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  • PARG-deficient tumor cells have an increased dependence on EXO1/FEN1-mediated DNA repair.

PARG-deficient tumor cells have an increased dependence on EXO1/FEN1-mediated DNA repair.

The EMBO journal (2024-02-16)
Christina Andronikou, Kamila Burdova, Diego Dibitetto, Cor Lieftink, Elke Malzer, Hendrik J Kuiken, Ewa Gogola, Arnab Ray Chaudhuri, Roderick L Beijersbergen, Hana Hanzlikova, Jos Jonkers, Sven Rottenberg
ABSTRACT

Targeting poly(ADP-ribose) glycohydrolase (PARG) is currently explored as a therapeutic approach to treat various cancer types, but we have a poor understanding of the specific genetic vulnerabilities that would make cancer cells susceptible to such a tailored therapy. Moreover, the identification of such vulnerabilities is of interest for targeting BRCA2;p53-deficient tumors that have acquired resistance to poly(ADP-ribose) polymerase inhibitors (PARPi) through loss of PARG expression. Here, by performing whole-genome CRISPR/Cas9 drop-out screens, we identify various genes involved in DNA repair to be essential for the survival of PARG;BRCA2;p53-deficient cells. In particular, our findings reveal EXO1 and FEN1 as major synthetic lethal interactors of PARG loss. We provide evidence for compromised replication fork progression, DNA single-strand break repair, and Okazaki fragment processing in PARG;BRCA2;p53-deficient cells, alterations that exacerbate the effects of EXO1/FEN1 inhibition and become lethal in this context. Since this sensitivity is dependent on BRCA2 defects, we propose to target EXO1/FEN1 in PARPi-resistant tumors that have lost PARG activity. Moreover, EXO1/FEN1 targeting may be a useful strategy for enhancing the effect of PARG inhibitors in homologous recombination-deficient tumors.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-Poly ADP-ribose Antibody, clone 10H, clone 10H, from mouse