Selective Loss of PARG Restores PARylation and Counteracts PARP Inhibitor-Mediated Synthetic Lethality.

Authors :: Gogola E
Duarte AA
de Ruiter JR
Wiegant WW
Schmid JA
de Bruijn R
James DI
Guerrero Llobet S
Vis DJ
Annunziato S
van den Broek B
Barazas M
Kersbergen A
van de Ven M
Tarsounas M
Ogilvie DJ
van Vugt M
Wessels LFA
Bartkova J
Gromova I
Andújar-Sánchez M
Bartek J
Lopes M
van Attikum H
Borst P
Jonkers J
Rottenberg S
Source :: Cancer cell [Cancer Cell] 2018 Jun 11; Vol. 33 (6), pp. 1078-1093.e12.
Publication Year :: 2018
Abstract: Inhibitors of poly(ADP-ribose) (PAR) polymerase (PARPi) have recently entered the clinic for the treatment of homologous recombination (HR)-deficient cancers. Despite the success of this approach, drug resistance is a clinical hurdle, and we poorly understand how cancer cells escape the deadly effects of PARPi without restoring the HR pathway. By combining genetic screens with multi-omics analysis of matched PARPi-sensitive and -resistant Brca2-mutated mouse mammary tumors, we identified loss of PAR glycohydrolase (PARG) as a major resistance mechanism. We also found the presence of PARG-negative clones in a subset of human serous ovarian and triple-negative breast cancers. PARG depletion restores PAR formation and partially rescues PARP1 signaling. Importantly, PARG inactivation exposes vulnerabilities that can be exploited therapeutically.<br /> (Copyright © 2018 Elsevier Inc. All rights reserved.)

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