The FOXN3-NEAT1-SIN3A repressor complex promotes progression of hormonally responsive breast cancer
Wanjin Li, Zihan Zhang, Xinhua Liu, Xiao Cheng, Yi Zhang, Xiao Han, Yu Zhang, Shumeng Liu, Jianguo Yang, Bosen Xu, Lin He, Luyang Sun, Jing Liang, Yongfeng Shang
Wanjin Li, Zihan Zhang, Xinhua Liu, Xiao Cheng, Yi Zhang, Xiao Han, Yu Zhang, Shumeng Liu, Jianguo Yang, Bosen Xu, Lin He, Luyang Sun, Jing Liang, Yongfeng Shang
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Research Article Cell biology Endocrinology

The FOXN3-NEAT1-SIN3A repressor complex promotes progression of hormonally responsive breast cancer

Abstract

The pathophysiological function of the forkhead transcription factor FOXN3 remains to be explored. Here we report that FOXN3 is a transcriptional repressor that is physically associated with the SIN3A repressor complex in estrogen receptor–positive (ER+) cells. RNA immunoprecipitation–coupled high-throughput sequencing identified that NEAT1, an estrogen-inducible long noncoding RNA, is required for FOXN3 interactions with the SIN3A complex. ChIP-Seq and deep sequencing of RNA genomic targets revealed that the FOXN3-NEAT1-SIN3A complex represses genes including GATA3 that are critically involved in epithelial-to-mesenchymal transition (EMT). We demonstrated that the FOXN3-NEAT1-SIN3A complex promotes EMT and invasion of breast cancer cells in vitro as well as dissemination and metastasis of breast cancer in vivo. Interestingly, the FOXN3-NEAT1-SIN3A complex transrepresses ER itself, forming a negative-feedback loop in transcription regulation. Elevation of both FOXN3 and NEAT1 expression during breast cancer progression corresponded to diminished GATA3 expression, and high levels of FOXN3 and NEAT1 strongly correlated with higher histological grades and poor prognosis. Our experiments uncovered that NEAT1 is a facultative component of the SIN3A complex, shedding light on the mechanistic actions of NEAT1 and the SIN3A complex. Further, our study identified the ERα-NEAT1-FOXN3/NEAT1/SIN3A-GATA3 axis that is implicated in breast cancer metastasis, providing a mechanistic insight into the pathophysiological function of FOXN3.

Authors

Wanjin Li, Zihan Zhang, Xinhua Liu, Xiao Cheng, Yi Zhang, Xiao Han, Yu Zhang, Shumeng Liu, Jianguo Yang, Bosen Xu, Lin He, Luyang Sun, Jing Liang, Yongfeng Shang

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Figure 8

Negative-feedback regulation of estrogen response by the FOXN3-NEAT1-SIN3A complex.

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Negative-feedback regulation of estrogen response by the FOXN3-NEAT1-SIN...
(A) The binding profiles of FOXN3, SIN3A, and NEAT1 on ESR1 based on ChIP-Seq and CHART-Seq data. (B) MCF-7 cells were transfected with the indicated expression constructs and/or siRNAs for the measurement of ERα expression by qPCR and Western blotting. The efficiency of knockdown or overexpression was verified by Western blotting or qPCR. Error bars represent mean ± SD for triplicate experiments (**P < 0.01, 1-way ANOVA). (C) qChIP analysis of the promoter of ESR1 or a control region in MCF-7 cells for the binding of FOXN3 and SIN3A. (D) MCF-7 cells were transfected with the indicated expression vectors and/or siRNAs for the measurement of the expression of GREB1 and TFF1 by qPCR. In C and D, error bars represent mean ± SD for triplicate experiments (*P < 0.05, **P < 0.01; 2-way ANOVA).