The Cu(II) affinity constant and reactivity of Hepcidin-25, the main iron regulator in human blood

IF 3.8 2区化学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Inorganic Biochemistry Pub Date : 2023-11-01 DOI:10.1016/j.jinorgbio.2023.112364

Dawid Płonka, Marta D. Wiśniewska, Joanna Ziemska-Legięcka, Marcin Grynberg, Wojciech Bal

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Abstract

Hepcidin is an iron regulatory hormone that does not bind iron directly. Instead, its mature 25-peptide form (H25) contains a binding site for other metals, the so-called ATCUN/NTS (amino-terminal Cu/Ni binding site). The Cu(II)-hepcidin complex was previously studied, but due to poor solubility and difficult handling of the peptide the definitive account on the binding equilibrium was not obtained reliably. In this study we performed a series of fluorescence competition experiments between H25 and its model peptides containing the same ATCUN/NTS site and determined the Cu(II) conditional binding constant of the CuH25 complex at pH 7.4, ^CK_7.4 = 4 ± 2 × 10¹⁴ M⁻¹. This complex was found to be very inert in exchange reactions and poorly reactive in the ascorbate consumption test. The consequences of these findings for the putative role of Cu(II) interactions with H25 are discussed.

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人类血液中主要的铁调节因子Hepcidin-25的Cu（II）亲和力常数和反应性。

铁调素是一种不直接与铁结合的铁调节激素。相反，其成熟的25肽形式（H25）包含一个与其他金属的结合位点，即所谓的ATCUN/NTS（氨基末端Cu/Ni结合位点）。Cu（II）-铁调素复合物先前曾被研究过，但由于肽的溶解性差和难以处理，未能可靠地获得结合平衡的确切解释。在本研究中，我们在H25及其含有相同ATCUN/NTS位点的模型肽之间进行了一系列荧光竞争实验，并测定了CuH25复合物在pH 7.4、CK7.4=4±2×1014M-1时的Cu（II）条件结合常数。发现该络合物在交换反应中非常惰性，在抗坏血酸盐消耗测试中反应性差。讨论了这些发现对Cu（II）与H25相互作用的假定作用的影响。

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

Journal of Inorganic Biochemistry 生物-生化与分子生物学

CiteScore

7.00

自引率

10.30%

发文量

336

审稿时长

41 days

期刊介绍： The Journal of Inorganic Biochemistry is an established international forum for research in all aspects of Biological Inorganic Chemistry. Original papers of a high scientific level are published in the form of Articles (full length papers), Short Communications, Focused Reviews and Bioinorganic Methods. Topics include: the chemistry, structure and function of metalloenzymes; the interaction of inorganic ions and molecules with proteins and nucleic acids; the synthesis and properties of coordination complexes of biological interest including both structural and functional model systems; the function of metal- containing systems in the regulation of gene expression; the role of metals in medicine; the application of spectroscopic methods to determine the structure of metallobiomolecules; the preparation and characterization of metal-based biomaterials; and related systems. The emphasis of the Journal is on the structure and mechanism of action of metallobiomolecules.