PARP3, a new therapeutic target to alter Rictor/mTORC2 signaling and tumor progression in BRCA1-associated cancers.

Fiche publication


Date publication

novembre 2018

Journal

Cell death and differentiation

Auteurs

Membres identifiés du Cancéropôle Est :
Dr DANTZER Françoise, Dr REINA-SAN-MARTIN Bernardo, Dr SCHREIBER Valérie


Tous les auteurs :
Beck C, Rodriguez-Vargas JM, Boehler C, Robert I, Heyer V, Hanini N, Gauthier LR, Tissier A, Schreiber V, Elofsson M, Reina San Martin B, Dantzer F

Résumé

PARP3 has been shown to be a key driver of TGFβ-induced epithelial-to-mesenchymal transition (EMT) and stemness in breast cancer cells, emerging as an attractive therapeutic target. Nevertheless, the therapeutic value of PARP3 inhibition has not yet been assessed. Here we investigated the impact of the absence of PARP3 or its inhibition on the tumorigenicity of BRCA1-proficient versus BRCA1-deficient breast cancer cell lines, focusing on the triple-negative breast cancer subtype (TNBC). We show that PARP3 knockdown exacerbates centrosome amplification and genome instability and reduces survival of BRCA1-deficient TNBC cells. Furthermore, we engineered PARP3 BRCA1-deficient or BRCA1-proficient TNBC cell lines using the CRISPR/nCas9 gene editing technology and demonstrate that the absence of PARP3 selectively suppresses the growth, survival and in vivo tumorigenicity of BRCA1-deficient TNBC cells, mechanistically via effects associated with an altered Rictor/mTORC2 signaling complex resulting from enhanced ubiquitination of Rictor. Accordingly, PARP3 interacts with and ADP-ribosylates GSK3β, a positive regulator of Rictor ubiquitination and degradation. Importantly, these phenotypes were rescued by re-expression of a wild-type PARP3 but not by a catalytic mutant, demonstrating the importance of PARP3's catalytic activity. Accordingly, reduced survival and compromised Rictor/mTORC2 signaling were also observed using a cell-permeable PARP3-specific inhibitor. We conclude that PARP3 and BRCA1 are synthetic lethal and that targeting PARP3's catalytic activity is a promising therapeutic strategy for BRCA1-associated cancers via the Rictor/mTORC2 signaling pathway.

Référence

Cell Death Differ.. 2018 Nov 15;: