Supraphysiological androgens suppress prostate cancer growth through androgen receptor–mediated DNA damage
Payel Chatterjee, … , Samuel R. Denmeade, Peter S. Nelson
Payel Chatterjee, … , Samuel R. Denmeade, Peter S. Nelson
Published July 16, 2019
Citation Information: J Clin Invest. 2019;129(10):4245-4260. https://doi.org/10.1172/JCI127613.
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Research Article Endocrinology Oncology

Supraphysiological androgens suppress prostate cancer growth through androgen receptor–mediated DNA damage

Abstract

Prostate cancer (PC) initially depends on androgen receptor (AR) signaling for survival and growth. Therapeutics designed to suppress AR activity serve as the primary intervention for advanced disease. However, supraphysiological androgen (SPA) concentrations can produce paradoxical responses leading to PC growth inhibition. We sought to discern the mechanisms by which SPA inhibits PC and to determine if molecular context associates with antitumor activity. SPA produced an AR-mediated, dose-dependent induction of DNA double-strand breaks, G0/G1 cell-cycle arrest, and cellular senescence. SPA repressed genes involved in DNA repair and delayed the restoration of damaged DNA, which was augmented by poly (ADP-ribose) polymerase 1 inhibition. SPA-induced double-strand breaks were accentuated in BRCA2-deficient patients with PC, and combining SPA with poly (ADP-ribose) polymerase or DNA-dependent protein kinase inhibition further repressed growth. Next-generation sequencing was performed on biospecimens from patients with PC receiving SPA as part of ongoing phase II clinical trials. Patients with mutations in genes mediating homology-directed DNA repair were more likely to exhibit clinical responses to SPA. These results provide a mechanistic rationale for directing SPA therapy to patients with PC who have AR amplification or DNA repair deficiency and for combining SPA therapy with poly (ADP-ribose) polymerase inhibition.

Authors

Payel Chatterjee, Michael T. Schweizer, Jared M. Lucas, Ilsa Coleman, Michael D. Nyquist, Sander B. Frank, Robin Tharakan, Elahe Mostaghel, Jun Luo, Colin C. Pritchard, Hung-Ming Lam, Eva Corey, Emmanuel S. Antonarakis, Samuel R. Denmeade, Peter S. Nelson

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Figure 5

SPA-induced DNA damage and repression of PC growth are enhanced by BRCA2 loss and PARP inhibition.

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SPA-induced DNA damage and repression of PC growth are enhanced by BRCA2...
(A) Western immunoblot of BRCA2 in protein extracts from LNCaPshBRCA2 cells in the presence or absence of doxycycline (DOX). (B) Confocal immunostaining and (C) quantitation of γH2AX in LNCaPshBRCA2 cells following 10 nM R1881 and/or OLA treatment for 24 hours in the presence of DOX. (D) Confocal immunostaining and (E) quantitation of DNA PKcs S2056 foci in DOX-treated LNCaPshBRCA2 cells following 10 nM R1881 and/or OLA treatment for 24 hours. (F) Quantitation of apoptosis by caspase activity and (G) growth of LNCaPshBRCA2 cells in the presence or absence of DOX after 3 days treatment with R1881, Nu7441, or OLA. (H) Confocal immunostaining of γH2AX and DNA-PKcs S2056 foci in dissociated cells from the PC BRCA2–/– LuCaP96 PDX line, exogenously treated with 10 nM R1881 with or without OLA for 18 hours. (I) Quantitation of γH2AX foci in dissociated cells from HR-intact LuCaP35, LuCaP70, and HR-deficient LuCaP96CR cells following 4 and 18 hours of R1881 or OLA treatment. In C, E, F, G, and I, data represent mean ± SD (n = 4 replicates per experiment). Original magnification for B, D, and H: ×40. *P ≤ 0.05, **P < 0.01 by 2-way ANOVA.