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3-beta androstanediola, a product of 3alpha-HSD from DHT binds to ER beta and down regulates AR in prostate cancer.  This study proposes that the mechanism is via CYP7B1.  CYP7B1 inactivates 3-beta androstanediol.  Interesting, because 3-beta androstanediol is considered "inactive" when compared to 3-alpha androstanediol and its interaction with ER alpha.  

another awesome article dealing with hormone metabolites. Physicians that don't understand metabolites and receptors may be doing more harm than good.   One of the mainstays of the treatment of metastatic prostate disease is androgen deprivation therapy.  This article requires a reassessment of this due to the DHT metabolite 3-beta androstanediol.  This metabolite is produced from DHT production via the enzyme 3beta HSD.  This metabolite binds to ER beta, an estrogen receptor, and inhibits proliferation, migration, promotes adhesion (limits spreading), and stimulates apoptosis.  This is contrast to 3-alpha androstanediol.  Androgen deprivation therapy will decrease 3-beta androstanediol.  This is the likely reason for the increased aggressive prostate cancer found in those men using 5 alpha reductase inhibitors.

Great article!!  Nice discussion of the complexity of hormones.  Women on aromatase inhibitors can make estrogen from Testosterone.  This is important with estrogen sensitive cancer as in breast cancer.  This will occur via alternative pathways: Testosterone to DHT via 5 alpha reductase and then DHT to 3 beta androstanediol via 3 beta HSD.  3 beta androstanediol is a male hormone metabolite that binds to estrogen receptors.  The affinity is less than Estradiol, but appears to have a higher affinity for ER beta over ER alpha. 

DHT metabolites play an important role of intra-prostate DHT synthesis in those following ADT.  This is a proposed mechanism for the failure rate and aggressive nature of prostate cancer that fails ADT.   3-alpha androstanediol is converted via 3 alpha HSD back to DHT.  In contrast, 3-beta androstanediol cannot.

ER beta plays an important role in the prostate.  Loss of ER beta expression in the prostate has been shown to promote carcinogenesis.  In addition, 3-beta androstanediol, a DHT metabolite has been shown to signal through ER beta.

The process of androgen deprivation therapy needs to be re-evaluated.  Why?  First, the CVD side effects associated with the androgen depletion.  Second, the depletion of 3 beta androstanediol that has been shown to bind to ER beta and inhibit growth.  As in this study that finds that ER beta activity slows prostate cancer through destabilizing of HIF-1 alpha and by inhibiting VEGF.

5-beta androstanediol doesn't have affinity for androgen receptors, but for estrogen receptors. Affinity for ER beta exceeds that for ER alpha.

The DHT metabolite 3beta-androstanediol found to increase proliferation of endometrial tissue in women with PCOS.  In contrast, Testosterone repressed proliferation.  

DHT metabolite 3-beta androstanediol inhibits prostate cancer via its interaction with ER beta not AR.  This study finds increased E-cadherin transcription to reduce metastasis.  Estrogen was not active, according to this study.  This implies that estrogen in early disease may have a different signal than late.

This article discusses the failure of androgen deprivation therapy and prostate cancer.  This failure is quite common.  The authors point to alpha-DHT as the primary mechanism through AR stimulation.  However, we know that DHT metabolites also stimulate estrogen receptors.

Great discussion of how 5alpha-androstane-3beta, 17beta-androstanediol interacts with ER beta as an estrogen to inhibit proliferation of the prostate and carcinogenesis.

DHT metabolites: particularly 3beta-androstanediol inhibit HPA axis through ER-beta.

Nice review of the proposed complex interaction between hormones and prostate cancer.  The complex nature of the development of cancer will likely eliminate the complete elucidation of the mechanism of prostate cancer.  However, there are many pieces that would favor: increased aromatase activity appears to play a significant role int he development of prostate cancer, clearly intraprostatic hormones are different than serum making serum evaluation of sex hormones irrelevant--the move should be to salivary hormones, and the growing knowledge of DHT metabolites in the protection of prostate cancer--3 beta androstanediol.

DHT metabolite 3-beta androstanediol has ER affinity, not AR affinity.

interesting read on the testosterone metabolite 3beta androstanediol.

Mouse study finds that DHT metabolite provides negative feedback to HPA via 3beta androstaendiol.  What is interesting is that this signaling occurred through ER beta.  Androgen signaling processed through estrogen receptors.

Full article of previously posted abstract.  DHT metabolite 3beta-diol inhibits HPA stress response via ER beta.  

Testosterone metabolite 5alpha-androstanedione-3beta,17beta-diol is associated with tumor growth inhibition through ER beta.

Good review of intra-tumor androgen synthesis from DHT metabolites.

androgen metabolites and prostate cancer promotion.