cis-Tetrachlorido-bis(indazole)osmium(iv) and its osmium(iii) analogues: paving the way towards the cis-isomer of the ruthenium anticancer drugs KP1019 and/or NKP1339

cis-Tetrachlorido-bis(indazole)osmium(iv) and its osmium(iii) analogues: paving the way towards the cis-isomer of the ruthenium anticancer drugs KP1019 and/or NKP1339

The relationship between cis-trans isomerism and anticancer activity has been mainly addressed for square-planar metal complexes, in particular, for platinum(ii), e.g., cis- and trans-[PtCl (NH ) ], and a number of related compounds, of which, however, only cis-counterparts are in clinical use today...

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Published in:Dalton transactions : an international journal of inorganic chemistry Vol. 46; no. 35; p. 11925
Main Authors: Büchel, Gabriel E, Kossatz, Susanne, Sadique, Ahmad, Rapta, Peter, Zalibera, Michal, Bucinsky, Lukas, Komorovsky, Stanislav, Telser, Joshua, Eppinger, Jörg, Reiner, Thomas, Arion, Vladimir B
Format: Journal Article
Language:English
Published: England 12-09-2017
Subjects:
Antineoplastic Agents - chemistry
Antineoplastic Agents - pharmacology
Apoptosis - drug effects
Cell Line, Tumor
Cell Survival - drug effects
Coordination Complexes - chemical synthesis
Coordination Complexes - chemistry
Coordination Complexes - pharmacology
Crystallography, X-Ray
Electron Spin Resonance Spectroscopy
HEK293 Cells
HT29 Cells
Humans
Indazoles - chemistry
Indazoles - pharmacology
Isomerism
Molecular Conformation
Organometallic Compounds - chemistry
Organometallic Compounds - pharmacology
Osmium - chemistry
Quantum Theory
Ruthenium - chemistry
Ruthenium Compounds
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Summary:The relationship between cis-trans isomerism and anticancer activity has been mainly addressed for square-planar metal complexes, in particular, for platinum(ii), e.g., cis- and trans-[PtCl (NH ) ], and a number of related compounds, of which, however, only cis-counterparts are in clinical use today. For octahedral metal complexes, this effect of geometrical isomerism on anticancer activity has not been investigated systematically, mainly because the relevant isomers are still unavailable. An example of such an octahedral complex is trans-[RuCl (Hind) ] , which is in clinical trials now as its indazolium (KP1019) or sodium salt (NKP1339), but the corresponding cis-isomers remain inaccessible. We report the synthesis of Na[cis-Os Cl (κN2-1H-ind) ]·(Na[1]) suggesting a route to the cis-isomer of NKP1339. The procedure involves heating (H ind)[Os Cl (κN1-2H-ind)] in a high boiling point organic solvent resulting in an Anderson rearrangement with the formation of cis-[Os Cl (κN2-1H-ind) ] ([1]) in high yield. The transformation is accompanied by an indazole coordination mode switch from κN1 to κN2 and stabilization of the 1H-indazole tautomer. Fully reversible spectroelectrochemical reduction of [1] in acetonitrile at 0.46 V vs. NHE is accompanied by a change in electronic absorption bands indicating the formation of cis-[Os Cl (κN2-1H-ind) ] ([1] ). Chemical reduction of [1] in methanol with NaBH followed by addition of nBu NCl afforded the osmium(iii) complex nBu N[cis-Os Cl (κN2-1H-ind) ] (nBu N[1]). A metathesis reaction of nBu N[1] with an ion exchange resin led to the isolation of the water-soluble salt Na[1]. The X-ray diffraction crystal structure of [1]·Me CO was determined and compared with that of trans-[Os Cl (κN2-1H-ind) ]·2Me SO (2·2Me SO), also prepared in this work. EPR spectroscopy was performed on the Os complexes and the results were analyzed by ligand-field and quantum chemical theories. We furthermore assayed effects of [1] and Na[1] on cell viability and proliferation in comparison with trans-[Os Cl (κN1-2H-ind) ] [3] and cisplatin and found a strong reduction of cell viability at concentrations between 30 and 300 μM in different cancer cell lines (HT29, H446, 4T1 and HEK293). HT-29 cells are less sensitive to cisplatin than 4T1 cells, but more sensitive to [1] and Na[1], as shown by decreased proliferation and viability as well as an increased late apoptotic/necrotic cell population.
ISSN:1477-9234
DOI:10.1039/c7dt02194a