Non-canonical functions of UGT2B17 promote castrate-resistant prostate cancer progression

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Abstract

Androgen deprivation therapy is the primary treatment for advanced prostate tumors. While initially effective, tumor progression to the therapy-resistant stage is inevitable. Paradoxically, UDP-glucuronosyltransferase 2B17 (UGT2B17), the key enzyme responsible for androgen catabolism in prostate tumor cells, is upregulated in therapy-resistant tumors, though its role in tumor progression remains unclear. Here, we demonstrate that UGT2B17 possesses multiple oncogenic functions independent of androgen catabolism. It modulates protein-folding pathways, allowing tumor cells to endure therapy-induced stress. UGT2B17 also regulates transcription associated with cell division and the DNA damage response, enabling unchecked cell proliferation. Targeting the newly identified UGT2B17 functions using a combination of inhibitors reduces tumor growth in therapy-resistant tumor models, highlighting a promising therapeutic strategy. Collectively, these findings reveal a mechanism by which prostate tumors exploit UGT2B17 to evade therapy and highlight its potential as a therapeutic target in advanced prostate cancer.

Authors

Tingting Feng, Ning Xie, Lin Gao, Qiongqiong Jia, Sonia Kung, Tunc Morova, Yinan Li, Lin Wang, Ladan Fazli, Louis Lacombe, Chantal Guillemette, Eric Lévesque, Nathan A. Lack, Jianfei Qi, Bo Han, Xuesen Dong