The transcription factor ELF5 is responsible for gene expression patterning underlying molecular subtypes of breast cancer and may mediate acquired resistance to anti-estrogen therapy.
The breast cancer-associated protein, BARD1, colocalizes with BRCA1 in nuclear foci in the S phase and after DNA damage, and the two proteins form a stable heterodimer implicated in DNA repair, protein ubiquitination, and control of mRNA processing. BARD1 has a BRCA1-independent proapoptotic activity; however, little is known about its regulation. Here, we show that BARD1 localization and apoptotic activity are regulated by nuclear-cytoplasmic shuttling. We identified a functional CRM1-dependent nuclear export sequence (NES) near the N-terminal RING domain of BARD1. The NES forms part of the BRCA1 dimerization domain, and coexpression of BRCA1 resulted in masking of the NES and nuclear retention of BARD1. In transient expression assays, BARD1 apoptotic activity was stimulated by nuclear export, and both apoptotic function and nuclear export were markedly reduced by BRCA1. Similar findings were obtained for endogenous BARD1. Silencing BRCA1 expression by siRNA, or disrupting the endogenous BARD1/BRCA1 interaction by peptide competition caused a reduction in BARD1 nuclear localization and foci formation, and increased the level of cytoplasmic BARD1 correlating with increased apoptosis. Our findings suggest that BRCA1/BARD1 heterodimer formation is important for optimal nuclear targeting of BARD1 and its role in DNA repair and cell survival.
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