Sakthikumar Karunganathan, Solomon Rajadurai Vijay, Raja Jeyaraj Dhaveethu
Chemistry Research Centre, Mohamed Sathak Engineering College Kilakarai, Ramanathapuram 623 806 Tamil Nadu India
Department of Chemistry, Madras Christian College (Autonomous) Tambaram East Chennai 600 059 Tamil Nadu India
RSC Adv. 2019 May 7;9(25):14220-14241. doi: 10.1039/c8ra09218d.
Biosensitive and biologically active morpholine-based transition metal(ii) complexes (1-5) were constructed as [M(L) AcO]·HO {where M = Cu (1) = 1; Co (2), Mn (3), Ni (4), = 4 and Zn (5) = 2}, which were synthesized from 2-(-(2-morpholinoethylimino) methyl)-4-bromophenol ligand (HL) and structurally characterized by various analytical and spectroscopic techniques, which proposed a square planar and tetrahedral geometry around the central metal ion with lattice water molecules. The gel electrophoresis results revealed that complexes 1 and 5 had more potent DNA cleavage efficacy in the presence of an oxidizing agent (HO) as compared to the others. The observed DNA binding results for all the compounds as determined by spectro-electrochemical and hydrodynamic techniques were in the order 3.36 (1) > 3.06 (2) > 2.73 (4) > 2.61 (5) > 1.84 (3) > 1.00 (HL) × 10 M. The obtained bovine serum albumin (BSA) protein binding constant ( ) results put forward the following order 2.38 (1) > 2.21 (2) > 2.18 (5) > 1.76 (4) > 1.40 (3) > 1.26 (HL) × 10 M. Also, the biothermodynamic parameters (, , Δ° and Δ°) and binding results divulged that all the complexes (1-5) could bind to DNA intercalation in a spontaneous manner. Density functional theory calculations were employed to optimize the structure of ligand (HL) and its complexes (1-5) to gain insights into their electronic structures. Molecular docking analysis was carried out to identify the preferential binding modes of these complexes toward DNA and BSA protein. The theoretical observations of all cases were found to be very close to the experimental observations. Among the radical scavenging activity results for all the cases toward DPPH, hydroxyl radical, superoxide, nitric oxide and ferric reducing agents, complex (1) revealed a superior scavenging potency over the other compounds. In the screened antimicrobial reports against 10 different selected pathogenic species, although all the complexes (1-5) exhibited a greater significant inhibitory effect than the free ligand, complexes 4 and 5 achieved the best potency over standard drugs. The observed percentage of growth inhibition for all the compounds against the A549, HepG2, MCF-7 and NHDF cell lines suggested that complex 1 had enhanced growth-inhibitory potency over the other compounds and slightly affected normal cells as compared to the standard drug cisplatin, which may lead to its investigation as a promising anticancer agent in future research.
构建了基于吗啉的生物敏感且具有生物活性的过渡金属(II)配合物(1 - 5),其结构为[M(L) AcO]·H₂O {其中M = Cu (1) ,L = 1;Co (2),Mn (3),Ni (4),L = 4 且 Zn (5) ,L = 2},这些配合物由 2 -(-(2 - 吗啉乙基亚氨基)甲基)- 4 - 溴苯酚配体(HL)合成,并通过各种分析和光谱技术进行结构表征,结果表明中心金属离子周围具有平面正方形和四面体几何结构,且含有晶格水分子。凝胶电泳结果显示,与其他配合物相比,配合物 1 和 5 在氧化剂(H₂O₂)存在下具有更强的 DNA 切割功效。通过光谱电化学和流体动力学技术测定,所有化合物的 DNA 结合结果顺序为 3.36 (1) > 3.06 (2) > 2.73 (4) > 2.61 (5) > 1.84 (3) > 1.00 (HL) × 10⁻⁶ M。所获得的牛血清白蛋白(BSA)蛋白结合常数(K)结果呈现以下顺序 2.38 (1) > 2.21 (2) > 2.18 (5) > 1.76 (4) > 1.40 (3) > 1.26 (HL) × 10⁻⁶ M。此外,生物热力学参数(Ka、Kb、ΔG°和ΔH°)以及结合结果表明,所有配合物(1 - 5)都能以自发方式通过插入作用与 DNA 结合。采用密度泛函理论计算来优化配体(HL)及其配合物(1 - 5)的结构,以深入了解它们的电子结构。进行分子对接分析以确定这些配合物与 DNA 和 BSA 蛋白的优先结合模式。发现所有情况的理论观察结果与实验观察结果非常接近。在所有情况下对 DPPH、羟基自由基、超氧阴离子、一氧化氮和铁还原剂的自由基清除活性结果中,配合物(1)显示出比其他化合物更强的清除能力。在针对 10 种不同选定病原菌的抗菌筛选报告中,尽管所有配合物(1 - 5)均表现出比游离配体更强的显著抑制作用,但配合物 4 和 5 相对于标准药物具有最佳的抗菌效力。观察到所有化合物对 A549、HepG2、MCF - 7 和 NHDF 细胞系的生长抑制百分比表明,与标准药物顺铂相比,配合物 1 具有比其他化合物更强的生长抑制效力,且对正常细胞的影响较小,这可能使其在未来研究中成为一种有前景的抗癌药物。
