Suppression of breast cancer by chemical modulation of vulnerable zinc fingers in estrogen receptor
Author: ["Li Hua Wang","Xiao Yi Yang","Xiaohu Zhang","Kelly Mihalic","Ying-Xin Fan","Weihua Xiao","O M Zack Howard","Ettore Appella","Andrew T Maynard","William L Farrar"]
Publication: Nature Medicine
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Abstract
Current antiestrogen therapy for breast cancer is limited by the mixed estrogenic and antiestrogenic activity of selective estrogen receptor modulators. Here we show that the function of zinc fingers in the estrogen receptor DNA-binding domain (DBD) is susceptible to chemical inhibition by electrophilic disulfide benzamide and benzisothiazolone derivatives, which selectively block binding of the estrogen receptor to its responsive element and subsequent transcription. These compounds also significantly inhibit estrogen-stimulated cell proliferation, markedly reduce tumor mass in nude mice bearing human MCF-7 breast cancer xenografts, and interfere with cell-cycle and apoptosis regulatory gene expression. Functional assays and computational analysis support a molecular mechanism whereby electrophilic agents preferentially disrupt the vulnerable C-terminal zinc finger, thus suppressing estrogen receptor–mediated breast carcinoma progression. Our results provide the proof of principle for a new strategy to inhibit breast cancer at the level of DNA binding, rather than the classical antagonism of estrogen binding.
Cite this article
Wang, L., Yang, X., Zhang, X. et al. Suppression of breast cancer by chemical modulation of vulnerable zinc fingers in estrogen receptor. Nat Med 10, 40–47 (2004). https://doi.org/10.1038/nm969
