The Role of Androgen Receptor-Target Genes in Racial Disparity of Prostate Cancer

Androgen receptor (AR) signaling plays a key role not only in the initiation of prostate cancer (PCa) but also in its transition to aggressive and invasive castration-resistant prostate cancer (CRPC). However, the crosstalk of AR with other signaling pathways contributes significantly to the emergence and growth of CRPC. Wnt/β-catenin signaling facilitates ductal morphogenesis in fetal prostate and its anomalous expression has been linked with PCa. β-catenin has also been reported to form complex with AR and thus augment AR signaling in PCa. The transcription factor SOX9 has been shown to be the driving force of aggressive and invasive PCa cells and regulate AR expression in PCa cells. Furthermore, SOX9 has also been shown to propel PCa by the reactivation of Wnt/β-catenin signaling. In this review, we discuss the critical role of SOX9/AR/Wnt/β-catenin signaling axis in the development and progression of CRPC. The phytochemicals like sulforaphane and curcumin that can concurrently target SOX9, AR and Wnt/β-catenin signaling pathways in PCa may thus be beneficial in the chemoprevention of PCa.

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Chromatin-directed proteomics-identified network of endogenous androgen receptor in prostate cancer cells

Oncogene ◽

10.1038/s41388-021-01887-2 ◽

2021 ◽

Author(s):

Kaisa-Mari Launonen ◽

Ville Paakinaho ◽

Gianluca Sigismondo ◽

Marjo Malinen ◽

Reijo Sironen ◽

...

Keyword(s):

Prostate Cancer ◽

Androgen Receptor ◽

Target Genes ◽

Epithelial Mesenchymal Transition ◽

Protein A ◽

Chorioallantoic Membrane ◽

Chromatin Accessibility ◽

Castration Resistant Prostate Cancer ◽

Novel Therapy ◽

Mesenchymal Transition

AbstractTreatment of prostate cancer confronts resistance to androgen receptor (AR)-targeted therapies. AR-associated coregulators and chromatin proteins hold a great potential for novel therapy targets. Here, we employed a powerful chromatin-directed proteomics approach termed ChIP-SICAP to uncover the composition of chromatin protein network, the chromatome, around endogenous AR in castration resistant prostate cancer (CRPC) cells. In addition to several expected AR coregulators, the chromatome contained many nuclear proteins not previously associated with the AR. In the context of androgen signaling in CRPC cells, we further investigated the role of a known AR-associated protein, a chromatin remodeler SMARCA4 and that of SIM2, a transcription factor without a previous association with AR. To understand their role in chromatin accessibility and AR target gene expression, we integrated data from ChIP-seq, RNA-seq, ATAC-seq and functional experiments. Despite the wide co-occurrence of SMARCA4 and AR on chromatin, depletion of SMARCA4 influenced chromatin accessibility and expression of a restricted set of AR target genes, especially those involved in cell morphogenetic changes in epithelial-mesenchymal transition. The depletion also inhibited the CRPC cell growth, validating SMARCA4’s functional role in CRPC cells. Although silencing of SIM2 reduced chromatin accessibility similarly, it affected the expression of a much larger group of androgen-regulated genes, including those involved in cellular responses to external stimuli and steroid hormone stimulus. The silencing also reduced proliferation of CRPC cells and tumor size in chick embryo chorioallantoic membrane assay, further emphasizing the importance of SIM2 in CRPC cells and pointing to the functional relevance of this potential prostate cancer biomarker in CRPC cells. Overall, the chromatome of AR identified in this work is an important resource for the field focusing on this important drug target.

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Androgen receptor: acting in the three-dimensional chromatin landscape of prostate cancer cells

Hormone Molecular Biology and Clinical Investigation ◽

10.1515/hmbci.2010.055 ◽

2011 ◽

Vol 5 (1) ◽

Author(s):

Harri Makkonen ◽

Jorma J. Palvimo

Keyword(s):

Prostate Cancer ◽

Androgen Receptor ◽

Cancer Cells ◽

Binding Sites ◽

Target Genes ◽

Three Dimensional ◽

Regulatory Elements ◽

Gene Promoters ◽

Loop Formation ◽

Prostate Cancer Cells

AbstractAndrogen receptor (AR) acts as a hormone-controlled transcription factor that conveys the messages of both natural and synthetic androgens to the level of genes and gene programs. Defective AR signaling leads to a wide array of androgen insensitivity disorders, and deregulated AR function, in particular overexpression of AR, is involved in the growth and progression of prostate cancer. Classic models of AR action view AR-binding sites as upstream regulatory elements in gene promoters or their proximity. However, recent wider genomic screens indicate that AR target genes are commonly activated through very distal chromatin-binding sites. This highlights the importance of long-range chromatin regulation of transcription by the AR, shifting the focus from the linear gene models to three-dimensional models of AR target genes and gene programs. The capability of AR to regulate promoters from long distances in the chromatin is particularly important when evaluating the role of AR in the regulation of genes in malignant prostate cells that frequently show striking genomic aberrations, especially gene fusions. Therefore, in addition to the mechanisms of DNA loop formation between the enhancer bound ARs and the transcription apparatus at the target core promoter, the mechanisms insulating distally bound ARs from promiscuously making contacts and activating other than their normal target gene promoters are critical for proper physiological regulation and thus currently under intense investigation. This review discusses the current knowledge about the AR action in the context of gene aberrations and the three-dimensional chromatin landscape of prostate cancer cells.

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Role of Androgen Receptor in Progression of LNCaP Prostate Cancer Cells from G1 to S Phase

PLoS ONE ◽

10.1371/journal.pone.0056692 ◽

2013 ◽

Vol 8 (2) ◽

pp. e56692 ◽

Cited By ~ 22

Author(s):

Shalini Murthy ◽

Min Wu ◽

V. Uma Bai ◽

Zizheng Hou ◽

Mani Menon ◽

...

Keyword(s):

Prostate Cancer ◽

Androgen Receptor ◽

Cancer Cells ◽

S Phase ◽

Prostate Cancer Cells

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Role of the Androgen Receptor and PI3K/Akt in the Survival of Androgen-Refractory Prostate Cancer Cells

Hormonal Carcinogenesis IV ◽

10.1007/0-387-23761-5_19 ◽

2006 ◽

pp. 233-244

Author(s):

Haojie Huang ◽

Donald J. Tindall

Keyword(s):

Prostate Cancer ◽

Androgen Receptor ◽

Cancer Cells ◽

Prostate Cancer Cells

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Aberrant corticosteroid metabolism in tumor cells enables GR takeover in enzalutamide resistant prostate cancer

eLife ◽

10.7554/elife.20183 ◽

2017 ◽

Vol 6 ◽

Cited By ~ 38

Author(s):

Jianneng Li ◽

Mohammad Alyamani ◽

Ao Zhang ◽

Kai-Hsiung Chang ◽

Michael Berk ◽

...

Keyword(s):

Prostate Cancer ◽

Androgen Receptor ◽

Glucocorticoid Receptor ◽

Tumor Cells ◽

Target Genes ◽

Hydroxysteroid Dehydrogenase ◽

Mouse Xenograft ◽

Ubiquitin E3 Ligase ◽

Metabolic Mechanism ◽

Stimulation Of

Prostate cancer is driven by androgen stimulation of the androgen receptor (AR). The next-generation AR antagonist, enzalutamide, prolongs survival, but resistance and lethal disease eventually prevail. Emerging data suggest that the glucocorticoid receptor (GR) is upregulated in this context, stimulating expression of AR-target genes that permit continued growth despite AR blockade. However, countering this mechanism by administration of GR antagonists is problematic because GR is essential for life. We show that enzalutamide treatment in human models of prostate cancer and patient tissues is accompanied by a ubiquitin E3-ligase, AMFR, mediating loss of 11β-hydroxysteroid dehydrogenase-2 (11β-HSD2), which otherwise inactivates cortisol, sustaining tumor cortisol concentrations to stimulate GR and enzalutamide resistance. Remarkably, reinstatement of 11β-HSD2 expression, or AMFR loss, reverses enzalutamide resistance in mouse xenograft tumors. Together, these findings reveal a surprising metabolic mechanism of enzalutamide resistance that may be targeted with a strategy that circumvents a requirement for systemic GR ablation.

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