Synthesis, photophysical properties and in vitro evaluation of a chlorambucil conjugated ruthenium(ii) complex for combined chemo-photodynamic therapy against HeLa cells

Abstract

The combination of chemotherapy with photodynamic therapy can lead to improved therapeutic efficiencies and reduced side effects compared to conventional chemotherapy. Chlorambucil (CHL) is a DNA alkylating agent, but problems like drug instability, “off-target” binding and in situ monitoring after administration often limit its clinical application. In this regard, we designed a new heteroleptic Ru(II) complex CHL-RuL, bearing a CHL conjugated pendant, which is desired to serve as an image-guided chemo-photodynamic combined theranostic agent. CHL-RuL shows considerable promise as a photosensitizer for two-photon excitation photodynamic therapy: strong and wide UV-Vis absorption bands centered around 400 nm, strong red emission (∼702 nm) with a long lifetime at the microsecond level, moderate singlet oxygen quantum yield, and significant two-photon absorption cross-section (118 GM). More interestingly, this chemical modification affords CHL-RuL greater cellular uptake and remarkable mitochondria accumulation in HeLa cells. Furthermore, CHL-RuL shows a slight selective cytotoxicity toward carcinoma HeLa cells over normal MRC-5 cells. MTT assay results and two-photon scanning cell imaging demonstrate that CHL-RuL exhibits obvious chemo-photodynamic dual action against HeLa cells.