FKBP51 and FKBP52 regulate androgen receptor dimerization and proliferation in prostate cancer cells

Keisuke Maeda; Makoto Habara; Mitsuyasu Kawaguchi; Hiroaki Matsumoto; Shunsuke Hanaki; Takahiro Masaki; Yuki Sato; Hideyasu Matsuyama; Kazuki Kunieda; Hidehiko Nakagawa; Midori Shimada

doi:10.1002/1878-0261.13030

Molecular Oncology (Feb 2022)

FKBP51 and FKBP52 regulate androgen receptor dimerization and proliferation in prostate cancer cells

Keisuke Maeda,
Makoto Habara,
Mitsuyasu Kawaguchi,
Hiroaki Matsumoto,
Shunsuke Hanaki,
Takahiro Masaki,
Yuki Sato,
Hideyasu Matsuyama,
Kazuki Kunieda,
Hidehiko Nakagawa,
Midori Shimada

Affiliations

Keisuke Maeda: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan
Makoto Habara: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan
Mitsuyasu Kawaguchi: Graduate School of Pharmaceutical Sciences Nagoya City University Japan
Hiroaki Matsumoto: Department of Urology Graduate School of Medicine Yamaguchi University Ube Japan
Shunsuke Hanaki: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan
Takahiro Masaki: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan
Yuki Sato: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan
Hideyasu Matsuyama: Department of Urology Graduate School of Medicine Yamaguchi University Ube Japan
Kazuki Kunieda: Graduate School of Pharmaceutical Sciences Nagoya City University Japan
Hidehiko Nakagawa: Graduate School of Pharmaceutical Sciences Nagoya City University Japan
Midori Shimada: Department of Biochemistry Joint Faculty of Veterinary Science Yamaguchi University Japan

DOI: https://doi.org/10.1002/1878-0261.13030
Journal volume & issue: Vol. 16, no. 4
pp. 940 – 956

Abstract

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The growth of prostate cancer is dependent on the androgen receptor (AR), which serves as a ligand‐specific transcription factor. Although two immunophilins, FKBP51 and FKBP52, are known to regulate AR activity, the precise mechanism remains unclear. We found that depletion of either FKBP51 or FKBP52 reduced AR dimer formation, chromatin binding, and phosphorylation, suggesting defective AR signaling. Furthermore, the peptidyl‐prolyl cis/trans isomerase activity of FKBP51 was found to be required for AR dimer formation and cancer cell growth. Treatment of prostate cancer cells with FK506, which binds to the FK1 domain of FKBPs, or with MJC13, an inhibitor of FKBP52–AR signaling, also inhibited AR dimer formation. Finally, elevated expression of FKBP52 was associated with a higher rate of prostate‐specific antigen recurrence in patients with prostate cancer. Collectively, these results suggest that FKBP51 and FKBP52 might be promising targets for prostate cancer treatment through the inhibition of AR dimer formation.

Published in Molecular Oncology

ISSN: 1574-7891 (Print); 1878-0261 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://febs.onlinelibrary.wiley.com/journal/18780261

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