SPOP mutation drives prostate neoplasia without stabilizing oncogenic transcription factor ERG
Jonathan Shoag, … , Mark A. Rubin, Christopher E. Barbieri
Jonathan Shoag, … , Mark A. Rubin, Christopher E. Barbieri
Published January 2, 2018; First published December 4, 2017
Citation Information: J Clin Invest. 2018;128(1):381-386. https://doi.org/10.1172/JCI96551.
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Categories: Concise Communication Oncology

SPOP mutation drives prostate neoplasia without stabilizing oncogenic transcription factor ERG

Abstract

Nearly 50% of prostate cancers harbor gene fusions that lead to overexpression of the transcription factor ERG, while a mutually exclusive 10% of prostate cancers harbor recurrent mutations in the gene encoding the E3 ubiquitin ligase SPOP. Recent reports suggest that SPOP acts as a ubiquitin ligase for ERG and propose that ERG stabilization is the oncogenic effector of SPOP mutation. Here, we used human prostate cancer samples and showed that the vast majority of human SPOP-mutant cancers do not express ERG. Comparison of SPOP-mutant and ERG-fusion organoid models showed evidence of divergent, rather than common, transcriptional programs. Furthermore, expression of prostate cancer–associated SPOP mutations in genetically engineered mouse models of SPOP-mutant prostate cancer did not result in the expression of ERG protein in histologically normal prostate glands, high-grade prostatic intraepithelial neoplasia, invasive adenocarcinoma, or prostate organoids. In summary, we found no evidence that ERG is an effector of SPOP mutation in human prostate cancer or mouse models.

Authors

Jonathan Shoag, Deli Liu, Mirjam Blattner, Andrea Sboner, Kyung Park, Lesa Deonarine, Brian D. Robinson, Juan Miguel Mosquera, Yu Chen, Mark A. Rubin, Christopher E. Barbieri

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Figure 2

Murine prostate organoids expressing SPOP-F133V show no evidence of ERG upregulation.

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Murine prostate organoids expressing SPOP-F133V show no evidence of ERG ...
(A) ERG IHC in mouse prostate organoids expressing mutant SPOP (top) or ERG fusion as a positive control (bottom). SPOP-F133V transgenic expression confirmed by GFP expression. Scale bars: 50 μm. (B) ERG immunofluorescence in mouse prostate cells expressing SPOP-F133V (top) or ERG as a positive control (bottom). Original magnification: ×1000. (C) ERG protein expression by Western blot in organoids expressing SPOP-F133V or ERG as a positive control. Representative image of 3 experiments shown. Tam, tamoxifen; TG, transgene; WB, Western blot.