In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis

Celina Støving Dam; Sergio Alejo Perez  Henarejos; Theodosia Tsolakou; Christian Alexander Segato; Bente Gammelgaard; Gorakh S.  Yellol; José  Ruiz; Ian Henry Lambert; Stefan Stürup

doi:10.1039/c5mt00056d

In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis

Celina Støving Dam, Sergio Alejo Perez Henarejos, Theodosia Tsolakou, Christian Alexander Segato, Bente Gammelgaard, Gorakh S. Yellol, José Ruiz, Ian Henry Lambert, Stefan Stürup

Cell Biology and Physiology

8 Citations (Scopus)

Abstract

In the present work a novel C,N-cyclometalated benzimidazole Ru(ii) arene complex (GY34) was characterized by applying an alternative, diverse approach considering both chemical and biological aspects. RP-HPLC-ICP-MS and RP-HPLC-ESI-MS analysis proved that GY34 in both RPMI-1640 cell medium and ammonium acetate buffer was transformed into several subspecies and the importance of evaluating and controlling analyte stability throughout experiments was demonstrated. Applying a novel cell fractionation protocol GY34 was found to target cell nuclei and mitochondria in Ehrlich Lettré Ascites (ELA) cells, with the intracellular distribution depending on GY34 concentration in the cell medium during incubation. In ELA cells 96 ± 0.2% of cytosolic GY34 was bound to high-molecular species. Furthermore, using the tracer technique GY34 was found to reduce uptake and increase release of the organic osmolyte taurine in ELA cells, with innate resistance to Cisplatin and in A2780 human ovarian cancer cells, with acquired resistance to Cisplatin. Importantly, FACS analysis revealed that GY34 induced apoptosis in ELA cells. The present data suggest the potential of GY34 in overcoming Cisplatin resistance. The methodology applied can be used as a general protocol and an additional tool in the initial evaluation of novel metal-based drugs.

Original language	English
Journal	Metallomics
Issue number	5
Pages (from-to)	885-895
Number of pages	11
ISSN	1756-5901
DOIs	https://doi.org/10.1039/c5mt00056d
Publication status	Published - 1 May 2015

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Dam, C. S., Henarejos, S. A. P., Tsolakou, T., Segato, C. A., Gammelgaard, B., Yellol, G. S., Ruiz, J., Lambert, I. H., & Stürup, S. (2015). In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis. Metallomics, (5), 885-895. https://doi.org/10.1039/c5mt00056d

In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex : stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis. / Dam, Celina Støving; Henarejos, Sergio Alejo Perez ; Tsolakou, Theodosia et al.

In: Metallomics, No. 5, 01.05.2015, p. 885-895.

Research output: Contribution to journal › Journal article › Research › peer-review

Dam, CS, Henarejos, SAP, Tsolakou, T, Segato, CA, Gammelgaard, B, Yellol, GS, Ruiz, J, Lambert, IH & Stürup, S 2015, 'In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis', Metallomics, no. 5, pp. 885-895. https://doi.org/10.1039/c5mt00056d

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title = "In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis",

abstract = "In the present work a novel C,N-cyclometalated benzimidazole Ru(ii) arene complex (GY34) was characterized by applying an alternative, diverse approach considering both chemical and biological aspects. RP-HPLC-ICP-MS and RP-HPLC-ESI-MS analysis proved that GY34 in both RPMI-1640 cell medium and ammonium acetate buffer was transformed into several subspecies and the importance of evaluating and controlling analyte stability throughout experiments was demonstrated. Applying a novel cell fractionation protocol GY34 was found to target cell nuclei and mitochondria in Ehrlich Lettr{\'e} Ascites (ELA) cells, with the intracellular distribution depending on GY34 concentration in the cell medium during incubation. In ELA cells 96 ± 0.2% of cytosolic GY34 was bound to high-molecular species. Furthermore, using the tracer technique GY34 was found to reduce uptake and increase release of the organic osmolyte taurine in ELA cells, with innate resistance to Cisplatin and in A2780 human ovarian cancer cells, with acquired resistance to Cisplatin. Importantly, FACS analysis revealed that GY34 induced apoptosis in ELA cells. The present data suggest the potential of GY34 in overcoming Cisplatin resistance. The methodology applied can be used as a general protocol and an additional tool in the initial evaluation of novel metal-based drugs.",

author = "Dam, {Celina St{\o}ving} and Henarejos, {Sergio Alejo Perez} and Theodosia Tsolakou and Segato, {Christian Alexander} and Bente Gammelgaard and Yellol, {Gorakh S.} and Jos{\'e} Ruiz and Lambert, {Ian Henry} and Stefan St{\"u}rup",

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T2 - stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis

AU - Dam, Celina Støving

AU - Henarejos, Sergio Alejo Perez

AU - Tsolakou, Theodosia

AU - Segato, Christian Alexander

AU - Gammelgaard, Bente

AU - Yellol, Gorakh S.

AU - Ruiz, José

AU - Lambert, Ian Henry

AU - Stürup, Stefan

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AB - In the present work a novel C,N-cyclometalated benzimidazole Ru(ii) arene complex (GY34) was characterized by applying an alternative, diverse approach considering both chemical and biological aspects. RP-HPLC-ICP-MS and RP-HPLC-ESI-MS analysis proved that GY34 in both RPMI-1640 cell medium and ammonium acetate buffer was transformed into several subspecies and the importance of evaluating and controlling analyte stability throughout experiments was demonstrated. Applying a novel cell fractionation protocol GY34 was found to target cell nuclei and mitochondria in Ehrlich Lettré Ascites (ELA) cells, with the intracellular distribution depending on GY34 concentration in the cell medium during incubation. In ELA cells 96 ± 0.2% of cytosolic GY34 was bound to high-molecular species. Furthermore, using the tracer technique GY34 was found to reduce uptake and increase release of the organic osmolyte taurine in ELA cells, with innate resistance to Cisplatin and in A2780 human ovarian cancer cells, with acquired resistance to Cisplatin. Importantly, FACS analysis revealed that GY34 induced apoptosis in ELA cells. The present data suggest the potential of GY34 in overcoming Cisplatin resistance. The methodology applied can be used as a general protocol and an additional tool in the initial evaluation of novel metal-based drugs.

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In vitro characterization of a novel C,N-cyclometalated benzimidazole Ru(II) complex: stability, intracellular distribution and binding, effects on organic osmolyte homeostasis and induction of apoptosis

Abstract

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