33634-55-8Relevant articles and documents
In vitro activity, stability, and lipophilicity changes of cisplatin through substitution of different amine ligands
Divsalar, Adeleh,Eslami Moghadam, Mahboube,Mesbah, A. Wahid,Rahiminezhad, Arezo
, (2022/02/09)
In this study, several cisplatin analogs were designed to investigate the antitumor activity and lipophilicity effects in amine change. The amines of the cisplatin molecule were substituted with aliphatic amines in different analogs. The cytotoxicity of analogs against human colon cancer (HCT116) was investigated using MTT assay, and spectroscopic methods were used to determine the DNA binding mode. Cytotoxicity studies revealed cis-dichloro-dimethylamine-platinum has a lower IC50 (48.87?μM) than carboplatin (68.46?μM) and more than cisplatin (21?μM) against human colon cancer cells (HCT116), respectively. DNA denaturation study indicated that the stability of DNA in the presence of these compounds diminished and substitution of propylamine and methylamine groups increased DNA denaturation. Further, the interaction of the desired compounds with DNA proved to be a spontaneous process. Tm analysis also revealed that cisplatin, cis-dichloro-dimethylamine-platinum, and cis-dichloro-dipropylamine-platinum complexes made DNA double helix unstable via covalent bond, while cis-dichloro-dibutylamine-platinum and cis-dichloro-diisobutylamine-platinum stabilized DNA via electrostatic binding to DNA. The results of fluorescence studies showed that the quenching nature of cisplatin and methyl and propyl systems was dynamic, while the static quenching was observed in the presence of cis-dichloro-dibutylamine-platinum and cis-dichloro-diisobutylamine-platinum. The molecular docking simulations and DFT analysis were performed to investigate the binding sites and chemical behavior of cisplatin analogs, respectively. Molecular docking demonstrated that except cis-dichloro-diisobutylamine-platinum, other complexes had higher negative docking energy than cisplatin for interaction with DNA, and methyl and propyl complexes may be good candidates for anticancer drugs. Graphical abstract: Some anticancer Pt(II) complexes as cisplatin analogs were synthesized with aliphatic amines to investigate the lipophilicity effects. In vitro cytotoxicity effects were tested against human colon cancer (HCT116). Moreover, the modes of DNA binding with synthesized compounds were investigated using fluorescence spectra, DFT and molecular docking. [Figure not available: see fulltext.]
Improving of Anticancer Activity and Solubility of Cisplatin by Methylglycine and Methyl Amine Ligands Against Human Breast Adenocarcinoma Cell Line
Shams Abyaneh, Fatemeh Safa,Eslami Moghadam, Mahboube,Divsalar, Adeleh,Ajloo, Davood,Hosaini Sadr, Moyaed
, p. 271 - 291 (2018/03/12)
Methylglycine, also known sarcosine, is dramatically used in drug molecules and its metal complexes can interact to DNA and also do cleavage. Hence, to study the influence of methylglycine ligand on biological behavior of metal complexes, two water-solubl
Reactivity and biological properties of a series of cytotoxic PtI 2(amine)2 complexes, either cis or trans configured
Messori, Luigi,Cubo, Leticia,Gabbiani, Chiara,Alvarez-Valdes, Amparo,Michelucci, Elena,Pieraccini, Giuseppe,Rios-Luci, Carla,Leon, Leticia G.,Padron, Jose M.,Navarro-Ranninger, Carmen,Casini, Angela,Quiroga, Adoracion G.
, p. 1717 - 1726 (2012/03/22)
Six diiodido-diamine platinum(II) complexes, either cis or trans configured, were prepared, differing only in the nature of the amine ligand (isopropylamine, dimethylamine, or methylamine), and their antiproliferative properties were evaluated against a panel of human tumor cell lines. Both series of complexes manifested pronounced cytotoxic effects, with the trans isomers being, generally, more effective than their cis counterparts. Cell cycle analysis revealed different modes of action for these new Pt(II) complexes with respect to cisplatin. The reactivity of these platinum compounds with a number of biomolecules, including cytochrome c, two sulfur containing modified amino acids, 9-ethylguanine, and a single strand oligonucleotide, was analyzed in depth by mass spectrometry and NMR spectroscopy. Interestingly, significant differences in the reactivity of the investigated compounds toward the various model biomolecules were observed: in particular we observed that trans complexes preferentially release their iodide ligands upon biomolecule binding, while the cis isomers may release the amine ligands with retention of iodides. Such differences in reactivity may have important mechanistic implications and a relevant impact on the respective pharmacological profiles.