Androgen receptor: A key molecule in the progression of prostate cancer to hormone independence
Article first published online: 8 OCT 2003
Copyright © 2003 Wiley-Liss, Inc.
Journal of Cellular Biochemistry
Volume 91, Issue 3, pages 483–190, 15 February 2004
How to Cite
Taplin, M.-E. and Balk, S. P. (2004), Androgen receptor: A key molecule in the progression of prostate cancer to hormone independence. J. Cell. Biochem., 91: 483–190. doi: 10.1002/jcb.10653
- Issue published online: 26 JAN 2004
- Article first published online: 8 OCT 2003
- Manuscript Accepted: 25 JUL 2003
- Manuscript Received: 22 JUL 2003
- androgen receptor;
- prostate cancer;
- hormone refractory;
- steroid hormone receptor
Despite earlier detection and recent advances in surgery and radiation, prostate cancer is second only to lung cancer in male cancer deaths in the United States. Hormone therapy in the form of medical or surgical castration remains the mainstay of systemic treatment in prostate cancer. Over the last 15 years with the clinical use of prostate specific antigen (PSA), there has been a shift to using hormone therapy earlier in the disease course and for longer duration. Despite initial favorable response to hormone therapy, over a period of time these tumors will develop androgen-independence that results in death. The androgen receptor (AR) is central to the initiation and growth of prostate cancer and to its response to hormone therapy. Analyses have shown that AR continues to be expressed in androgen-independent tumors and AR signaling remains intact as demonstrated by the expression of the AR regulated gene, PSA. Androgen-independent prostate cancers have demonstrated a variety of AR alterations that are either not found in hormone naïve tumors or found at lower frequency. These changes include AR amplification, AR point mutation, and changes in expression of AR co-regulatory proteins. These AR changes result in a “super AR” that can respond to lower concentrations of androgens or to a wider variety of agonistic ligands. There is also mounting evidence that AR can be activated in a ligand independent fashion by compounds such as growth factors or cytokines working independently or in combination. These growth factors working through receptor tyrosine kinase pathways may promote AR activation and growth in low androgen environments. The clinical significance of these AR alterations in the development and progression of androgen-independent prostate cancer remains to be determined. Understanding the changes in AR signaling in the evolution of androgen-independent prostate cancer will be key to the development of more effective hormone therapy. © 2003 Wiley-Liss, Inc.