Small molecule JQ1 promotes prostate cancer invasion via BET-independent inactivation of FOXA1
Leiming Wang, … , Sophia Y. Tsai, Ming-Jer Tsai
Leiming Wang, … , Sophia Y. Tsai, Ming-Jer Tsai
Published December 24, 2019
Citation Information: J Clin Invest. 2020;130(4):1782-1792. https://doi.org/10.1172/JCI126327.
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Research Article Oncology

Small molecule JQ1 promotes prostate cancer invasion via BET-independent inactivation of FOXA1

Abstract

Recent findings have shown that inhibitors targeting bromodomain and extraterminal domain (BET) proteins, such as the small molecule JQ1, are potent growth inhibitors of many cancers and hold promise for cancer therapy. However, some reports have also revealed that JQ1 can activate additional oncogenic pathways and may affect epithelial-to-mesenchymal transition (EMT). Therefore, it is important to address the potential unexpected effect of JQ1 treatment, such as cell invasion and metastasis. Here, we showed that in prostate cancer, JQ1 inhibited cancer cell growth but promoted invasion and metastasis in a BET protein–independent manner. Multiple invasion pathways including EMT, bone morphogenetic protein (BMP) signaling, chemokine signaling, and focal adhesion were activated by JQ1 to promote invasion. Notably, JQ1 induced upregulation of invasion genes through inhibition of Forkhead box protein A1 (FOXA1), an invasion suppressor in prostate cancer. JQ1 directly interacted with FOXA1 and inactivated FOXA1 binding to its interacting repressors TLE3, HDAC7, and NFIC, thereby blocking FOXA1-repressive function and activating the invasion genes. Our findings indicate that JQ1 has an unexpected effect of promoting invasion in prostate cancer. Thus, the ill effect of JQ1 or its derived therapeutic agents cannot be ignored during cancer treatment, especially in FOXA1-related cancers.

Authors

Leiming Wang, Mafei Xu, Chung-Yang Kao, Sophia Y. Tsai, Ming-Jer Tsai

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Figure 3

JQ1 activates BMP signaling.

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JQ1 activates BMP signaling. (A) Protein levels were measured in JQ1-tre...
(A) Protein levels were measured in JQ1-treated LNCaP cells. (B) p-SMAD1/5 levels were measured in JQ1-treated cells. (C) GSEA showed that the response to the BMP signature was activated by JQ1. (D) The BMP signaling inhibitor LDN-212854 (LDN) impaired JQ1-induced upregulation of invasion genes. n = 3 per group. P > 0.05 (NS), **P < 0.01, and ***P < 0.001, by 2-way ANOVA. (E) Levels of the indicated proteins after LDN-212854 and JQ1 treatment. (F) Cells were treated with 200 nM JQ1 and 2 μM LDN-212854 for 3 days, and invasion was measured. Representative images of invasion are shown. Scale bars: 200 μm. n = 3 per group. P > 0.05 (NS), ***P < 0.001, by 2-way ANOVA. (G) Levels of the indicated proteins after transfection with siALKs (siRNAs targeting ALK1, ALK2, and ALK3) and JQ1 treatment. (H) Cells were transfected with siALKs and treated with JQ1 for 3 days, and then cell invasion was measured. Representative images of invasion are shown. Scale bars: 200 μm. n = 3 per group. P > 0.05 (NS), ***P < 0.001, by 2-way ANOVA. (I) GSEA showed that the JQ1-activated BMP target gene signature was enriched in human metastatic prostate cancer tissues (GSE21035). A JQ1-activated BMP target gene signature was generated through a combination of JQ1-upregulated genes and BMP positively regulated genes (GSE96914). down, downregulated; up, upregulated.