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确定金属离子抑制剂与重组人H链和L链铁蛋白及定点变体的相互作用:等温滴定量热法研究

Defining metal ion inhibitor interactions with recombinant human H- and L-chain ferritins and site-directed variants: an isothermal titration calorimetry study.

作者信息

Bou-Abdallah Fadi, Arosio Paolo, Levi Sonia, Janus-Chandler Christine, Chasteen N Dennis

机构信息

Department of Chemistry, University of New Hampshire, Durham, NH 03824, USA.

出版信息

J Biol Inorg Chem. 2003 Apr;8(4):489-97. doi: 10.1007/s00775-003-0455-6. Epub 2003 Apr 5.

DOI:10.1007/s00775-003-0455-6
PMID:12679873
Abstract

Zinc and terbium, inhibitors of iron incorporation in the ferritins, have been used for many years as probes of structure-function relationships in these proteins. Isothermal titration calorimetric and kinetic measurements of Zn(II) and Tb(III) binding and inhibition of Fe(II) oxidation were used to identify and characterize thermodynamically ( n, K, Delta H degrees, Delta S degrees, and Delta G degrees ) the functionally important binding sites for these metal ions in recombinant human H-chain, L-chain, and H-chain site-directed variant ferritins. The data reveal at least two classes of binding sites for both Zn(II) and Tb(III) in human H-chain ferritin: one strong, corresponding to binding of one metal ion in each of the eight three-fold channels, and the other weak, involving binding at the ferroxidase and nucleation sites of the protein as well as at other weak unidentified binding sites. Zn(II) and Tb(III) binding to recombinant L-chain ferritin showed similar stoichiometries for the strong binding sites within the channels, but fewer weaker binding sites when compared to the H-chain protein. The kinetics and binding data indicate that the binding of Zn(II) and Tb(III) in the three-fold channels, which is the main pathway of iron(II) entry in ferritin, blocks the access of most of the iron to the ferroxidase sites on the interior of the protein, accounting for the strong inhibition by these metal ions of the oxidative deposition of iron in ferritin.

摘要

锌和铽作为铁蛋白中铁掺入的抑制剂,多年来一直被用作研究这些蛋白质结构-功能关系的探针。通过等温滴定量热法以及锌(II)和铽(III)结合及抑制亚铁(II)氧化的动力学测量,从热力学角度(n、K、ΔH°、ΔS°和ΔG°)鉴定并表征了重组人H链、L链和H链定点变异铁蛋白中这些金属离子的功能重要结合位点。数据显示,人H链铁蛋白中锌(II)和铽(III)至少有两类结合位点:一类较强,对应于八个三重通道中每个通道结合一个金属离子;另一类较弱,涉及在蛋白质的亚铁氧化酶和成核位点以及其他未明确的弱结合位点的结合。锌(II)和铽(III)与重组L链铁蛋白的结合在通道内的强结合位点显示出相似的化学计量,但与H链蛋白相比,较弱的结合位点较少。动力学和结合数据表明,锌(II)和铽(III)在三重通道中的结合(这是铁蛋白中亚铁(II)进入的主要途径)阻断了大部分铁进入蛋白质内部的亚铁氧化酶位点,这解释了这些金属离子对铁蛋白中铁氧化沉积的强烈抑制作用。

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