Abstract
The understanding of the key role that androgens play on the normal and pathological physiology of the prostate guided the development of different therapies for the treatment of locally advanced or metastatic prostate cancer (PCa). These so-called androgen deprivation therapies include surgical or chemical castration, achieved by the administration of gonadotropin-releasing hormone analogs; inhibition of steroidogenic enzymes; and finally, blocking of the binding of androgens to their receptor (AR) by the use of antiandrogens. Despite an excellent initial response, in approximately 2 to 3 years, most of these patients will succumb to the castration resistant form of the disease. Remarkably, even in the presence of castration levels of circulating androgens, these tumors are still dependent on a functional AR, and several molecular mechanisms have been proposed to explain this phenomenon. These include: (1) gene amplification and increased expression of the AR mRNA and protein, (2) selection of mutations in the AR that confer broader ligand specificity, (3) changes in the ratios or expression between the AR and its coregulators, (4) increased expression of steroidogenic enzymes, and (5) up-regulation of cross-talk signal transduction pathways that can activate the AR in a ligand-independent manner. We will summarize how these molecular hypotheses are being tested in the clinic by the latest therapeutic modalities.
Highlights
The concept of androgen deprivation for the treatment of advanced prostate cancer was developed more than 50 years ago [1], and today, newer forms of androgen-deprivation therapies remain the first line treatment for this disease
Despite an excellent initial response, in most cases, the tumors will progress through treatment to a hormone refractory (HRPC), androgen independent (AIPC), or castration resistant prostate cancer (CRPC) stage, and once this occurs the median survival is between 18 and 24 months [5]
Together with the androgen receptor (AR), the expression of many AR-controlled genes are up-regulated in the castration resistant tumors, including the prostate specific antigen (PSA) and the recently discovered TMPRS2:ERG fusion genes, in which members of the ETS family of transcription factors, most commonly ERG, are placed under a strong androgen dependent regulation [13, 14]
Summary
The concept of androgen deprivation for the treatment of advanced prostate cancer was developed more than 50 years ago [1], and today, newer forms of androgen-deprivation therapies remain the first line treatment for this disease. Despite an excellent initial response, in most cases, the tumors will progress through treatment to a hormone refractory (HRPC), androgen independent (AIPC), or castration resistant prostate cancer (CRPC) stage, and once this occurs the median survival is between 18 and 24 months [5].
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