Synergistic targeting and resistance to PARP inhibition in DNA damage repair-deficient pancreatic cancer

Synergistic targeting and resistance to PARP inhibition in DNA damage repair-deficient pancreatic cancer

[Posted 28/Apr/2021]

AUDIENCE: Gastroenterology, Internal Medicine, Oncology

KEY FINDINGS: Analysis of the molecular susceptibilities triggered by ATM deficiency in PDAC allow elaboration of an efficient mutation-specific combinational therapeutic approach that can be also implemented in a genotype-independent manner by ATM inhibition.

BACKGROUND: ATM serine/threonine kinase (ATM) is the most frequently mutated DNA damage response gene, involved in homologous recombination (HR), in pancreatic ductal adenocarcinoma (PDAC). Combinational synergy screening was performed to endeavour a genotype-tailored targeted therapy.

DETAILS: Synergy was found on inhibition of PARP, ATR and DNA-PKcs (PAD) leading to synthetic lethality in ATM-deficient murine and human PDAC. Mechanistically, PAD-induced PARP trapping, replication fork stalling and mitosis defects leading to P53-mediated apoptosis. Most importantly, chemical inhibition of ATM sensitises human PDAC cells toward PAD with long-term tumour control in vivo. Finally, we anticipated and elucidated PARP inhibitor resistance within the ATM-null background via whole exome sequencing. Arising cells were aneuploid, underwent epithelial-mesenchymal-transition and acquired multidrug resistance (MDR) due to upregulation of drug transporters and a bypass within the DNA repair machinery. These functional observations were mirrored in copy number variations affecting a region on chromosome 5 comprising several of the upregulated MDR genes. Using these findings, we ultimately propose alternative strategies to overcome the resistance.

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Source: Gout J., Perkhofer L., Morawe M., et al. (2021). Synergistic targeting and resistance to PARP inhibition in DNA damage repair-deficient pancreatic cancer. Gut. 2021;70(4):743-760. Published: April, 2021. DOI: 10.1136/gutjnl-2019-319970