Canonical AREs are tumor suppressive regulatory elements in the prostate

Augello, Michael A.; Chen, Xuanrong; Liu, Deli; Lin, Kevin; Hakansson, Alex; Sjöström, Martin; Khani, Francesca; Deonarine, Lesa D.; Liu, Yang; Travascio-Green, Jaida; Wu, Jiansheng; Loda, Massimo; Feng, Felix Y.; Robinson, Brian D.; Davicioni, Elai; Sboner, Andrea; Barbieri, Christopher E.

doi:10.1101/2024.02.23.581466

2024

DOI: 10.1101/2024.02.23.581466

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Canonical AREs are tumor suppressive regulatory elements in the prostate

Michael A. Augello,

Xuanrong Chen,

Deli Liu

et al.

Abstract: The androgen receptor (AR) is the central determinant of prostate tissue identity and differentiation, controlling normal, growth-suppressive prostate-specific gene expression. It is also a key driver of prostate tumorigenesis, becoming hijacked to drive oncogenic transcription. However, the regulatory elements determining the execution of the growth suppressive AR transcriptional program, and whether this can be reactivated in prostate cancer (PCa) cells remains unclear. Canonical androgen response element (A… Show more

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2024

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The clock gene BHLHE40 and atypical CCNG2 control androgen-induced cellular senescence as a novel tumor suppressive pathway in prostate cancer

Heidari Horestani,

Atri Roozbahani,

Baniahmad

2024

J Exp Clin Cancer Res

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Background The androgen receptor (AR) is a drug target used to inhibit AR and prostate cancer (PCa) growth. Surprisingly, treatment with supraphysiological androgen level (SAL), used in bipolar androgen therapy, inhibits growth of PCa suggesting a tumor-suppressive activity by SAL. SAL was shown to induce cellular senescence in PCa. Methods RNA-seq and transcriptome analysis, ChIP-seq, human 3D PCa spheroids, mouse xenografted castration-resistant PCa, knockdown and overexpression, Co-immunoprecipitation (Co-IP), translocation analysis, immune detection, qRT-PCR, protein–protein interaction modelling. Results Here, mice xenografts with castration-resistant PCa tumors show that SAL inhibits cancer growth in vivo suggesting that SAL activates a tumor-suppressive mechanism. RNA-seq and ChIP-seq revealed the clock gene BHLHE40 is a novel direct AR target. Compared to adjacent human prostate tissues, the expression of BHLHE40 is reduced in PCa tumors and associated with reduced survival. Knockdown suggests that BHLHE40 mediates SAL-induced cellular senescence including tumor spheroids. Interestingly, a large overlap of differentially expressed gene sets was identified between BHLHE40 and SAL leading to the identification of four classes of SAL-BHLHE40 transcriptome landscapes. Co-IP and modelling suggest binding of BHLHE40 to AR and their co-translocation into nucleus by SAL treatment. Further, RNA-seq and ChIP-seq analysis indicate that the atypical tumor suppressive cyclin G2 emerged as a novel downstream target of BHLHE40 and a mediator of SAL-induced cellular senescence. Conclusions The data provide evidence of the tumor suppressive activity of SAL and a novel signaling by the AR-BHLHE40-CCNG2 axis for androgen-induced cellular senescence, linking circadian rhythm factor to androgen signaling as a novel tumor suppressive pathway.

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The clock gene BHLHE40 and atypical CCNG2 control androgen-induced cellular senescence as a novel tumor suppressive pathway in prostate cancer

Heidari Horestani,

Atri Roozbahani,

Baniahmad

2024

J Exp Clin Cancer Res

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Canonical AREs are tumor suppressive regulatory elements in the prostate

Cited by 1 publication

References 57 publications

The clock gene BHLHE40 and atypical CCNG2 control androgen-induced cellular senescence as a novel tumor suppressive pathway in prostate cancer

The clock gene BHLHE40 and atypical CCNG2 control androgen-induced cellular senescence as a novel tumor suppressive pathway in prostate cancer

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