Abstract
BackgroundThe ETS family transcription factor ESE-1 is often overexpressed in human breast cancer. ESE-1 initiates transformation of MCF-12A cells via a non-transcriptional, cytoplasmic process that is mediated by a unique 40-amino acid serine and aspartic acid rich (SAR) subdomain, whereas, ESE-1's nuclear transcriptional property is required to maintain the transformed phenotype of MCF7, ZR-75-1 and T47D breast cancer cells.ResultsTo map the minimal functional nuclear localization (NLS) and nuclear export (NES) signals, we fused in-frame putative NLS and NES motifs between GFP and the SAR domain. Using these GFP constructs as reporters of subcellular localization, we mapped a single NLS to six basic amino acids (242HGKRRR247) in the AT-hook and two CRM1-dependent NES motifs, one to the pointed domain (NES1: 102LCNCALEELRL112) and another to the DNA binding domain (DBD), (NES2: 275LWEFIRDILI284). Moreover, analysis of a putative NLS located in the DBD (316GQKKKNSN323) by a similar GFP-SAR reporter or by internal deletion of the DBD, revealed this sequence to lack NLS activity. To assess the role of NES2 in regulating ESE-1 subcellular localization and subsequent transformation potency, we site-specifically mutagenized NES2, within full-length GFP-ESE-1 and GFP-NES2-SAR reporter constructs. These studies show that site-specific mutation of NES2 completely abrogates ESE-1 transforming activity. Furthermore, we show that exclusive cytoplasmic targeting of the SAR domain is sufficient to initiate transformation, and we report that an intact SAR domain is required, since block mutagenesis reveals that an intact SAR domain is necessary to maintain its full transforming potency. Finally, using a monoclonal antibody targeting the SAR domain, we demonstrate that the SAR domain contains a region accessible for protein - protein interactions.ConclusionsThese data highlight that ESE-1 contains NLS and NES signals that play a critical role in regulating its subcellular localization and function, and that an intact SAR domain mediates MEC transformation exclusively in the cytoplasm, via a novel nontranscriptional mechanism, whereby the SAR motif is accessible for ligand and/or protein interactions. These findings are significant, since they provide novel molecular insights into the functions of ETS transcription factors in mammary cell transformation.
Highlights
The ETS family transcription factor ESE-1 is often overexpressed in human breast cancer
We have shown that a 40-amino acid (AA) serine and aspartic acid rich (SAR) domain within the ESE-1 is both necessary and sufficient to mediate ESE-1 transforming function and that enforced nuclear localization of full-length ESE1 or of the SAR domain alone, abrogates ESE-1 ability to initiate transformation [13]
ESE-1 contains a single, basic amino acid-rich (Nuclear Localization Sequence) (NLS) that maps to the A/T hook domain The nuclear localization signal (NLS) in Elf3, the murine ortholog of human ESE-1, has been mapped to four basic residues 244KRKR247 within the AT Hook domain [20], with additional NLS motifs within the AT hook (AA 236252 and 249-267) and DNA binding domain (DBD) (318KKK320) contributing to nuclear localization [21]
Summary
The ETS family transcription factor ESE-1 is often overexpressed in human breast cancer. We have shown that a 40-amino acid (AA) serine and aspartic acid rich (SAR) domain within the ESE-1 is both necessary and sufficient to mediate ESE-1 transforming function and that enforced nuclear localization of full-length ESE1 or of the SAR domain alone, abrogates ESE-1 ability to initiate transformation [13]. These results imply that ESE-1 contains an endogenous nuclear export signal that is required for ESE-1-mediated initiation of MEC transformation via a cytoplasmic mechanism. Together these reports establish that nuclear-cytoplasmic shuttling of ESE-1 is essential for transformation initiation in benign MECs as well as for the maintenance of transformed phenotype in breast cancer cells, and imply that ESE-1 contains both nuclear export (NES) as well as nuclear localization (NLS) signals
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