TY - JOUR
T1 - Cross-regulation between FOXA1 and ErbB2 signaling in estrogen receptor-negative breast cancer
AU - Naderi, Ali
AU - Meyer, Michelle
AU - Dowhan, Dennis H.
N1 - Funding Information:
Address all correspondence to: Ali Naderi, MD, Level 4, R Wing, Bldg 1, Princess Alexandra Hospital, Ipswich Rd, Brisbane, Qld 4102, Australia. E-mail: [email protected] 1This study is funded by grants from Princess Alexandra Hospital Private Practice Trust Fund, Cancer Collaborative Group, and Cancer Council Queensland. 2This article refers to supplementary materials, which are designated by Table W1 and Figure W1, and are available online at www.neoplasia.com. Received 2 February 2012; Revised 11 March 2012; Accepted 13 March 2012 Copyright © 2012 Neoplasia Press, Inc. All rights reserved 1522-8002/12/$25.00 DOI 10.1593/neo.12294
PY - 2012/4
Y1 - 2012/4
N2 - Molecular apocrine is a subtype of estrogen receptor-negative (ER-) breast cancer, which is characterized by a steroid-response gene signature that includes androgen receptor, FOXA1, and a high frequency of ErbB2 overexpression. In this study, we demonstrate that there is a strong association between the overexpression of FOXA1 and ErbB2 in ER- breast tumors. This has led us to identify a cross-regulation network between FOXA1 and ErbB2 signaling in ER- breast cancer. We present two mechanisms to explain the association between FOXA1 and ErbB2 overexpression in molecular apocrine cells. In one process, ErbB2 signaling genes CREB1 and c-Fos regulate FOXA1 transcription, and in another process, AP2α regulates the expression of both FOXA1 and ErbB2. Moreover, we demonstrate that FOXA1, in turn, regulates the transcription of ErbB2 signaling genes. This includes a core gene signature that is shared across two molecular apocrine cell lines. Importantly, the most upregulated (RELB) and downregulated (PAK1) genes in this signature are direct FOXA1 targets. Our data suggest that FOXA1 acts as a dual-function transcription factor and the repressive function of FOXA1 on RELB can be explained by the recruitment of its binding partner corepressor TLE3. It is notable that a group of FOXA1-regulated genes vary across molecular apocrine cell lines leading to the differences in the functional effects of FOXA1 on extracellular signal-regulated kinase phosphorylation and cell viability between these lines. This study demonstrates that there is a cross-regulation network between FOXA1 and ErbB2 signaling that connects FOXA1 to some of the key signaling pathways in ER- breast cancer.
AB - Molecular apocrine is a subtype of estrogen receptor-negative (ER-) breast cancer, which is characterized by a steroid-response gene signature that includes androgen receptor, FOXA1, and a high frequency of ErbB2 overexpression. In this study, we demonstrate that there is a strong association between the overexpression of FOXA1 and ErbB2 in ER- breast tumors. This has led us to identify a cross-regulation network between FOXA1 and ErbB2 signaling in ER- breast cancer. We present two mechanisms to explain the association between FOXA1 and ErbB2 overexpression in molecular apocrine cells. In one process, ErbB2 signaling genes CREB1 and c-Fos regulate FOXA1 transcription, and in another process, AP2α regulates the expression of both FOXA1 and ErbB2. Moreover, we demonstrate that FOXA1, in turn, regulates the transcription of ErbB2 signaling genes. This includes a core gene signature that is shared across two molecular apocrine cell lines. Importantly, the most upregulated (RELB) and downregulated (PAK1) genes in this signature are direct FOXA1 targets. Our data suggest that FOXA1 acts as a dual-function transcription factor and the repressive function of FOXA1 on RELB can be explained by the recruitment of its binding partner corepressor TLE3. It is notable that a group of FOXA1-regulated genes vary across molecular apocrine cell lines leading to the differences in the functional effects of FOXA1 on extracellular signal-regulated kinase phosphorylation and cell viability between these lines. This study demonstrates that there is a cross-regulation network between FOXA1 and ErbB2 signaling that connects FOXA1 to some of the key signaling pathways in ER- breast cancer.
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U2 - 10.1593/neo.12294
DO - 10.1593/neo.12294
M3 - Article
C2 - 22577344
AN - SCOPUS:84860607999
SN - 1522-8002
VL - 14
SP - 283
EP - 296
JO - Neoplasia
JF - Neoplasia
IS - 4
ER -