An optical ratiometric approach using enantiopure luminescent metal complexes indicates changes in the average quadruplex DNA content as primary cells undergo multiple divisions

Abstract

The three stereoisomers of a previously reported dinuclear ruthenium(II) complex have been quantitatively separated using cation-exchange chromatography and the individual crystal structures of the racemic pair are reported. Cell-based studies on the three stereoisomers disclosed differences in the rate of uptake of the two chiral forms of the rac diastereoisomer with the ΛΛ-enantiomer being taken up noticeably more rapidly than the ΔΔ-form. Cell viability studies reveal that the three cations show identical cytotoxicity over 24 hours, but over more extended exposure periods, the meso-ΔΛ stereoisomer becomes slightly less active. More significantly, microscopy studies revealed that although both isomers display a near infra-red “light-switch” effect associated with binding to duplex DNA on binding to chromatin in live MCF7 and L5178-R cells, only the ΛΛ enantiomer displays a distinctive, blue-shifted component associated with binding to quadruplex DNA. An analysis of the ratio of “quadruplex emission” compared to “duplex emission” for the ΛΛ-enantiomer indicated that there was a decrease in the average quadruplex DNA content within live primary cells as they undergo multiple cell divisions.