NDLI: Epigenetic modification‐dependent androgen receptor occupancy facilitates the ectopic TSPY1 expression in prostate cancer cells

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Epigenetic modification‐dependent androgen receptor occupancy facilitates the ectopic TSPY1 expression in prostate cancer cells

Content Provider	Scilit
Author	Leng, Xiangyou Liu, Mohan Tao, Dachang Yang, Bo Zhang, Yangwei He, Tianrong Xie, Shengyu Wang, Zhaokun Liu, Yunqiang Yang, Yuan
Copyright Year	2020
Description	Journal: Cancer Science TSPY1 (testis‐specific protein Y‐encoded 1), a Y chromosome‐linked oncogene, is frequently activated in prostate cancers (PCa) and its expression is correlated with the poor prognosis of PCa. However, the cause leading to the ectopic transcription of TSPY1 in PCa is still unclear. Here, we observed that the methylation status in the CpG islands (CGIs) of the TSPY1 promoter was negatively correlated with its expression level in different human samples. The acetyl‐histone H4 and trimethylated histone H3‐lysine 4, two post translational modifications of histones, occupying on the TSPY1 promoter, faciliated the TSPY1 expression in PCa cells. Additionally, we found that androgen accelerated the TSPY1 trancription on condition of DNA demethylation of TSPY1‐CGIs and promoted PCa cell proliferation. Moreover, the binding of androgen receptor (AR) to the TSPY1 promoter, enhancing TSPY1 transcription, was detected in PCa cells. Taken together, our findings identify the regulation of DNA methylation, acting as a primary mechanism, on TSPY1 expression in PCa，and reveal that TSPY1 is an androgen‐AR axis‐regulated oncogene, suggesting a novel and potential target for PCa therapy
Ending Page	702
Starting Page	691
ISSN	00221295
e-ISSN	13497006
DOI	10.1111/cas.14731
Journal	Cancer Science
Issue Number	2
Volume Number	112
Language	English
Publisher	Wiley-Blackwell
Publisher Date	2020-11-13
Access Restriction	Open
Subject Keyword	Journal: Cancer Science Biochemistry and Molecular Biology Androgen Receptor Dna Methylation Prostate Cancer
Content Type	Text
Resource Type	Article
Subject	Physiology

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