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Ruthenium- and osmium-arene complexes of 8-substituted indolo[3,2-c]quinolines: Synthesis, X-ray diffraction structures, spectroscopic properties, and antiproliferative activity.

ABSTRACT: Six novel ruthenium(II)- and osmium(II)-arene complexes with indoloquinoline modified ligands containing methyl and halo substituents in position 8 of the molecule backbone have been synthesised and comprehensively characterised by spectroscopic methods (1H, 13C NMR, UV-Vis), ESI mass spectrometry and X-ray crystallography. Binding of indoloquinolines to a metal-arene scaffold makes the products soluble enough in biological media to allow for assaying their antiproliferative activity. The complexes were tested in three human cancer cell lines, namely A549 (non-small cell lung cancer), SW480 (colon carcinoma) and CH1 (ovarian carcinoma), yielding IC50 values in the 10-6-10-7 M concentration range after continuous exposure for 96 h. Compounds with halo substituents in position 8 are more effective cytotoxic agents in vitro than the previously reported species halogenated in position 2 of the indoloquinoline backbone. High antiproliferative activity of both series of substances may be due at least in part to their potential to act as DNA intercalators.

SUBMITTER: Filak LK 

PROVIDER: S-EPMC3587412 | biostudies-literature | 2012 Dec

REPOSITORIES: biostudies-literature

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Ruthenium- and osmium-arene complexes of 8-substituted indolo[3,2-<i>c</i>]quinolines: Synthesis, X-ray diffraction structures, spectroscopic properties, and antiproliferative activity.

Filak Lukas K LK   Göschl Simone S   Hackl Stefanie S   Jakupec Michael A MA   Arion Vladimir B VB  

Inorganica chimica acta 20121201 7

Six novel ruthenium(II)- and osmium(II)-arene complexes with indoloquinoline modified ligands containing methyl and halo substituents in position 8 of the molecule backbone have been synthesised and comprehensively characterised by spectroscopic methods (<sup>1</sup>H, <sup>13</sup>C NMR, UV-Vis), ESI mass spectrometry and X-ray crystallography. Binding of indoloquinolines to a metal-arene scaffold makes the products soluble enough in biological media to allow for assaying their antiproliferativ  ...[more]

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