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Discovery Of New Prostate Cancer Biomarkers Could Improve Precision Therapy

Last updated Aug. 29, 2017

Approved by: Maulik P. Purohit MD MPH

Romina.cialdella

A new cause of treatment resistance in prostate cancer has been uncovered by investigators. Their discovery also suggests ways to improve prostate cancer therapy.


Mayo Clinic researchers have identified a new cause of treatment resistance in prostate cancer. Their discovery also suggests ways to improve prostate cancer therapy. The findings appear in Nature Medicine. In the publication, the authors explain the role of mutations within the SPOP gene on the development of resistance to one class of drugs. SPOP mutations are the most frequent genetic changes seen in primary prostate cancer. These mutations play a central role in the development of resistance to drugs called BET-inhibitors.

BET, bromodomain and extra-terminal domain, inhibitors are drugs that prevent the action of BET proteins. These proteins help guide the abnormal growth of cancer cells.

As a therapy, BET-inhibitors are promising, but drug resistance often develops, says Haojie Huang, Ph.D., senior author and a molecular biologist within Mayo Clinic's Center for Biomedical Discovery. Prostate cancer is among the most diagnosed malignancies in the United States. It is also the third leading cause of cancer death in American men, according to the American Cancer Society. Because of this, says Dr. Huang, improving treatments for prostate cancer is an important public health goal.

In the publication, the authors report SPOP mutations stabilize BET proteins against the action of BET-inhibitors. By this action, the mutations also promote cancer cell proliferation, invasion and survival.

"These findings have important implications for prostate cancer treatment, because SPOP mutation or elevated BET protein expression can now be used as biomarkers to improve outcome of BET inhibitor-oriented therapy of prostate cancer with SPOP mutation or BET protein overexpression," says Dr. Huang. Mutations in the SPOP gene can then be used to guide administration of anti-cancer drugs in patients with prostate cancer: The Nature Medicine publication presents four major discoveries:

  • BET proteins (BRD2, BRD3 and BRD4) are true degradation substrates of SPOP.
  • SPOP mutations cause elevation of BET proteins in prostate cancer patient specimens.
  • Expression of SPOP mutants leads to BET-inhibitor resistance and activation the AKT-mTORC1 pathway that promotes cancerous cell growth and survival.
  • Co-administration of AKT inhibitors overcomes BET inhibitor resistance in SPOP-mutated prostate cancer. Mayo Clinic Ventures, the technology commercialization arm of Mayo Clinic, has a patent application in place for this promising prostate cancer biomarker and therapeutic technology.


Materials provided by Mayo ClinicNote: Content may be edited for style and length.

Disclaimer: DoveMed is not responsible for the accuracy of the adapted version of news releases posted to DoveMed by contributing universities and institutions.

References:

Pingzhao Zhang, Dejie Wang, Yu Zhao, Shancheng Ren, Kun Gao, Zhenqing Ye, Shangqian Wang, Chun-Wu Pan, Yasheng Zhu, Yuqian Yan, Yinhui Yang, Di Wu, Yundong He, Jun Zhang, Daru Lu, Xiuping Liu, Long Yu, Shimin Zhao, Yao Li, Dong Lin, Yuzhuo Wang, Liguo Wang, Yu Chen, Yinghao Sun, Chenji Wang, Haojie Huang. (2017). Intrinsic BET inhibitor resistance in SPOP-mutated prostate cancer is mediated by BET protein stabilization and AKT-mTORC1 activation. Nature medicine. DOI: 10.1038/nm.4379

Reviewed and Approved by a member of the DoveMed Editorial Board
First uploaded: Aug. 29, 2017
Last updated: Aug. 29, 2017