人体S100A8与锌、钙配合物的晶体结构

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2016-06-01 DOI:10.1186/s12900-016-0058-4
Haili Lin, Gregers Rom Andersen, Laure Yatime
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引用次数: 20

摘要

S100蛋白是一个仅存在于脊椎动物中的钙结合蛋白大家族。它们在细胞内和细胞外作为体内平衡过程的调节剂和炎症期间的有效效应器发挥作用。其中,S100A8和S100A9是中性粒细胞的两种主要成分,可以组装成同二聚体、异二聚体和更高的低聚体,包括在衰老的前列腺中发现的原纤维结构。这些形式中的每一种都具有特定的功能,它们的形成依赖于二价阳离子,特别是钙和锌。特别是,锌在疾病背景下似乎是S100蛋白功能的主要调节因子。尽管如此,关于锌如何与S100A8/S100A9结合并调节其四级结构的结构信息尚不清楚。在这里,我们报告了钙和锌负载人S100A8的两种晶体结构。S100A8通过两个对称的全his四配位位点与每个同型二聚体结合两个锌离子,揭示了该蛋白的经典His-Zn结合模式。此外,在我们的第二种晶体形式中(Zn)2-羧酸盐配合物的存在诱导了标准的His4锌结合基序内的配体交换,从而产生了两个新的锌位点,其中一个涉及来自对称相关分子的残基。最后,我们描述了钙诱导的S100A8四聚体,并揭示了锌如何通过收紧二聚体-二聚体界面来稳定该四聚体。我们的Zn2+/Ca2+结合hS100A8的结构表明,S100A8是一个真正的His-Zn S100蛋白。此外,他们还展示了锌如何稳定S100A8的四聚化,并可能介导新的二聚体相互作用的形成。我们认为这些锌介导的相互作用可能是体内产生更大的低聚物的基础。
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Crystal structure of human S100A8 in complex with zinc and calcium

S100 proteins are a large family of calcium binding proteins present only in vertebrates. They function intra- and extracellularly both as regulators of homeostatic processes and as potent effectors during inflammation. Among these, S100A8 and S100A9 are two major constituents of neutrophils that can assemble into homodimers, heterodimers and higher oligomeric species, including fibrillary structures found in the ageing prostate. Each of these forms assumes specific functions and their formation is dependent on divalent cations, notably calcium and zinc. In particular, zinc appears as a major regulator of S100 protein function in a disease context. Despite this central role, no structural information on how zinc bind to S100A8/S100A9 and regulates their quaternary structure is yet available.

Here we report two crystallographic structures of calcium and zinc-loaded human S100A8. S100A8 binds two zinc ions per homodimer, through two symmetrical, all-His tetracoordination sites, revealing a classical His-Zn binding mode for the protein. Furthermore, the presence of a (Zn)2-cacodylate complex in our second crystal form induces ligand swapping within the canonical His4 zinc binding motif, thereby creating two new Zn-sites, one of which involves residues from symmetry-related molecules. Finally, we describe the calcium-induced S100A8 tetramer and reveal how zinc stabilizes this tetramer by tightening the dimer-dimer interface.

Our structures of Zn2+/Ca2+-bound hS100A8 demonstrate that S100A8 is a genuine His-Zn S100 protein. Furthermore, they show how zinc stabilizes S100A8 tetramerization and potentially mediates the formation of novel interdimer interactions. We propose that these zinc-mediated interactions may serve as a basis for the generation of larger oligomers in vivo.

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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%
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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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