Reversible epigenetic alterations mediate PSMA expression heterogeneity in advanced metastatic prostate cancer
Erolcan Sayar, Radhika A. Patel, Ilsa M. Coleman, Martine P. Roudier, Ailin Zhang, Pallabi Mustafi, Jin-Yih Low, Brian Hanratty, Lisa S. Ang, Vipul Bhatia, Mohamed Adil, Hasim Bakbak, David A. Quigley, Michael T. Schweizer, Jessica E. Hawley, Lori Kollath, Lawrence D. True, Felix Y. Feng, Neil H. Bander, Eva Corey, John K. Lee, Colm Morrissey, Roman Gulati, Peter S. Nelson, Michael C. Haffner
Erolcan Sayar, Radhika A. Patel, Ilsa M. Coleman, Martine P. Roudier, Ailin Zhang, Pallabi Mustafi, Jin-Yih Low, Brian Hanratty, Lisa S. Ang, Vipul Bhatia, Mohamed Adil, Hasim Bakbak, David A. Quigley, Michael T. Schweizer, Jessica E. Hawley, Lori Kollath, Lawrence D. True, Felix Y. Feng, Neil H. Bander, Eva Corey, John K. Lee, Colm Morrissey, Roman Gulati, Peter S. Nelson, Michael C. Haffner
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Research Article Oncology

Reversible epigenetic alterations mediate PSMA expression heterogeneity in advanced metastatic prostate cancer

Abstract

Prostate-specific membrane antigen (PSMA) is an important cell surface target in prostate cancer. There are limited data on the heterogeneity of PSMA tissue expression in metastatic castration-resistant prostate cancer (mCRPC). Furthermore, the mechanisms regulating PSMA expression (encoded by the FOLH1 gene) are not well understood. Here, we demonstrate that PSMA expression is heterogeneous across different metastatic sites and molecular subtypes of mCRPC. In a rapid autopsy cohort in which multiple metastatic sites per patient were sampled, we found that 13 of 52 (25%) cases had no detectable PSMA and 23 of 52 (44%) cases showed heterogeneous PSMA expression across individual metastases, with 33 (63%) cases harboring at least 1 PSMA-negative site. PSMA-negative tumors displayed distinct transcriptional profiles with expression of druggable targets such as MUC1. Loss of PSMA was associated with epigenetic changes of the FOLH1 locus, including gain of CpG methylation and loss of histone 3 lysine 27 (H3K27) acetylation. Treatment with histone deacetylase (HDAC) inhibitors reversed this epigenetic repression and restored PSMA expression in vitro and in vivo. Collectively, these data provide insights into the expression patterns and regulation of PSMA in mCRPC and suggest that epigenetic therapies — in particular, HDAC inhibitors — can be used to augment PSMA levels.

Authors

Erolcan Sayar, Radhika A. Patel, Ilsa M. Coleman, Martine P. Roudier, Ailin Zhang, Pallabi Mustafi, Jin-Yih Low, Brian Hanratty, Lisa S. Ang, Vipul Bhatia, Mohamed Adil, Hasim Bakbak, David A. Quigley, Michael T. Schweizer, Jessica E. Hawley, Lori Kollath, Lawrence D. True, Felix Y. Feng, Neil H. Bander, Eva Corey, John K. Lee, Colm Morrissey, Roman Gulati, Peter S. Nelson, Michael C. Haffner

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Figure 7

Pharmacologic epigenetic modifiers reverse PSMA silencing.

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Pharmacologic epigenetic modifiers reverse PSMA silencing. (A–C) Density...
(AC) Density plots show PSMA cell surface expression in DU145 (A), LAPC4 (B), and LuCaP 35CR cell line (CL) (C) cells treated for 6 days with vehicle control (DMSO) or 500 nM decitabine (DAC). (DH) PSMA expression in DU145, LAPC4, and LuCaP 35CR CL cells treated for 6 days with panobinostat (PANO, 10 nM), CUDC-907 (50 nM), or vorinostat (VOR, 1 μM). (I) Representative micrographs of cytospin preparations of LuCaP 35CR CL treated with DMSO or panobinostat (10 nM) stained for PSMA (red) and DAPI (blue). (J and K) Chromatin immunoprecipitation studies show serine 5 phosphorylated RNA polymerase 2 (Pol2-P) (J) and H3K27ac (K) enrichment normalized to input in LuCaP 35CR CL treated with vorinostat (VOR, 1 μM), panobinostat (PANO, 10 nM), or DMSO. (L) Micrographs of LuCaP 35CR PDX tumors stained for PSMA grown in mice treated with solvent control (30% captisol) or CUDC-907 at a dose of 75 mg/kg/day for 21 days. (M) Percent of PSMA-positive cells in control and CUDC-907 treated tumors (n = 4 per group). P value are based on 2-tailed t tests. Scale bars: 50 μm.