h -吲哚-2,3-二酮席夫碱衍生物及其Co(II)和Ni(II)配合物的合成和硅研究

Helen O. Echekwube, P. Ukoha, O. T. Ujam, C. Nwuche, J. Asegbeloyin, A. Ibezim
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引用次数: 3

摘要

通过1h -吲哚-2,3-二酮与苯-1,2-二胺、苯-1,3-二胺和苯-1,4-二胺的反应,分别合成了3-[(2-氨基苯基)亚胺]-1,3-二氢- 2h -吲哚-2- 1、(Lo)、1,3-苯-2,3-二氢- 2h -吲哚-2- 1、(Lm)和1,4-苯-1,4-二胺。Lo、Lm和Lp与Co(II)和Ni(II)卤化物反应生成相应的配位配合物,通过元素分析、摩尔电导、红外、GC-MS和电子能谱研究对其进行了表征。1h -吲哚-2,3-二酮与青霉素结合蛋白和DNA旋切酶结合位点的对接表明,它们与抗菌靶点在-2.51 ~ -5.48 kcal/mol的deltaGs范围内具有良好的相互作用。根据文献报道,钴和镍与配体配位产生的金属配合物与蛋白质靶标的相互作用更好(在-8.70至-10.20 kcal/mol的deltaGs范围内)。体外抑菌实验表明,部分化合物对革兰氏阴性菌和革兰氏阳性菌均有抑菌活性。Lo、Lm和Lp对试验微生物均无抑菌活性,但Co(II)和Ni(II)配合物有抑菌活性。[Co(Lo)2]和[Ni(Lo)2]配合物产生的抗菌反应最小。[Co(Lo)2]对大肠杆菌6和sciuri次葡萄球菌无效,而枯草芽孢杆菌对[Ni(Lo)2]有抗性,对大肠杆菌14 (7 mm)有中等抑制作用。两种化合物对铜绿假单胞菌均无活性。抗菌活性最高的络合物是[CoLm]Cl2和[NiLp]Cl2。[CoLm]Cl2的抗生素谱活性在20 ~ 30 mm之间,大肠杆菌6表现出较高的敏感性(30 mm),而sciuri则表现出最低的敏感性(20 mm)。[NiLp]Cl2配合物的活性表明,生物的活性谱发生在29和45 mm范围内;最不敏感的是大肠杆菌14 (29 mm)和枯草芽孢杆菌(29 mm),最敏感的是sciuri subsp sciuri (45 mm)。进一步研究了这两种化合物的最低抑制浓度(MIC),并分析了它们与所研究蛋白靶点的结合模式。结果表明,复合物([NiLp]Cl2)对S. sciuri subsp sciuri (12 mm)的MIC为1.25 ug/mL,而复合物([CoLm]Cl2)对同一生物的MIC为2.5 ug/mL (13 mm)。预测的[CoLm]Cl2和[NiLp]Cl2的结合模式确定了与所研究的蛋白质相互作用所必需的基本残基,这些残基可以在结构/活性优化过程中作为目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and in silico investigation of Schiff base derivatives of 1H-indole-2,3-diones and their Co(II) and Ni(II) complexes as antimicrobial agents
3-[(2-aminophenyl)imino]-1,3-dihydro-2H-indol-2-one, (Lo), 1,3-phenylenediazanylylidene di (1,3-dihydro-2H-indol-2-one), (Lm) and 1,4-phenylenediazanylylidene di(1,3-dihydro-2H-indol-2-one) (Lp) were synthesized by the reaction of 1H-indole-2,3-dione with benzene-1,2-diamine, benzene-1,3-diamine and benzene-1,4-diamine respectively. The reaction of Lo, Lm and Lp with Co(II) and Ni(II) halides gave the corresponding coordination complexes which were characterized by elemental analysis, molar conductance, infra-red, GC-MS and electronic spectral studies. Docking of the 1H-indole-2,3-diones toward the binding sites of penicillin binding protein and DNA gyrase showed they interacted favourably with the test antibacterial targets at deltaGs range of -2.51 to -5.48 kcal/mol. In accordance to literature report, coordination of cobalt and nickel to the ligands yielded metal complexes which exhibited improved interaction with the protein targets (at deltaGs range of -8.70 to -10.20 kcal/mol). In vitro antimicrobial studies against some microorganisms showed that some of the compounds were active against few Gram negative and Gram positive bacteria. The Lo, Lm and Lp had no activity against any of the test microorganisms but the Co(II) and Ni(II) complexes, showed antibacterial activity. The [Co(Lo)2] and [Ni(Lo)2] complexes generated the least antibacterial response. [Co(Lo)2] was ineffective against E. coli 6 and Staphylococcus sciuri subsp sciuri while Bacillus subtilis was resistant to [Ni(Lo)2] which moderately inhibited E. coli 14 (7 mm). Both compounds indicated zero activity against Pseudomonas aeruginosa. The complex that evoked the highest bactericidal activity were [CoLm]Cl2 and [NiLp]Cl2. The antibiogram activity of [CoLm]Cl2 was found between 20 and 30 mm with E. coli 6 displaying greater sensitivity (30 mm) and S. sciuri the least (20 mm). The activity of [NiLp]Cl2 complex indicate that the activity spectrum of the organisms occurred within 29 and 45 mm range; the least sensitive were E. coli 14 (29 mm) and B. subtilis (29 mm) while the most sensitive was S. sciuri subsp sciuri (45 mm). The two compounds were further studied for minimum inhibitory concentration (MIC) and their binding modes towards the studied protein targets were analyzed. Result indicate that the MIC of 1.25 ug/mL was determined for the complex ([NiLp]Cl2) against S. sciuri subsp sciuri (12 mm) while in case of [CoLm]Cl2, the MIC was 2.5 ug/mL (13 mm) against the same organism. The binding modes predicted for [CoLm]Cl2 and [NiLp]Cl2 identified essential residues necessary for interaction with the studied proteins and which could be targeted during structural/activity optimization.
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