Selective androgen receptor modulators activate the canonical prostate cancer androgen receptor program and repress cancer growth
Michael D. Nyquist, … , Elahe A. Mostaghel, Peter S. Nelson
Michael D. Nyquist, … , Elahe A. Mostaghel, Peter S. Nelson
Published May 17, 2021
Citation Information: J Clin Invest. 2021;131(10):e146777. https://doi.org/10.1172/JCI146777.
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Research Article Oncology

Selective androgen receptor modulators activate the canonical prostate cancer androgen receptor program and repress cancer growth

Abstract

Prostate cancer (PC) is driven by androgen receptor (AR) activity, a master regulator of prostate development and homeostasis. Frontline therapies for metastatic PC deprive the AR of the activating ligands testosterone (T) and dihydrotestosterone (DHT) by limiting their biosynthesis or blocking AR binding. Notably, AR signaling is dichotomous, inducing growth at lower activity levels, while suppressing growth at higher levels. Recent clinical studies have exploited this effect by administration of supraphysiological concentrations of T, resulting in clinical responses and improvements in quality of life. However, the use of T as a therapeutic agent in oncology is limited by poor drug-like properties as well as rapid and variable metabolism. Here, we investigated the antitumor effects of selective AR modulators (SARMs), which are small-molecule nonsteroidal AR agonists developed to treat muscle wasting and cachexia. Several orally administered SARMs activated the AR program in PC models. AR cistromes regulated by steroidal androgens and SARMs were superimposable. Coregulatory proteins including HOXB13 and GRHL2 comprised AR complexes assembled by both androgens and SARMs. At bioavailable concentrations, SARMs repressed MYC oncoprotein expression and inhibited the growth of castration-sensitive and castration-resistant PC in vitro and in vivo. These results support further clinical investigation of SARMs for treating advanced PC.

Authors

Michael D. Nyquist, Lisa S. Ang, Alexandra Corella, Ilsa M. Coleman, Michael P. Meers, Anthony J. Christiani, Cordell Pierce, Derek H. Janssens, Hannah E. Meade, Arnab Bose, Lauren Brady, Timothy Howard, Navonil De Sarkar, Sander B. Frank, Ruth F. Dumpit, James T. Dalton, Eva Corey, Stephen R. Plymate, Michael C. Haffner, Elahe A. Mostaghel, Peter S. Nelson

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Figure 2

SARMs suppress MYC levels and proliferation-associated gene expression.

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SARMs suppress MYC levels and proliferation-associated gene expression. ...
(A) GSVA signature score heatmap of cell-cycle–related gene sets from RNA-Seq data. (B) Heatmap of RNA-Seq mean-centered log2(CPM) values for cell-cycle progression signature genes. (C) GSEA normalized enrichment scores (NESs) plotted for Hallmark gene sets. (D) Percentage of LNCaP cells in S phase when treated for 48 hours with 10 μM ENZ, 5 nM R1881, or 5 μM SARMs (n = 3). *P < 0.05, by 1-way ANOVA with Sidak’s multiple-comparison test. Data represent the mean ± SD. (E) Immunoblots for p16, p21, AR, FOXM1, and MYC performed on LNCaP cells treated with 5 nM R1881, 5 μM SARMs, or 0.4 μg/mL mitomycin-C for 6 days.