Design, synthesis and biological activity of novel molecules designed to target PARP and DNA

Abstract

In order to enhance the cytotoxic potential of poly(ADP-ribose) polymerase (PARP) inhibitors in BRCA1 or 2 deficient tumours, we designed a series of molecules containing a 1,2,3-triazene moiety tethered to a PARP targeting scaffold. A cell-based selectivity assay involving a BRCA2-deficient Chinese hamster cell line and its corresponding BRCA2 wild type transfectant, was used to predict the PARP targeting potential of the latter agents. The results showed that adding a DNA damaging function to the PARP inhibitors decreased but did not abrogate the selective targeting of the BRCA2-deficient cells. The DNA damaging moiety augmented the potency in BRCA2 deficient cells by 2-20 fold. The most selective dual PARP-DNA targeting agent 14b was found to possess dual DNA and PARP targeting properties.

Keywords: BRCA mutation; Bis-targeting; DNA damage; PARP inhibitors; Synthetic lethality.