合机制起作用,并表明支架中的一些灵活性可能是一种优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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