Abstract
Poly(ADP-ribose)polymerase (PARP) inhibitors (PARPi) have recently been approved for the treatment of breast and ovarian tumors with defects in homologous recombination repair (HRR). Although it has been demonstrated that PARPi also sensitize HRR competent tumors to cytotoxic chemotherapies or radiotherapy, normal cell toxicity has remained an obstacle to their use in this context. Hypoxia-activated prodrugs (HAPs) provide a means to limit exposure of normal cells to active drug, thus adding a layer of tumor selectivity. We have investigated potential HAPs of model PARPi in which we attach a bioreducible “trigger” to the amide nitrogen, thereby blocking key binding interactions. A representative example showed promise in abrogating PARPi enzymatic activity in a biochemical assay, with a ca. 160-fold higher potency of benzyl phthalazinone 4 than the corresponding model HAP 5, but these N-alkylated compounds did not release the PARPi upon one-electron reduction by radiolysis. Therefore, we extended our investigation to include NU1025, a PARPi that contains a phenol distal to the core binding motif. The resulting 2-nitroimidazolyl ether provided modest abrogation of PARPi activity with a ca. seven-fold decrease in potency, but released the PARPi efficiently upon reduction. This investigation of potential prodrug approaches for PARPi has identified a useful prodrug strategy for future exploration.
Highlights
Poly(ADP-ribose)polymerases (PARP) are a family of enzymes involved in the synthesis of poly(ADP-ribose) (PAR) chains from NAD+
In response to single strand breaks (SSBs) in DNA, PARP-1 binds to DNA and attaches PAR chains to nuclear proteins (PARylation) including itself
Benzyl phthalazinone 4 was prepared from isobenzofuranone 14 via addition of hydrazine hydrate, Benzyl phthalazinone was prepared isobenzofuranone
Summary
Poly(ADP-ribose)polymerases (PARP) are a family of enzymes involved in the synthesis of poly(ADP-ribose) (PAR) chains from NAD+. The PAR chains recruit base excision repair (BER) enzymes to the SSB and lead to dissociation of PARP [1,2,3,4,5] This role in DNA damage repair lead to an early proposal that. Studies [3,4,17,18] Due to this widespread involvement, PARPi can sensitize cells to a variety of DNA have shown that use of PARPi in combination therapies often lead to normal tissue toxicity requiring damaging agents, and combination with cytotoxic chemotherapies or radiotherapy has been approach for treatment of HRR competent [19,20]. Additional interactions are Additional interactions are formed by Tyr907 and Tyr986 forming π-stacking arrangements with formed bound by Tyr907 and Tyr986 inhibitor [40]. forming π-stacking arrangements with bound inhibitor [40]
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