Anna K. Bytzek scite author profile

Oxaliplatin is successfully used in systemic cancer therapy. However, resistance development and severe adverse effects are limiting factors for curative cancer treatment with oxaliplatin. The purpose of this study was to comparatively investigate in vitro and in vivo anticancer properties as well as the adverse effects of two methyl-substituted enantiomerically pure oxaliplatin analogs [[(1R,2R,4R)-4-methyl-1,2-cyclohexanediamine] oxalatoplatinum(II) (KP1537), and [(1R,2R,4S)-4-methyl-1,2-cyclohexanediamine]oxalatoplatinum(II) (KP1691)] and to evaluate the impact of stereoisomerism. Although the novel oxaliplatin analogs demonstrated in multiple aspects activities comparable with those of the parental compound, several key differences were discovered. The analogs were characterized by reduced vulnerability to resistance mechanisms such as p53 mutations, reduced dependence on immunogenic cell death induction, and distinctly attenuated adverse effects including weight loss and cold hyperalgesia. Stereoisomerism of the substituted methyl group had a complex and in some aspects even contradictory impact on drug accumulation and anticancer activity both in vitro and in vivo. To summarize, methyl-substituted oxaliplatin analogs harbor improved therapeutic characteristics including significantly reduced adverse effects. Hence, they might be promising metal-based anticancer drug candidates for further (pre)clinical evaluation.

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Physicochemical Studies and Anticancer Potency of Ruthenium η⁶-p-Cymene Complexes Containing Antibacterial Quinolones

Kljun

et al. 2011

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With the aim of exploring the anticancer properties of organometallic compounds with bioactive ligands, Ru(arene) compounds of the antibacterial quinolones nalidixic acid (2) and cinoxacin (3) were synthesized, and their physicochemical properties were compared to those of chlorido(η6-p-cymene)(ofloxacinato-κ2O,O)ruthenium(II) (1). All compounds undergo a rapid ligand exchange reaction from chlorido to aqua species. 2 and 3 are significantly more stable than 1 and undergo minor conversion to an unreactive [(cym)Ru(μ-OH)3Ru(cym)]+ species (cym = η6-p-cymene). In the presence of human serum albumin 1−3 form adducts with this transport protein within 20 min of incubation. With guanosine 5′-monophosphate (5′-GMP; as a simple model for reactions with DNA) very rapid reactions yielding adducts via its N7 atom were observed, illustrating that DNA is a possible target for this compound class. A moderate capacity of inhibiting tumor cell proliferation in vitro was observed for 1 in CH1 ovarian cancer cells, whereas 2 and 3 turned out to be inactive.

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Characterization of the binding sites of the anticancer ruthenium(III) complexes KP1019 and KP1339 on human serum albumin via competition studies

et al. 2012

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Indazolium trans-[tetrachloridobis(1H-indazole)ruthenate(III)] (KP1019) and its Na + analogue (KP1339) are two of the most prominent non-platinum antitumor metal complexes currently undergoing clinical trials. After intravenous administration, they are known to bind to human serum albumin (HSA) in a non-covalent manner. In order to elucidate their HSA binding sites, displacement reactions with the established site markers warfarin and dansylglycine as well as bilirubin were monitored by spectrofluorimetry, ultrafiltration−UV-vis spectrophotometry and/or capillary zone electrophoresis. Conditional stability constants for the binding of KP1019 and KP1339 to sites I and II of HSA were determined, indicating that both Ru(III) compounds bind into both sites with moderately to strong affinity (logK 1 ' = 5.3-5.8). No preference for either binding site was found and similar results were obtained for both metal complexes, demonstrating low influence of the counter ion on the binding event.

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LC– and CZE–ICP-MS approaches for the in vivo analysis of the anticancer drug candidate sodium trans-[tetrachloridobis(1H-indazole)ruthenate(iii)] (KP1339) in mouse plasma

et al. 2011

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Ruthenium-indazole complexes are promising anticancer agents undergoing clinical trials. KP1339 is administered intravenously (i.v.), where serum proteins are the first available biological binding partners. In order to gain a better insight into the mode of action, mice were treated with different doses of KP1339 i.v. and sacrificed at different time points. The blood plasma was isolated from blood samples and analyzed by capillary zone electrophoresis (CZE) and size exclusion/anion exchange chromatography (SEC-IC) both combined on-line to inductively coupled plasma-mass spectrometry (ICP-MS). The performance of the analytical methodology was compared and the interaction of KP1339 with mouse plasma proteins characterized in vivo. Interestingly, the samples of the mice treated with 50 mg kg(-1) and terminated after 24 h showed a ca. 4-fold lowered albumin content and increased ruthenation of albumin aggregates as compared to the untreated control group and the 40 mg kg(-1) group. The majority of Ru was bound to albumin and the stoichiometry of the KP1339 protein binding was determined through the molar Ru/S ratio. In general, good agreement of the data obtained with both techniques was achieved and the SEC-IC method was found to be more sensitive as compared to the CZE-ICP-MS approach, whereas the latter benefits from the shorter analysis time and lower sample consumption.

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Anna K. Bytzek

Tuning of lipophilicity and cytotoxic potency by structural variation of anticancer platinum(IV) complexes

Anticancer Activity of Methyl-Substituted Oxaliplatin Analogs

Physicochemical Studies and Anticancer Potency of Ruthenium η⁶-p-Cymene Complexes Containing Antibacterial Quinolones

Characterization of the binding sites of the anticancer ruthenium(III) complexes KP1019 and KP1339 on human serum albumin via competition studies

LC– and CZE–ICP-MS approaches for the in vivo analysis of the anticancer drug candidate sodium trans-[tetrachloridobis(1H-indazole)ruthenate(iii)] (KP1339) in mouse plasma

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Anna K. Bytzek

Tuning of lipophilicity and cytotoxic potency by structural variation of anticancer platinum(IV) complexes

Anticancer Activity of Methyl-Substituted Oxaliplatin Analogs

Physicochemical Studies and Anticancer Potency of Ruthenium η6-p-Cymene Complexes Containing Antibacterial Quinolones

Characterization of the binding sites of the anticancer ruthenium(III) complexes KP1019 and KP1339 on human serum albumin via competition studies

LC– and CZE–ICP-MS approaches for the in vivo analysis of the anticancer drug candidate sodium trans-[tetrachloridobis(1H-indazole)ruthenate(iii)] (KP1339) in mouse plasma

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Physicochemical Studies and Anticancer Potency of Ruthenium η⁶-p-Cymene Complexes Containing Antibacterial Quinolones