Androgen synthesis inhibitors in the treatment of castration-resistant prostate cancer

Background: Ubiquitin ligase Siah2 promotes activity of androgen receptor (AR) in prostate cancer cells. Results:The steroidogenic enzyme AKR1C3 binds and stabilizes Siah2 by blocking Siah2 self-ubiquitination and degradation. Conclusion: We identified a catalytic independent role for AKR1C3 on AR activity via Siah2. Significance: The findings may provide new targets for development of AKR1C3 inhibitors as prostate cancer therapy.

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“…Inhibitors (e.g. abiraterone) targeting the androgen biosynthetic enzyme CYP17 have shown significant activity in patients with CRPC (8,9).…”

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confidence: 99%

The Steroidogenic Enzyme AKR1C3 Regulates Stability of the Ubiquitin Ligase Siah2 in Prostate Cancer Cells

Fan

Peng

Hussain

et al. 2015

Journal of Biological Chemistry

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“…There has indeed been a great deal of excitement in the oncology field over recent success in going beyond the initial use of general steroid biosynthesis inhibitors, such as ketoconazole 7 , and testing of newer CYP17A1 inhibitors, such as abiraterone 8; 9; 10 to limit DHEA biosynthesis. Recent trials have suggested that the CYP17A1 inhibition strategy is indeed successful, with ~ 5 months of additional overall survival accruing to subjects receiving abiraterone who had already developed castration resistant prostate cancer 11; 12; 13; 14; 15 . There is, nevertheless, a major problem that remains to be overcome; while tumor cells develop steroid producing ability of their own, as in the case of prostate cancer 10; 13; 14; 15 , they are not the major biosynthetic source of steroid hormones in the body.…”

Section: ): the Problemmentioning

confidence: 99%

“…Recent trials have suggested that the CYP17A1 inhibition strategy is indeed successful, with ~ 5 months of additional overall survival accruing to subjects receiving abiraterone who had already developed castration resistant prostate cancer 11; 12; 13; 14; 15 . There is, nevertheless, a major problem that remains to be overcome; while tumor cells develop steroid producing ability of their own, as in the case of prostate cancer 10; 13; 14; 15 , they are not the major biosynthetic source of steroid hormones in the body. That title is clearly claimed by the adrenal, which dwarfs steroidogenic output by testes, ovaries or other organs, including adipose and the brain.…”

Section: ): the Problemmentioning

confidence: 99%

The hunt for a selective 17,20 lyase inhibitor; learning lessons from nature

Bird

Abbott

2016

The Journal of Steroid Biochemistry and Molecular Biology

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Given prostate cancer is driven, in part, by its responsiveness to androgens, treatments historically employ methods for their removal from circulation. Approaches as crude as castration, and more recently blockade of androgen synthesis or receptor binding, are still of limited use long term, since other steroids of adrenal origin or tumor origin can supersede that role as the ‘castration resistant’ tumor re-emerges. Broader inhibition of steroidogenesis using relatively nonselective P450 inhibitors such as ketoconazole is not an alternative since a general disruption of steroid biosynthesis is neither safe nor effective. The recent emergence of drugs more selectively targeting CYP17 have been more effective, and yet extension of life has been on the scale of months rather than years. It is now becoming clear this shortcoming arises from the adaptive capabilities of many tumors to initiate local steroid synthesis and/or become responsive to novel early pathway adrenal steroids that are synthesized when lyase activity is not selectively blocked, and ACTH rises in the face of declining cortisol feedback. Abiraterone has been described as a lyase selective inhibitor, yet its use still requires co-administration of prednisone to suppress such a rise of ACTH and fall in cortisol. So is creation of a selective lyase inhibitor even possible? Can C19 steroid production be achieved without a prominent decline in cortisol and corresponding rise in ACTH? Decades of scientific study of CYP17 in humans and nonhuman primates, as well as nature’s own experiments of gene mutations in humans, reveal ‘true’ or ‘isolated’ 17,20 lyase deficiency does quite selectively prevent C19 steroid biosynthesis whereas simple 17 hydroxylase deficiency also suppresses cortisol. We propose these known outcomes of natural mutations should be used to guide analysis of clinical trials and long term outcomes of CYP17 targeted drugs. In this review, we use that framework to re-evaluate the basic and clinical outcomes of many compounds being used or in development for treatment of castration resistant prostate cancer. Specifically, we include the nonselective drug ketoconazole, and then the CYP17 targeted drugs abiraterone, orteronel (TAK-700), galaterone (TOK-001), and VT464. Using this framework, we can fully discriminate the clinical outcomes for ketoconazole, a drug with broad specificity, yet clinically ineffective, from that of abiraterone, the first CYP17 targeted therapy that is limited by its need for prednisone co-therapy. We also can identify potential next generation CYP17 targeted drugs now emerging that show signs of being far more 17,20 lyase selective. We conclude that a future for improved therapy without substantial cortisol decline, thus avoiding prednisone co-administration, seems possible at long last.

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“…For most patients, AR signaling remains the primary oncogenic driver despite castrate testosterone levels, and its activation has been observed to be mediated through a multitude of mechanisms [3,6,7]. In this article, we review the major mechanisms through which AR signaling is sustained, including AR gene amplification and overexpression, AR mutations, constitutively active AR splice variants, and intratumoral androgen synthesis.…”

Section: Introductionmentioning

confidence: 98%

Targeting the androgen receptor in metastatic castrate-resistant prostate cancer: A review

Anantharaman

Friedlander

2016

Urologic Oncology: Seminars and Original Investigations

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Androgen synthesis inhibitors in the treatment of castration-resistant prostate cancer

Cited by 47 publications

References 116 publications

The Steroidogenic Enzyme AKR1C3 Regulates Stability of the Ubiquitin Ligase Siah2 in Prostate Cancer Cells

The Steroidogenic Enzyme AKR1C3 Regulates Stability of the Ubiquitin Ligase Siah2 in Prostate Cancer Cells

The hunt for a selective 17,20 lyase inhibitor; learning lessons from nature

Targeting the androgen receptor in metastatic castrate-resistant prostate cancer: A review

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