High Copper Complex Stability and Slow Reduction Kinetics as Key Parameters for Improved Activity, Paraptosis Induction, and Impact on Drug-Resistant Cells of Anticancer Thiosemicarbazones

Hager, Sonja; Pape, Veronika F.S.; Pósa, Vivien; Montsch, Bianca; Uhlik, Lukas; Tóth, Szilárd; Jabronka, Nikolett; Keppler, Bernhard K.; Kowol, Christian R.; Enyedy, Éva A.; Heffeter, Petra

doi:10.1089/ars.2019.7854

Cited by 34 publications

(105 citation statements)

References 61 publications

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“…On the contrary, significant spectral changes were detected with GSH as Figure 7a shows for complex 2 (and Supplementary Materials Figure S21a for 1). The first recorded spectrum after mixing the reactants showed several shifts of the absorbance bands most likely due to the formation of a ternary complex with GSH as reported for other TSC complexes [64,66,67]. Then a significant decrease of the absorbance was observed at λ max = 376 nm, while the absorbance value of the free proligand (λ max~3 29 nm) was increased, presumably due to decomposition of the generated copper(I) complex, which is unstable.…”

Section: Solution Stability Of Copper(ii) Complexes and Their Reductimentioning

confidence: 52%

“…By looking at the structure of the two proligands (STSC and [H 2 L R ]Cl) a similar binding pattern is assumed in case of the complexes 1-4 studied in this work, even though different solution stability can be envisioned due to the presence of the [-NMe 3 ] + moiety, different N-terminal substitution and the type of solvent. DMSO is able to coordinate to copper(II) weakly, therefore, somewhat higher copper(II) complex stability is expected in the neat aqueous solution [64].…”

Section: Solution Stability Of Copper(ii) Complexes and Their Reductimentioning

confidence: 99%

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Insight into the Anticancer Activity of Copper(II) 5-Methylenetrimethylammonium-Thiosemicarbazonates and Their Interaction with Organic Cation Transporters

et al. 2020

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A series of four water-soluble salicylaldehyde thiosemicarbazones with a positively charged trimethylammonium moiety ([H2LR]Cl, R = H, Me, Et, Ph) and four copper(II) complexes [Cu(HLR)Cl]Cl (1–4) were synthesised with the aim to study (i) their antiproliferative activity in cancer cells and, (ii) for the first time for thiosemicarbazones, the interaction with membrane transport proteins, specifically organic cation transporters OCT1–3. The compounds were comprehensively characterised by analytical, spectroscopic and X-ray diffraction methods. The highest cytotoxic effect was observed in the neuroblastoma cell line SH-5YSY after 24 h exposure and follows the rank order: 3 > 2 > 4 > cisplatin > 1 >>[H2LR]Cl. The copper(II) complexes showed marked interaction with OCT1–3, comparable to that of well-known OCT inhibitors (decynium 22, prazosin and corticosterone) in the cell-based radiotracer uptake assays. The work paves the way for the development of more potent and selective anticancer drugs and/or OCT inhibitors.

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Section: Solution Stability Of Copper(ii) Complexes and Their Reductimentioning

confidence: 52%

Section: Solution Stability Of Copper(ii) Complexes and Their Reductimentioning

confidence: 99%

Insight into the Anticancer Activity of Copper(II) 5-Methylenetrimethylammonium-Thiosemicarbazonates and Their Interaction with Organic Cation Transporters

et al. 2020

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“…Notably, copper(II) complexes of α- N -pyridyl thiosemicarbazones bearing an N,N,S – coordination mode are generally highly stable at physiological pH even at fairly low concentrations. 4 , 6 …”

Section: Resultsmentioning

confidence: 99%

“… 3 , 4 Also, the interaction with cellular copper ions has been associated with their mechanism of action, at least for a part of the known anticancer thiosemicarbazones. 5 , 6 …”

Section: Introductionmentioning

confidence: 99%

“… 8 , 9 Noteworthy, this thiosemicarbazone subclass is characterized by a higher copper(II) complex stability and additional modes of action such as induction of paraptotic cell death. 6 , 10 One of these thiosemicarbazones, namely, di-2-pyridylketone 4-cyclohexyl-4-methyl-3-thiosemicarbazone (DpC; Scheme 1 ), entered a phase I clinical trial in 2016 (study number NCT02688101). 11 , 12 At the same time, another highly active but structurally more divergent thiosemicarbazone, 4-(pyridine-2-yl)- N -([(8 E )-5,6,7,8-tetrahydroquinolin-8-ylidene]amino)piperazine-1-carbothioamide, also known as COTI-2 ( Scheme 1 ), was developed by Cotinga Pharmaceuticals as a third-generation representative.…”

Section: Introductionmentioning

confidence: 99%

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Cancer Cell Resistance Against the Clinically Investigated Thiosemicarbazone COTI-2 Is Based on Formation of Intracellular Copper Complex Glutathione Adducts and ABCC1-Mediated Efflux

et al. 2020

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COTI-2 is a novel anticancer thiosemicarbazone in phase I clinical trial. However, the effects of metal complexation (a main characteristic of thiosemicarbazones) and acquired resistance mechanisms are widely unknown. Therefore, in this study, the copper and iron complexes of COTI-2 were synthesized and evaluated for their anticancer activity and impact on drug resistance in comparison to metal-free thiosemicarbazones. Investigations using Triapine-resistant SW480/Tria and newly established COTI-2-resistant SW480/Coti cells revealed distinct structure–activity relationships. SW480/Coti cells were found to overexpress ABCC1, and COTI-2 being a substrate for this efflux pump. This was unexpected, as ABCC1 has strong selectivity for glutathione adducts. The recognition by ABCC1 could be explained by the reduction kinetics of a ternary Cu-COTI-2 complex with glutathione. Thus, only thiosemicarbazones forming stable, nonreducible copper(II)-glutathione adducts are recognized and, in turn, effluxed by ABCC1. This reveals a crucial connection between copper complex chemistry, glutathione interaction, and the resistance profile of clinically relevant thiosemicarbazones.

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Apoferritin‐Cu(II) Nanoparticles Induce Oncosis in Multidrug‐Resistant Colon Cancer Cells

Xiong,

Lin,

Kou

et al. 2023

Adv Healthcare Materials

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Multidrug resistance (MDR) limits the application of clinical chemotherapeutic drugs. There is an urgent need to develop non‐apoptosis‐inducing agents that circumvent drug resistance. Herein, four therapeutic copper complexes encapsulated in natural nanocarrier apoferritin (AFt‐Cu1‐4) are reported. Although they are isomers, they exhibit significantly different organelle distributions and cell death mechanisms. AFt‐Cu1 and AFt‐Cu3 accumulate in the cytoplasm and induce autophagy, whereas AFt‐Cu2 and AFt‐Cu4 can quickly enter the nucleus and trigger oncosis. Excitedly, AFt‐Cu2 and AFt‐Cu4 show a strong tumor growth inhibition effect in mice models bearing multidrug‐resistant colon xenograft via intravenous injection. To the best of the authors’ knowledge, this is the first example of metal‐based nucleus‐targeted oncosis inducers overcoming multidrug resistance in vivo.

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High Copper Complex Stability and Slow Reduction Kinetics as Key Parameters for Improved Activity, Paraptosis Induction, and Impact on Drug-Resistant Cells of Anticancer Thiosemicarbazones

Cited by 34 publications

References 61 publications

Insight into the Anticancer Activity of Copper(II) 5-Methylenetrimethylammonium-Thiosemicarbazonates and Their Interaction with Organic Cation Transporters

Insight into the Anticancer Activity of Copper(II) 5-Methylenetrimethylammonium-Thiosemicarbazonates and Their Interaction with Organic Cation Transporters

Cancer Cell Resistance Against the Clinically Investigated Thiosemicarbazone COTI-2 Is Based on Formation of Intracellular Copper Complex Glutathione Adducts and ABCC1-Mediated Efflux

Apoferritin‐Cu(II) Nanoparticles Induce Oncosis in Multidrug‐Resistant Colon Cancer Cells

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