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Increased PrLZ-mediated androgen receptor transactivation promotes prostate cancer growth at castration-resistant stage.


ABSTRACT: Most advanced prostate cancers (PCa) will develop into the castration-resistant stage following androgen deprivation therapy, yet the molecular mechanisms remain unclear. In this study, we found PrLZ, a newly identified Prostate Leucine Zipper gene that is highly expressed in PCa could interact with the androgen receptor (AR) directly leading to enhance AR transactivation in the castration-resistant condition. PrLZ might enhance AR transactivation via a change of AR conformation that leads to promotion of AR nuclear translocation and suppression of AR degradation via modulating the proteasome pathway, which resulted in increased prostate-specific antigen expression and promoted PCa growth at the castration-resistant stage. Clinical PCa sample survey from same-patient paired specimens found increased PrLZ expression in castration-resistant PCa following the classical androgen deprivation therapy. Targeting the AR-PrLZ complex via ASC-J9® or PrLZ-siRNA resulted in suppression of PCa growth in various human PCa cells and in vivo mouse PCa models. Together, these data not only strengthen PrLZ roles in the transition from androgen dependence to androgen independence during the castration-resistant stage, but they may also provide a new potential therapy to battle PCa at the castration-resistant stage.

SUBMITTER: Li L 

PROVIDER: S-EPMC3564439 | biostudies-literature | 2013 Feb

REPOSITORIES: biostudies-literature

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Increased PrLZ-mediated androgen receptor transactivation promotes prostate cancer growth at castration-resistant stage.

Li Lei L   Xie Hongjun H   Liang Liang L   Gao Ye Y   Zhang Dong D   Fang Leiya L   Lee Soo Ok SO   Luo Jie J   Chen Xingfa X   Wang Xinyang X   Chang Luke S LS   Yeh Shuyuan S   Wang Yuzhuo Y   He Dalin D   Chang Chawnshang C  

Carcinogenesis 20121026 2


Most advanced prostate cancers (PCa) will develop into the castration-resistant stage following androgen deprivation therapy, yet the molecular mechanisms remain unclear. In this study, we found PrLZ, a newly identified Prostate Leucine Zipper gene that is highly expressed in PCa could interact with the androgen receptor (AR) directly leading to enhance AR transactivation in the castration-resistant condition. PrLZ might enhance AR transactivation via a change of AR conformation that leads to pr  ...[more]

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