Structural characterization of S100A15 reveals a novel zinc coordination site among S100 proteins and altered surface chemistry with functional implications for receptor binding

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Jill I Murray, Michelle L Tonkin, Amanda L Whiting, Fangni Peng, Benjamin Farnell, Jay T Cullen, Fraser Hof, Martin J Boulanger
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引用次数: 23

Abstract

S100 proteins are a family of small, EF-hand containing calcium-binding signaling proteins that are implicated in many cancers. While the majority of human S100 proteins share 25-65% sequence similarity, S100A7 and its recently identified paralog, S100A15, display 93% sequence identity. Intriguingly, however, S100A7 and S100A15 serve distinct roles in inflammatory skin disease; S100A7 signals through the receptor for advanced glycation products (RAGE) in a zinc-dependent manner, while S100A15 signals through a yet unidentified G-protein coupled receptor in a zinc-independent manner. Of the seven divergent residues that differentiate S100A7 and S100A15, four cluster in a zinc-binding region and the remaining three localize to a predicted receptor-binding surface.

To investigate the structural and functional consequences of these divergent clusters, we report the X-ray crystal structures of S100A15 and S100A7D24G, a hybrid variant where the zinc ligand Asp24 of S100A7 has been substituted with the glycine of S100A15, to 1.7?? and 1.6?? resolution, respectively. Remarkably, despite replacement of the Asp ligand, zinc binding is retained at the S100A15 dimer interface with distorted tetrahedral geometry and a chloride ion serving as an exogenous fourth ligand. Zinc binding was confirmed using anomalous difference maps and solution binding studies that revealed similar affinities of zinc for S100A15 and S100A7. Additionally, the predicted receptor-binding surface on S100A7 is substantially more basic in S100A15 without incurring structural rearrangement.

Here we demonstrate that S100A15 retains the ability to coordinate zinc through incorporation of an exogenous ligand resulting in a unique zinc-binding site among S100 proteins. The altered surface chemistry between S100A7 and S100A15 that localizes to the predicted receptor binding site is likely responsible for the differential recognition of distinct protein targets. Collectively, these data provide novel insight into the structural and functional consequences of the divergent surfaces between S100A7 and S100A15 that may be exploited for targeted therapies.

Abstract Image

S100A15的结构表征揭示了S100蛋白之间一个新的锌配位位点和表面化学的改变,对受体结合具有功能意义
S100蛋白是一个小的,含有EF-hand的钙结合信号蛋白家族,与许多癌症有关。虽然大多数人类S100蛋白具有25-65%的序列相似性,但S100A7与其最近鉴定的类似物S100A15具有93%的序列一致性。有趣的是,S100A7和S100A15在炎症性皮肤病中起着不同的作用;S100A7以锌依赖的方式通过晚期糖基化产物受体(RAGE)发出信号,而S100A15以锌不依赖的方式通过尚未确定的g蛋白偶联受体发出信号。在区分S100A7和S100A15的7个不同残基中,4个聚集在锌结合区域,其余3个定位于预测的受体结合表面。为了研究这些不同簇的结构和功能后果,我们报道了S100A15和S100A7D24G的x射线晶体结构,其中S100A7的锌配体Asp24被S100A15的甘氨酸取代,达到1.7??和1.6 ? ?分别解决。值得注意的是,尽管取代了Asp配体,锌结合仍然保留在S100A15二聚体界面上,具有扭曲的四面体几何形状和氯离子作为外源性第四配体。锌结合通过异常差异图和溶液结合研究证实,锌对S100A15和S100A7具有相似的亲和力。此外,S100A7上预测的受体结合表面在S100A15中基本程度更高,而不会发生结构重排。在这里,我们证明S100A15通过结合外源配体保留了协调锌的能力,从而在S100蛋白中形成了独特的锌结合位点。S100A7和S100A15之间的表面化学变化定位于预测的受体结合位点,可能是对不同蛋白质靶标的差异识别的原因。总的来说,这些数据为S100A7和S100A15之间不同表面的结构和功能后果提供了新的见解,可能用于靶向治疗。
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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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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