SOX9 interacts with FOXC1 to activate MYC and regulate CDK7 inhibitor sensitivity in triple-negative breast cancer

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Abstract

Triple-negative breast cancer (TNBC) is particularly sensitive to cyclin-dependent kinase 7 inhibitor, THZ1, compared to hormone receptor (HR)+ breast cancer, but our data found that different TNBC cell lines had a wide range of IC50 values of THZ1, suggesting a possible heterogeneity in sensitivity to THZ1 in TNBC. To seek potential biomarkers of THZ1 sensitivity, we re-analyzed the mRNAs profile in breast cancer cells treated with THZ1 from the previous study and demonstrated that elevated expression of SOX9 was significantly associated with the sensitivity of THZ1 in TNBC. We also verified that SOX9 expression promoted cell proliferation, migration, stemness, and predicted poor prognosis. Moreover, based on the tissue array of 278 patients and over 900 samples from TCGA data, we found that SOX9 expression was significantly higher in TNBC than HR+ breast cancers. Furthermore, ChIP-sequencing indicated that SOX9 binding to enhancer near transcription factor FOXC1, was remarkably inhibited by THZ1. And we also demonstrated that SOX9 and FOXC1 interacted with each other, which might co-operate and co-regulate the MYC signaling pathway in TNBC. Mechanistically, SOX9 may sensitize TNBC cells to THZ1, in a FOXC1-related manner, suggesting that SOX9 could be as a predictive factor of THZ1.

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Tang, L., Jin, J., Xu, K., Wang, X., Tang, J., & Guan, X. (2020). SOX9 interacts with FOXC1 to activate MYC and regulate CDK7 inhibitor sensitivity in triple-negative breast cancer. Oncogenesis, 9(5). https://doi.org/10.1038/s41389-020-0232-1

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