Alterations in DNA repair promote tumor development, but the impact on tumor progression is poorly understood. Here, discovery of a biochemical circuit linking hormone signaling to DNA repair and therapeutic resistance is reported. Findings demonstrate that androgen receptor (AR) activity is induced by DNA damage, and promotes expression and activation of a gene expression program governing DNA repair. Subsequent investigation revealed that activated AR promotes resolution of double-strand breaks and resistance to DNA damage both in vitro and in vivo. Mechanistically, DNAPKcs was identified as a key target of AR after damage, controlling AR-mediated DNA repair and cell survival after genotoxic insult. Finally, DNAPKcs was shown to potentiate AR function, consistent with a dual role in both DNA repair and transcriptional regulation. Combined, these studies identify the AR-DNAPKcs circuit as a major effector of DNA repair and therapeutic resistance, and establish a new node for therapeutic intervention in advanced disease.
About two thirds of all human breast cancer cases are estrogen receptor positive.
The drug of first choice for these patients is tamoxifen. However, about half of the recurrences after removal of the primary tumor
are or become resistant to this drug. While many mechanisms have been identified for tamoxifen resistance in the lab, at present only a
few have been translated to the clinic. This paper highlights the role in tamoxifen resistance of phosphorylation by different kinases on different
sites of the estrogen receptor. We will discuss the molecular pathways and kinases that are involved in phosphorylation of ERα and how
these affect tamoxifen resistance. Finally, we will elaborate on the clinical translation of these observations and the possibility to predict tamoxifen
responses in patient tumor samples before treatment onset. The findings made originally on the bench may translate into a better and personalized
treatment of breast cancer patients using an old and safe anticancer drug: tamoxifen.
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