While Wnt-Frizzled (Fzd) signaling is critical in the pathophysiology of carcinomas, its role in human breast cancer has been difficult to establish. We show here that the adaptor protein Na+/H+ Exchange Regulatory Factor1 (NHERF1), a protein abundantly expressed in normal mammary epithelium, regulates Wnt signaling, maintaining low levels of β-catenin activation. NHERF1’s effects are mediated by direct interactions between one of its PSD-95/Drosophila discs large/ZO-1 domains (PDZ domains) and the C-terminus of a subset of Fzd receptors. Loss of NHERF1 in breast cancer cell lines enhances canonical Wnt signaling and Wnt-dependent cell proliferation. Furthermore, the mammary glands of NHERF1 knockout mice exhibit increased mammary duct density accompanied by increased proliferation and β-catenin activity. Finally, we demonstrate a negative correlation between NHERF1 expression and nuclear β-catenin in human breast carcinomas. Taken together, these results provide novel insight into the regulation of Wnt signaling in normal and neoplastic breast tissues, and identify NHERF1 as an important regulator of the pathogenesis of breast tumors.
A variety of coregulator proteins serve as partners for nuclear receptors orchestrating the molecular events required for receptor-dependent transcriptional regulation. Some coregulators directly interact with nuclear receptors and provide a platform for recruitment of other factors that provide distinct biochemical activities that influence transcriptional efficiency. Coregulators can influence chromatin structure and activity via direct modification of histone proteins or by facilitating ATP-dependent chromatin remodeling. They also have the capacity to impact multiple steps in the transcription process including initiation, elongation, and mRNA splicing. Genetic analysis in humans and animal models are revealing the important cell and tissue-type specific actions of nuclear receptor coregulators as well and their role in human physiology and disease.
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