The PARP inhibitor talazoparib synergizes with reovirus to induce cancer killing and tumour control in vivo in mouse models.

Reovirus type 3 Dearing (RT3D) is an oncolytic, double-stranded RNA virus. To identify potential RT3D drug-viral sensitizer, here we use a high-throughput screen of therapeutic agents and find a PARP-1 inhibitor, talazoparib, as a top hit. RT3D interacts with retinoic acid-induced gene-1 (RIG-I) and activates PARP-1, with consequent PARylation of components of the extrinsic apoptosis pathway. Pharmacological or genetic inhibition of PARP-1 abrogates this PARylation and enhances extrinsic apoptosis, NF-kB signalling and pro-inflammatory cell death. Interaction between PARP-1 and RIG-I induced by treating RT3D-infected cells with talazoparib activates downstream IFN-β and TNF/TRAIL production to amplify the therapeutic effect through positive feedback. Furthermore, the effect of RT3D-talazoparib combination is phenocopied by non-viral ds-RNA therapy and RIG-I agonism. In vivo, mouse tumour model results show that RT3D/talazoparib combination regimen induces complete control of inoculated tumour as well as protection from subsequent tumour rechallenge with the, with accompanied innate and adaptive immune activation.