Abstract 5041: Inhibition of RUNX-CBFβ binding reduces RSPO3 expression and EMT features in breast cancer cells

FELCHER, CARLA M.; TOCCI, JOHANNA M.; GARCÍA SOLÁ, MARTÍN E.; BUSHWELLER, JOHN H.; CASTILLA, LUCIO H.; KORDON, EDITH C.

San Diego

Congreso; AACR Annual Meeting 2020; 2020

American Association for Cancer Research

We have recently identified R-spondin3 (RSPO3) as a novel key modulator of breast cancer development that may become a potential target for treatment of the basal subtype, which lacks efficient therapeutic options to date. RSPO3 is expressed in the basal stem cell-enriched compartment of mouse mammary glands whereas it is absent in the mature luminal cells. RSPO3 knockdown in mouse mammary tumor cells reduces canonical Wnt signaling pathway, epithelial-to-mesenchymal transition (EMT)-like features, migration capacity, and tumor formation in vivo. To evaluate the relevance of RSPO3 in human breast cancer, we analyzed samples from 75 patients with ductal infiltrating breast carcinomas, where we found a high prevalence of positive immunoreactivity for RSPO3 (70%). Expression data of The Cancer Genome Atlas Network from 1985 human breast carcinoma samples showed that RSPO3 is primarily expressed in Claudin-low breast cancer subtype, which is characterized for having stem cells features. In culture assays revealed that knockdown of RSPO3 expression reduced SOX2 expression and impaired mammary tumor cell ability to form mammospheres. Previous reports suggested the potential involvement of RUNX1-CBFβ on RSPO3 transcription in mammary tumor cells. Therefore, we evaluated if pharmacologic inhibition of RUNX1 activity would reduce RSPO3 expression and activity in the cancer stem cell compartment. Treatment of breast cancer cells with AI-10-104, a small molecule that inhibits CBFβ-RUNX interaction, reduced RSPO3 mRNA and protein levels, and reduced the migration ability of MDA-MB231 breast cancer cells, ability that was recovered upon treatment with recombinant RSPO3. In addition, AI-10-104 inhibited the expression of canonical Wnt pathway targets, EMT and stem-cell markers. Therefore, our results demonstrate that inhibition of RUNX-CBFβ transcriptional activity leads to a down-regulation of RSPO3 expression, constituting a new molecular target for therapeutic modulation in breast cancer treatment.