Advanced prostate cancer treatment failure due to cell reprogramming

prostate cancer
Micrograph showing prostatic acinar adenocarcinoma (the most common form of prostate cancer) Credit: Wikipedia

Columbia University Medical Center (CUMC) researchers have discovered a molecular mechanism that reprograms tumor cells in patients with advanced prostate cancer, reducing their response to anti-androgen therapy. The findings, based on a study in mice, could help to determine which patients should avoid anti-androgen therapy and identify new treatments for people with advanced prostate cancer.

The study was published online April14th in the journal Cancer Discovery.

Since androgens (male hormones) are known to drive prostate , patients with recurrent or advanced disease are typically treated with anti-androgen medications. However, most patients fail treatment and develop an aggressive form of prostate cancer known as castration-resistant prostate cancer, or CRPC.

"It's been a mystery why some patients do not respond to anti-androgens, and why a subset of these patients actually get worse after treatment," said study co-leader Cory Abate-Shen, PhD, the Michael and Stella Chernow Professor of Urological Oncology and professor of urology, medicine, systems biology, and pathology and cell biology at CUMC. "Our findings show that in many of these patients, the tumor cells are reprogrammed so that they are no longer dependent on androgens."

To learn about the molecular mechanisms that drive resistance to anti-androgens, Drs. Abate-Shen and Michael Shen co-led a team to develop a strain of mice that lack two tumor-suppressor genes, Trp53 and Pten. These genes are both mutated in about 25 percent of patients with advanced prostate cancer. Mice that were treated with the anti-androgen drug abiraterone failed to respond and had accelerated tumor growth—similar to some humans with advanced prostate cancer who do not respond to anti-androgen therapy.

"We found a number of genes that were overexpressed in mice with CRPC and also conserved in patients with the disease. Among the most interesting of these was SOX11, which regulates the development of the nervous system," said study co-leader Michael M. Shen, PhD, professor of medical sciences at CUMC.

Most localized, slow-growing prostate cancers are largely composed of epithelial cells, which are rich in androgen receptors that increase their susceptibility to anti-androgen therapy. In contrast, aggressive prostate cancers, particularly those that fail treatment, often contain many neuroendocrine-like cells, which lack androgen receptors and are therefore less responsive to anti-androgen therapy.

"This raised the question, where are the neuroendocrine-like cells in coming from?" said Dr. Abate-Shen. "While previous research hinted that epithelial may be reprogrammed to become neuroendocrine-like cells, our study provides the first direct evidence that this reprogramming is actually occurring and that it is mediated, at least in part, by SOX11."

The researchers also demonstrated that SOX11 acts in a similar fashion in human .

"By giving anti-androgens to patients with CRPC, we are eliminating the cancer cells that need androgen to survive and enriching the tumor with the remaining neuroendocrine-like . The net effect is to create an even more aggressive ," said Dr. Shen.

The researchers also identified several "master regulators"—genes that control SOX11 and other genes involved in prostate cancer reprogramming—that might be targeted for new cancer treatments.

"Based on our findings, genetic testing to identify SOX11 and the master regulators may be considered before embarking on anti-androgen therapy for with advanced ," said Dr. Shen.

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More information: Min Zou et al, Transdifferentiation as a Mechanism of Treatment Resistance in a Mouse Model of Castration-resistant Prostate Cancer, Cancer Discovery (2017). DOI: 10.1158/2159-8290.CD-16-1174
Journal information: Cancer Discovery

Citation: Advanced prostate cancer treatment failure due to cell reprogramming (2017, May 4) retrieved 26 January 2022 from
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