Browsing by Author "Yildizhan, Yasemin"
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Article Citation Count: 3Anticancer investigation of platinum and copper-based complexes containing quinoxaline ligands(Elsevier, 2022) Kayı, Hakan; Yildizhan, Yasemin; Özalp Yaman, Şeniz; Cetin, Yuksel; Adiguzel, Zelal; Gungor-Topcu, Gamze; Ozalp-Yaman, Seniz; Chemical EngineeringThis research focuses on synthesis and anticancer activity of trans-[(dichloro)bisdipyridlquinoxalino] and [(dichloro)bisdithienylquinoxalino]copper(II)/platinum(II) compounds as prodrug candidates. The binding interaction of these compounds with calf thymus DNA (CT-DNA) and human serum albumin (HSA) of the complexes were assessed with UV titration, thermal decomposition, viscometric, and fluorometric measurements. The nature of the binding of the complexes on DNA were revealed as electrostatic interaction between the cationic metal complexes ion and the negative phosphate groups of CT-DNA upon removal of the counter ion, chloride. In addition, our complexes induced a surface contact through the hydrophobic region of protein. Antitumor activity of the complexes against human glioblastoma A172, LN229, and U87 cell lines and human lung A549, human breast MDA-231, human cervix HeLa, and human prostate PC-3 cell lines were investigated by examining cell viability, oxidative stress, apoptosis, and migration/invasion. Cytotoxicity of the complexes was evaluated by MTT test. The U87 and HeLa cells were investigated as the cancer cells most sensitive to our complexes. The exerted cytotoxic effect of dipyridlquinoxalino and dithienylquinoxalino copper(II)/platinum(II) complexes was attributed to the formation of the reactive oxygen species in vitro. It is clearly demonstrated that trans-[(dichloro)bisdithenylquinoxalino]copper (II) (Cu(dtq)) has the highest DNA degradation potential and anticancer effect among the tested complexes by leading apoptosis. Wound healing and invasion analysis results also supported the anticancer activity of Cu(dtq). (C) 2021 Elsevier B.V. All rights reserved.Article Citation Count: 0Antiproliferative activity of platinum(II) and copper(II) complexes containing novel biquinoxaline ligands(Oxford Univ Press, 2024) Kayı, Hakan; Gercek, Zuhal; Özalp Yaman, Şeniz; Yildizhan, Yasemin; Cetin, Yuksel; Adiguzel, Zelal; Ozalp-Yaman, Seniz; Chemical EngineeringNowadays, cancer represents one of the major causes of death in humans worldwide, which renders the quest for new and improved antineoplastic agents to become an urgent issue in the field of biomedicine and human health. The present research focuses on the synthesis of 2,3,2MODIFIER LETTER PRIME,3MODIFIER LETTER PRIME-tetra(pyridin-2-yl)-6,6MODIFIER LETTER PRIME-biquinoxaline) and (2,3,2MODIFIER LETTER PRIME,3MODIFIER LETTER PRIME-tetra(thiophen-2-yl)-6,6MODIFIER LETTER PRIME-biquinoxaline) containing copper(II) and platinum(II) compounds as prodrug candidates. The binding interaction of these compounds with calf thymus DNA (CT-DNA) and human serum albumin were assessed with UV titration, thermal decomposition, viscometric, and fluorometric methods. The thermodynamical parameters and the temperature-dependent binding constant (KMODIFIER LETTER PRIMEb) values point out to spontaneous interactions between the complexes and CT-DNA via the van der Waals interactions and/or hydrogen bonding, except Cu(ttbq)Cl2 for which electrostatic interaction was proposed. The antitumor activity of the complexes against several human glioblastomata, lung, breast, cervix, and prostate cell lines were investigated by examining cell viability, oxidative stress, apoptosis-terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling, in vitro migration and invasion, in vitro-comet DNA damage, and plasmid DNA interaction assays. The U87 and HeLa cells were investigated as the cancer cells most sensitive to our complexes. The exerted cytotoxic effect of complexes was attributed to the formation of the reactive oxygen species in vitro. It is clearly demonstrated that Cu(ttbq)Cl2, Pt(ttbq)Cl2, and Pt(tpbq)Cl2 have the highest DNA degradation potential and anticancer effect among the tested complexes by leading apoptosis. The wound healing and invasion analysis results also supported the higher anticancer activity of these two compounds. Graphical Abstract Antitumor activity of biqunoxaline complexes.