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铜(I)与去辅基和金属重组锌指肽的光谱特性分析。

Spectroscopic characterization of copper(I) binding to apo and metal-reconstituted zinc finger peptides.

机构信息

Department of Chemistry, Macalester College, 1600 Grand Avenue, Saint Paul, MN 55105, USA.

出版信息

J Biol Inorg Chem. 2013 Aug;18(6):669-78. doi: 10.1007/s00775-013-1012-6. Epub 2013 Jun 18.

DOI:10.1007/s00775-013-1012-6
PMID:23775426
Abstract

Cu(I) exhibits high affinity for thiolate ligands, suggesting that thiol-rich zinc or iron binding sites may be subject to disruption during copper stress conditions. Zinc fingers constitute a large class of metalloproteins that use a combination of cysteine and histidine residues that bind Zn(II) as a structural element. Despite the shared preference of both copper and zinc for thiolate and amine coordination, the susceptibility of zinc finger domains toward copper substitution is not well studied. We report spectroscopic studies that characterize the Cu(I) binding properties of the zinc finger consensus peptides CP-CCHH, CP-CCHC, and CP-CCCC and the C-terminal zinc finger domain of HIV-1 nucleocapsid protein p7 (NCp7_C). Cu(I) binds to both the apopeptides and the Co(II)-substituted peptides, and the stoichiometry of Cu(I) binding is dependent on the number of cysteine thiols at the metal binding site. Fluorescence studies of the Zn(II)-NCp7_C complex indicate that Cu(I) also effectively competes with Zn(II) at the metal binding site, despite the high affinity of Zn(II) for the CCHC binding motif. Circular dichroism studies on both CP-CCHC and NCp7_C show that the conformations of the Cu(I)-bound complexes differ substantially from those of the Zn(II) species, implying that Cu(I) substitution is likely to impact zinc finger function. These results show that for the peptides studied here, Cu(I) is the thermodynamically favored metal despite the known high Zn(II) affinity of zinc finger domains, suggesting that Cu(I)-substituted zinc finger domains might be relevant in the context of both copper toxicity mechanisms and copper-responsive transcription factors.

摘要

Cu(I) 对硫醇配体表现出高亲和力,这表明在铜胁迫条件下,富含硫醇的锌或铁结合位点可能会受到破坏。锌指是一大类金属蛋白酶,它们使用结合 Zn(II) 的半胱氨酸和组氨酸残基的组合作为结构元素。尽管铜和锌都偏爱硫醇和胺配位,但锌指结构域对铜取代的易感性尚未得到很好的研究。我们报告了光谱研究,这些研究表征了锌指共有序列肽 CP-CCHH、CP-CCHC 和 CP-CCCC 以及 HIV-1 核衣壳蛋白 p7(NCp7_C)的 C 末端锌指结构域的 Cu(I) 结合特性。Cu(I) 与脱肽和 Co(II)取代的肽结合,Cu(I) 结合的化学计量取决于金属结合位点的半胱氨酸硫醇数量。Zn(II)-NCp7_C 配合物的荧光研究表明,尽管 Zn(II) 与 CCHC 结合基序具有高亲和力,但 Cu(I) 也能有效地与 Zn(II) 在金属结合位点竞争。CP-CCHC 和 NCp7_C 的圆二色性研究表明,Cu(I) 结合复合物的构象与 Zn(II) 物种有很大不同,这意味着 Cu(I) 取代可能会影响锌指功能。这些结果表明,对于这里研究的肽,尽管锌指结构域已知对 Zn(II) 具有高亲和力,但 Cu(I) 是热力学上更有利的金属,这表明 Cu(I) 取代的锌指结构域可能与铜毒性机制和铜反应性转录因子都有关。

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