Resistance to androgen receptor signaling inhibition does not necessitate development of neuroendocrine prostate cancer
W. Nathaniel Brennen, … , William B. Isaacs, John T. Isaacs
W. Nathaniel Brennen, … , William B. Isaacs, John T. Isaacs
Published March 16, 2021
Citation Information: JCI Insight. 2021;6(8):e146827. https://doi.org/10.1172/jci.insight.146827.
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Research Article Oncology

Resistance to androgen receptor signaling inhibition does not necessitate development of neuroendocrine prostate cancer

Abstract

Resistance to AR signaling inhibitors (ARSis) in a subset of metastatic castration-resistant prostate cancers (mCRPCs) occurs with the emergence of AR– neuroendocrine prostate cancer (NEPC) coupled with mutations/deletions in PTEN, TP53, and RB1 and the overexpression of DNMTs, EZH2, and/or SOX2. To resolve whether the lack of AR is the driving factor for the emergence of the NE phenotype, molecular, cell, and tumor biology analyses were performed on 23 xenografts derived from patients with PC, recapitulating the full spectrum of genetic alterations proposed to drive NE differentiation. Additionally, phenotypic response to CRISPR/Cas9-mediated AR KO in AR+ CRPC cells was evaluated. These analyses document that (a) ARSi-resistant NEPC developed without androgen deprivation treatment; (b) ARS in ARSi-resistant AR+/NE+ double-positive “amphicrine” mCRPCs did not suppress NE differentiation; (c) the lack of AR expression did not necessitate acquiring a NE phenotype, despite concomitant mutations/deletions in PTEN and TP53, and the loss of RB1 but occurred via emergence of an AR–/NE– double-negative PC (DNPC); (d) despite DNPC cells having homogeneous genetic driver mutations, they were phenotypically heterogeneous, expressing basal lineage markers alone or in combination with luminal lineage markers; and (e) AR loss was associated with AR promoter hypermethylation in NEPCs but not in DNPCs.

Authors

W. Nathaniel Brennen, Yezi Zhu, Ilsa M. Coleman, Susan L. Dalrymple, Lizamma Antony, Radhika A. Patel, Brian Hanratty, Roshan Chikarmane, Alan K. Meeker, S. Lilly Zheng, Jody E. Hooper, Jun Luo, Angelo M. De Marzo, Eva Corey, Jianfeng Xu, Srinivasan Yegnasubramanian, Michael C. Haffner, Peter S. Nelson, William G. Nelson, William B. Isaacs, John T. Isaacs

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Figure 1

Lineage marker expression in the benign prostate.

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Lineage marker expression in the benign prostate. (A) IF staining of the...
(A) IF staining of the AR (green) and Ki67 (pink), which documents that the majority of proliferation is restricted to the basal epithelial layer. Nuclei stained with DAPI (blue). (B) IF staining of c-Myc (green) and AR (red), documenting that the small subset of basal cells expressing c-Myc does not express AR. Nuclei stained with DAPI (blue). (C) IF staining of HOXB13 (green) and CHGA (red). Nuclei stained with DAPI (blue). Arrowheads indicate HOXB13-high luminal cells. Arrows indicate HOXB13-low basal cells. Diamond indicates CHGA+ neuroendocrine cell. Asterisks indicate HOXB13 stromal cells. (D) Dual IHC staining of NFGR (pink) and p63 (brown) identifies the basal layer. (E) IHC staining of GSTP1 (brown) in basal layer. (F) IHC staining of SOX2 in basal layer. (G) IHC staining of HOXB13. Arrowheads indicate HOXB13-high luminal cells. Arrows indicate HOXB13-low basal cells. Asterisks indicate HOXB13 stromal cells. (H) Box plots indicate median and IQR range for the MFI of HOXB13 staining normalized to nuclear area in neuroendocrine (n = 97), basal (n = 97), and luminal cells (n = 24) of the normal prostate (whiskers = min/max values). CHGA, chromogranin A; NGFR, nerve growth factor receptor.