Synthesis, characterization, biomolecular interactions, molecular docking, and in vitro and in vivo anticancer activities of novel ruthenium(III) Schiff base complexes

IF 3.8 2区 化学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Inorganic Biochemistry Pub Date : 2023-11-01 DOI:10.1016/j.jinorgbio.2023.112363
Milica Međedović , Aleksandar Mijatović , Rada Baošić , Dejan Lazić , Žiko Milanović , Zoran Marković , Jelena Milovanović , Dragana Arsenijević , Bojana Stojanović , Miloš Arsenijević , Marija Milovanović , Biljana Petrović , Ana Rilak Simović
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引用次数: 1

Abstract

In order to discover new anticancer drugs, novel ruthenium(III) complexes [Ru(L)Cl(H2O)], where L is tetradentate Schiff base bis(acetylacetone)ethylendiimine (acacen, 1), bis(benzoylacetone)ethylendiimine (bzacen, 2), (acetylacetone)(benzoylaceton)ethylendiimine (acacbzacen, 3), bis(acetylacetone)propylendiimine (acacpn, 4), bis(benzoylacetone)propylendiimine (bzacpn, 5) or (acetylacetone)(benzoylaceton)propylendiimine (acacbzacpn, 6), were synthesized. The complexes 1 – 6 were characterized by elemental analysis, molar conductometry, and by various spectroscopic techniques, such as UV–Vis, IR, EPR, and ESI-MS. Based on in vitro DNA/BSA experiments, complexes 2 (bzacen) and 5 (bzacpn) with two aromatic rings showed the highest DNA/BSA-activity, suggesting that the presence of the aromatic ring on the tetradentate Schiff base ligand contributes to increased activity. Moreover, these two compounds showed the highest cytotoxic effects toward human, A549 and murine LLC1 lung cancer cells. These complexes altered the ratio of anti- and pro-apoptotic molecules and induced apoptosis of A549 cells. Further, complexes 2 and 5 reduced the percentage of Mcl1 and Bcl2 expressing LLC1 cells, induced their apoptotic death and exerted an antiproliferative effect against LLC1. Finally, complex 5 reduced the volume of mouse primary heterotopic Lewis lung cancer, while complex 2 reduced the incidence and mean number of metastases per lung. Additionally, molecular docking with DNA revealed that the reduced number of aromatic rings or their absence causes lower intercalative properties of the complexes in order: 2 > 5 > 6 > 3 > 4 > 1. It was observed that conventional hydrogen bonds and hydrophobic interactions contribute to the stabilization of the structures of complex-DNA. A molecular docking study with BSA revealed a predominance of 1 – 6 in binding affinity to the active site III, a third D-shaped hydrophobic pocket within subdomain IB.

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新型钌(III)席夫碱配合物的合成、表征、生物分子相互作用、分子对接以及体内外抗癌活性。
为了发现新的抗癌药物,新的钌(III)配合物[Ru(L)Cl(H2O)],其中L是四齿席夫碱双(乙酰丙酮)乙烯二亚胺(acacen,1)、双(苯甲酰基丙酮)烯二亚胺(bzacen,2)、,合成了双(苯甲酰基丙酮)丙二亚胺(bzacpn,5)或(乙酰丙酮)(苯甲酰丙酮)丙三亚胺(acacbzacpn)。配合物1-6通过元素分析、摩尔电导法和各种光谱技术(如UV-Vis、IR、EPR和ESI-MS)进行了表征。基于体外DNA/BSA实验,具有两个芳环的配合物2(bzacen)和5(bzacpn)显示出最高的DNA/BSA活性,表明芳环在四齿席夫碱配体上的存在有助于提高活性。此外,这两种化合物对人、A549和小鼠LLC1肺癌癌症细胞显示出最高的细胞毒性作用。这些复合物改变了抗凋亡分子和促凋亡分子的比例,并诱导A549细胞凋亡。此外,复合物2和5降低了表达Mcl1和Bcl2的LLC1细胞的百分比,诱导其凋亡死亡,并对LLC1发挥抗增殖作用。最后,复合物5降低了小鼠原发性异位Lewis肺癌癌症的体积,而复合物2降低了每肺转移的发生率和平均数。此外,与DNA的分子对接表明,芳环数量的减少或它们的缺失导致复合物的嵌入性能降低,顺序为:2>5>6>3>4>1。观察到常规氢键和疏水相互作用有助于复合DNA结构的稳定。与BSA的分子对接研究显示,在与活性位点III的结合亲和力方面,1-6占优势,活性位点III是亚结构域IB内的第三个D形疏水口袋。
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来源期刊
Journal of Inorganic Biochemistry
Journal of Inorganic Biochemistry 生物-生化与分子生物学
CiteScore
7.00
自引率
10.30%
发文量
336
审稿时长
41 days
期刊介绍: The Journal of Inorganic Biochemistry is an established international forum for research in all aspects of Biological Inorganic Chemistry. Original papers of a high scientific level are published in the form of Articles (full length papers), Short Communications, Focused Reviews and Bioinorganic Methods. Topics include: the chemistry, structure and function of metalloenzymes; the interaction of inorganic ions and molecules with proteins and nucleic acids; the synthesis and properties of coordination complexes of biological interest including both structural and functional model systems; the function of metal- containing systems in the regulation of gene expression; the role of metals in medicine; the application of spectroscopic methods to determine the structure of metallobiomolecules; the preparation and characterization of metal-based biomaterials; and related systems. The emphasis of the Journal is on the structure and mechanism of action of metallobiomolecules.
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