Gabbiani Chiara, Casini Angela, Messori Luigi, Guerri Annalisa, Cinellu Maria Agostina, Minghetti Giovanni, Corsini Maddalena, Rosani Claudia, Zanello Piero, Arca Massimiliano
Dipartimento di Chimica and CRIST, Centro Interdipartimentale di Cristallografia Strutturale, Università di Firenze, Polo Scientifico, Via della Lastruccia 3, 50019 Sesto Fiorentino, Firenze, Italy.
Inorg Chem. 2008 Apr 7;47(7):2368-79. doi: 10.1021/ic701254s. Epub 2008 Mar 4.
A series of structurally related oxo-bridged binuclear gold(III) compounds, Au2(mu-O)2(N;N)22, where N;N is 2,2'-bipyridine or a substituted 2,2'-bipyridine, have recently been shown to exhibit appreciable stability under physiological-like conditions and to manifest important antiproliferative effects toward selected human tumor cell lines (J. Med. Chem. 2006, 49, 5524). The crystal structures of four members of this series, namely, Au2(mu-O)2(bipy)22, cis-Au2(mu-O)2(6-Mebipy)22, trans-Au2(mu-O)2(6-oXylbipy)22, and Au2(mu-O)2(6,6'-Me2bipy)22, have been solved here and the respective structural parameters comparatively analyzed. Remarkably, all of the compounds contain a common structural motif consisting of a Au2O2 "diamond core" linked to two bipyridine ligands in a roughly planar arrangement. Interestingly, introduction of different kinds of alkyl or aryl substituents on the 6 (and 6') position(s) of the bipyridine ligand leads to small structural changes that nonetheless greatly affect the reactivity of the metal centers. The chemical behavior of these compounds in solution has been studied in detail, focusing in particular on the electrochemical properties. Some initial correlations among the structural parameters, the chemical behavior in solution, and the known cytotoxic effects of these compounds are proposed. Notably, we have found that the 6,6'-dimethyl-2,2'-bipyridine derivative, which showed the largest structural deviations with respect to the model compound Au2(mu-O)2(bipy)22, also had the highest oxidizing power, the least thermal stability, and the greatest cytotoxic activity. The positive correlation that exists between the oxidizing power and the antiproliferative effects seems to be of particular interest. Moreover, the electronic structures of these compounds were extensively analyzed using DFT methods, and the effects of the various substituents on reactivity were predicted; overall, very good agreement between theoretical expectations and experimental data was achieved. In turn, theoretical predictions offer interesting hints for the design of new, more active binuclear gold(III) compounds.
一系列结构相关的氧桥联双核金(III)化合物,Au₂(μ-O)₂(N;N)₂₂,其中N;N为2,2'-联吡啶或取代的2,2'-联吡啶,最近已被证明在类似生理条件下具有可观的稳定性,并对选定的人类肿瘤细胞系表现出重要的抗增殖作用(《药物化学杂志》2006年,49卷,5524页)。本文解析了该系列四个成员的晶体结构,即Au₂(μ-O)₂(bipy)₂₂、顺式-Au₂(μ-O)₂(6-Mebipy)₂₂、反式-Au₂(μ-O)₂(6-oXylbipy)₂₂和Au₂(μ-O)₂(6,6'-Me₂bipy)₂₂,并对各自的结构参数进行了比较分析。值得注意的是,所有化合物都包含一个共同的结构单元,由一个Au₂O₂“菱形核心”与两个大致呈平面排列的联吡啶配体相连。有趣的是,在联吡啶配体的6(和6')位引入不同种类的烷基或芳基取代基会导致微小的结构变化,但却极大地影响了金属中心的反应活性。已详细研究了这些化合物在溶液中的化学行为,尤其关注其电化学性质。提出了这些化合物的结构参数、溶液中的化学行为与已知细胞毒性作用之间的一些初步关联。值得注意的是,我们发现6,6'-二甲基-2,2'-联吡啶衍生物相对于模型化合物Au₂(μ-O)₂(bipy)₂₂表现出最大的结构偏差,同时也具有最高的氧化能力、最低的热稳定性和最大的细胞毒性活性。氧化能力与抗增殖作用之间存在的正相关似乎特别令人感兴趣。此外,使用密度泛函理论(DFT)方法对这些化合物的电子结构进行了广泛分析,并预测了各种取代基对反应活性的影响;总体而言,理论预期与实验数据之间取得了非常好的一致性。反过来,理论预测为设计新型、更具活性的双核金(III)化合物提供了有趣的线索。
