Publication date: 12 March 2018
Source:Cancer Cell, Volume 33, Issue 3
Author(s): Jaclyn Andricovich, Stephanie Perkail, Yan Kai, Nicole Casasanta, Weiqun Peng, Alexandros Tzatsos
KDM6A, an X chromosome-encoded histone demethylase and member of the COMPASS-like complex, is frequently mutated in a broad spectrum of malignancies and contributes to oncogenesis with poorly characterized mechanisms. We found that KDM6A loss induced squamous-like, metastatic pancreatic cancer selectively in females through deregulation of the COMPASS-like complex and aberrant activation of super-enhancers regulating ΔNp63, MYC, and RUNX3 oncogenes. This subtype of tumor developed in males had concomitant loss of UTY and KDM6A, suggesting overlapping roles, and points to largely demethylase independent tumor suppressor functions. We also demonstrate that KDM6A-deficient pancreatic cancer is selectively sensitive to BET inhibitors, which reversed squamous differentiation and restrained tumor growth in vivo, highlighting a therapeutic niche for patient tailored therapies.
Graphical abstract
Teaser
Andricovich et al. show that KDM6A loss, via aberrant activation of super-enhancers regulating several oncogenes, induces squamous-like, metastatic pancreatic cancer in females. In males, both KDM6A and UTY loss is required to induce squamous-like tumors. Importantly, KDM6A-deficient pancreatic cancer is sensitive to BET inhibitors.http://ift.tt/2pcSYKK
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