posted on 2024-08-13, 07:40authored byHussein Chehade, Radhika Gogoi, Nicholas K. Adzibolosu, Sandra Galoforo, Rouba-Ali Fehmi, Mira Kheil, Alexandra Fox, Seongho Kim, Ramandeep Rattan, Zhanjun Hou, Robert T. Morris, Larry H. Matherly, Gil Mor, Ayesha B. Alvero
(A) DEGs in BRCA2null vs BRCA1null 4T1 mouse breast cancer cell line reported as log fold-change (logFC); red bars are upregulated and blue bars are downregulated; (B) Perturbation analysis of Wnt signaling pathway comparing BRCA2null vs BRCA1null 4T1 mouse breast cancer cell line; red genes are predicted to be upregulated and blue genes are predicted to be downregulated.
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ARTICLE ABSTRACT
The association of BRCA1 and BRCA2 mutations with increased risk for developing epithelial ovarian cancer is well established. However, the observed clinical differences, particularly the improved therapy response and patient survival in BRCA2-mutant patients, are unexplained. Our objective is to identify molecular pathways that are differentially regulated upon the loss of BRCA1 and BRCA2 functions in ovarian cancer. Transcriptomic and pathway analyses comparing BRCA1-mutant, BRCA2-mutant, and homologous recombination wild-type ovarian tumors showed differential regulation of the Wnt/β-catenin pathway. Using Wnt3A-treated BRCA1/2 wild-type, BRCA1-null, and BRCA2-null mouse ovarian cancer cells, we observed preferential activation of canonical Wnt/β-catenin signaling in BRCA1/2 wild-type ovarian cancer cells, whereas noncanonical Wnt/β-catenin signaling was preferentially activated in the BRCA1-null ovarian cancer cells. Interestingly, BRCA2-null mouse ovarian cancer cells demonstrated a unique response to Wnt3A with the preferential upregulation of the Wnt signaling inhibitor Axin2. In addition, decreased phosphorylation and enhanced stability of β-catenin were observed in BRCA2-null mouse ovarian cancer cells, which correlated with increased inhibitory phosphorylation on GSK3β. These findings open venues for the translation of these molecular observations into modalities that can impact patient survival.
We show that BRCA1 and BRCA2 mutation statuses differentially impact the regulation of the Wnt/β-catenin signaling pathway, a major effector of cancer initiation and progression. Our findings provide a better understanding of molecular mechanisms that promote the known differential clinical profile in these patient populations.