Abstract
ATBF1 is a candidate tumor suppressor that interacts with estrogen receptor (ER) to inhibit the function of estrogen-ER signaling in gene regulation and cell proliferation control in human breast cancer cells. We therefore tested whether Atbf1 and its interaction with ER modulate the development of pubertal mammary gland, where estrogen is the predominant steroid hormone. In an in vitro model of cell differentiation, i.e., MCF10A cells cultured in Matrigel, ATBF1 expression was significantly increased, and knockdown of ATBF1 inhibited acinus formation. During mouse mammary gland development, Atbf1 was expressed at varying levels at different stages, with higher levels during puberty, lower during pregnancy, and the highest during lactation. Knockout of Atbf1 at the onset of puberty enhanced ductal elongation and bifurcation and promoted cell proliferation in both ducts and terminal end buds of pubertal mammary glands. Enhanced cell proliferation primarily occurred in ER-positive cells and was accompanied by increased expression of ER target genes. Furthermore, inactivation of Atbf1 reduced the expression of basal cell markers (CK5, CK14 and CD44) but not luminal cell markers. These findings indicate that Atbf1 plays a role in the development of pubertal mammary gland likely by modulating the function of estrogen-ER signaling in luminal cells and by modulating gene expression in basal cells.
Highlights
AT-motif binding factor 1 (ATBF1), named ZFHX3 for zinc finger homeobox 3, was originally identified as a transcriptional repressor of the human alpha-fetoprotein (AFP) gene [1,2]
To test whether ATBF1 plays a role in mammary epithelial differentiation, we first examined the expression of ATBF1 in MCF10A cells in both 2-D and 3-D (Matrigel) cultures
These results suggest that the induction of ATBF1 is related to cell differentiation
Summary
AT-motif binding factor 1 (ATBF1), named ZFHX3 for zinc finger homeobox 3, was originally identified as a transcriptional repressor of the human alpha-fetoprotein (AFP) gene [1,2]. It encodes a protein of 3703 amino acids comprising a large number of structural domains such as zinc fingers and homeodomains. ATBF1 interacts with ER to inhibit the function of estrogen-ER signaling in gene regulation and cell proliferation control [20]. Proper ER function appears to require fine-tuned levels of ATBF1, because ER induces ATBF1 transcription but causes ATBF1 protein degradation via the proteasome by inducing the estrogen responsive finger protein (EFP) [18,19]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
