期刊
ONCOGENE
卷 40, 期 17, 页码 3087-3100出版社
SPRINGERNATURE
DOI: 10.1038/s41388-021-01754-0
关键词
-
资金
- Anniversary Fund of the Oesterreichische Nationalbank (OeNB) [18280]
The glucocorticoid receptor (GR) plays a critical role in prostate cancer therapy, and finding a targeted approach is crucial. MAO-A has been identified as a direct target of glucocorticoids, playing a significant role in prostate cancer progression. Pharmacological inhibition of MAO-A can impair cell growth in various conditions, offering an innovative therapeutic strategy to overcome therapy resistance.
Despite increasing options for treatment of castration-resistant prostate cancer, development of drug resistance is inevitable. The glucocorticoid receptor (GR) is a prime suspect for acquired therapy resistance, as prostate cancer (PCa) cells are able to increase GR signaling during anti-androgen therapy and thereby circumvent androgen receptor (AR)-blockade and cell death. As standard AR-directed therapies fail to block the GR and GR inhibitors might result in intolerable side effects, the identification of GR signature genes, which are better suited for a targeted approach, is of clinical importance. Therefore, the specific epithelial and stromal GR signature was determined in cancer-associated fibroblasts as well as in abiraterone and enzalutamide-resistant cells after glucocorticoid (GC) treatment. Microarray and ChIP analysis identified MAO-A as a directly up-regulated mutual epithelial and stromal GR target, which is induced after GC treatment and during PCa progression. Elevated MAO-A levels were confirmed in in vitro cell models, in primary tissue cultures after GC treatment, and in patients after neoadjuvant chemotherapy with GCs. MAO-A expression correlates with GR/AR activity as well as with a reduced progression-free survival. Pharmacological MAO-A inhibition combined with 2(nd) generation AR signaling inhibitors or chemotherapeutics results in impaired growth of androgen-dependent, androgen-independent, and long-term anti-androgen-treated cells. In summary, these findings demonstrate that targeting MAO-A represents an innovative therapeutic strategy to synergistically block GR and AR dependent PCa cell growth and thereby overcome therapy resistance.
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