KDM6A Depletion in Breast Epithelial Cells Leads to Reduced Sensitivity to Anticancer Agents and Increased TGFß Activity.

ABSTRACT

KDM6A, an X chromosome-linked histone lysine demethylase, was reported to be frequently mutated in many tumor types including breast and bladder cancer. However, the functional role of KDM6A is not fully understood. Using MCF10A as a model of non-tumorigenic epithelial breast cells, we found that silencing KDM6A promoted cell migration and transformation demonstrated by the formation of tumor-like acini in three-dimensional culture. KDM6A loss reduced the sensitivity of MCF10A cells to therapeutic agents commonly used to treat patients with triple-negative breast cancer and also induced TGFß extracellular secretion leading to suppressed expression of cytotoxic genes in normal human CD8+ T cells in vitro. Interestingly, when cells were treated with TGFß, de novo synthesis of KDM6A protein was suppressed while TGFB1 transcription was enhanced, indicating a TGFß/KDM6A-negative regulatory axis. Furthermore, both KDM6A deficiency and TGFß treatment promoted disorganized acinar structures in three-dimensional culture, as well as transcriptional profiles associated with epithelial-to-mesenchymal transition and metastasis, suggesting KDM6A depletion and TGFß drive tumor progression. IMPLICATIONS Our study provides the preclinical rationale for evaluating KDM6A and TGFß in breast tumor samples as predictors for response to chemo and immunotherapy, informing personalized therapy based on these findings.