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Nathan Goodyear

Androgen deprivation promotes intratumoral synthesis of dihydrotestosterone from androg... - 0 views

  • PSA levels in media were increased by 3α-diol
  • Similarly to 3α-diol, 3β-diol also increased PSA levels in media in a concentration-dependent manner
  • intracellular DHT is synthesized from inactive androgen 3α- and 3β-diol via different pathways in prostate cancer cells
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    • Nathan Goodyear
       
      error in statement: DHT metabolites are not inactive, they just don't activate AR.
  • 3β-diol can be a precursor of DHT in prostate cancer cells.
  • serum 3α-diol G levels reflect the androgen milieu in localized prostate cancer patients receiving ADT
  • A few studies reported that 3β-diol is a potential ligand of estrogen receptor β (ERβ) and has an antiproliferative effect
  • our results revealed that 3β-diol is potentially a precursor of DHT in prostate cancer cells
  • Bauman et al. showed that 3α-diol is inactive at AR, but induces prostate growth
  • Prostate cancer cells promoted synthesis from the DHT metabolite 3α-diol during the long duration of ADT
    • Nathan Goodyear
       
      the authors highlight the suggestion is that 3alpha-diol's activity is via 3alpha-HSD, but fail to mention that it is known that 3alpha-diol interacts with the ER-alpha in the prostate.
  • verified the synthesis of DHT from 3α- or 3β-diol via different pathways in prostate cancer cells in this study
  • HSD17B6 expression levels in prostate cancer can be useful for the diagnosis of high-risk prostate cancer
  • serum 3α-diol G levels reflect the adrenal androgen milieu in localized prostate cancer patients
  • 3α- and 3β-diol has a much more significant role in intratumoral androgen metabolism during ADT
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    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.
Nathan Goodyear

An endocrine pathway in the prostate, ERβ, AR, 5α-androstane-3β,17β-diol, and... - 0 views

  • Although the prostate is an androgen-dependent tissue, estrogens influence both normal functions and pathological changes in this gland
  • This dual action may be due to the existence of two estrogen receptors, ERα and ERβ
  • ERα and ERβ have similar affinities for estradiol-17β
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  • In this study we have shown that regulation of the levels of 3βAdiol by CYP7B1 is a key factor in regulation of prostatic growth
  • We provide evidence that proliferating cells in the prostate epithelium have elevated levels of AR and that AR protein but not mRNA levels are regulated by ERβ and its ligand 3βAdiol in the prostate epithelium.
  • because inhibition of 5α-reductase causes accumulation of testosterone and removal of ERβ action increases the level of AR in the prostate, the overall effect of Finasteride would be to favor proliferation of the prostate epithelium
  • studies show that ERβ tends to be lost in advanced prostate cancer.
  • DHEA is converted in the body to 5-androstene-3β,17β-diol, which is also a ligand for estrogen receptors (25, 39) and a substrate for CYP7B1
  • At the peak of proliferation, the proliferating epithelial cells in the ventral prostate expressed high levels of CYP7B1 but had no detectable ERβ, whereas in nonproliferating cells the level of ERβ was high and that of CYP7B1 was low.
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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.  
Nathan Goodyear

Estrogen receptor β and the progression of prostate cancer: role of 5α-andros... - 0 views

  • In the prostate, ERβ is highly expressed in the epithelial compartment, where it is the prevailing isoform
  • In the gland, DHT may be either reversibly 3α- or irreversibly 3β-hydroxylated by the different 3α- and 3β-hydroxysteroid dehydrogenases respectively (Steckelbroeck et al. 2004); these transformations generate two metabolites respectively 3α-diol and 3β-Adiol, which are both unable to bind the AR. Instead, 3β-Adiol displays a high affinity for ERβ (Kuiper et al. 1998, Nilsson et al. 2001), and it has been proposed that this metabolite may play a key role in prostate development
  • ERβ signaling, in contrast to ERα, seems to act as a suppressor of prostate growth, and may be positively involved in breast cancer
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  • 3β-Adiol counteracts PC cell proliferation in vitro
  • 3β-Adiol counteracts the biological actions of its androgenic precursors testosterone and DHT
  • functional antagonism of 3β-Adiol appears to be molecularly independent from the activation of the androgenic pathway
  • the action of 3β-Adiol is mediated, at the molecular levels, by the estrogenic pathway.
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    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.
Nathan Goodyear

The androgen metabolite 5alpha-androstane-3beta,17beta-diol (3betaAdiol) induces breast... - 0 views

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    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. 
Nathan Goodyear

5alpha-androstane-3alpha,17beta-diol supports... [J Cell Biochem. 2008] - PubMed - NCBI - 0 views

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    5 alpha androstanediol promotes prostate cancer growth and survival independent of androgen receptors.   This study didn't clarify the mechanism.  We no know that this occurs via estrogen receptor alpha.  Thus a Testosterone metabolite signals through an estrogen receptor.
Nathan Goodyear

Intratumoral androgen biosynthesis in prostate cancer pathogenesis and response to therapy - 0 views

  • Additional studies have similarly found that prostate tissue levels of DHT in PCa patients treated with ADT therapy before prostatectomy declined by only ∼75% versus declines of ∼95% in serum levels
  • In a recent study in healthy men, treatment for 1 month with a GnRH antagonist to suppress testicular androgen synthesis caused a 94% decline in serum testosterone, but only a 70–80% decline in prostate tissue testosterone and DHT
  • progression to CRPC was associated with increased intratumoral accumulation or synthesis of testosterone.
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  • the intraprostatic synthesis of testosterone from adrenal-derived precursors likely accounts for the relatively high testosterone levels in prostate after ADT
  • In addition, AR activity in these cells is likely further enhanced by multiple mechanisms that sensitize AR to low levels of androgens
  • higher affinity ligand DHT (approximately eightfold higher affinity
  • type 2 5α-reductase (SRD5A2) being the major enzyme in prostate
  • reduce DHT to 5α-androstane-3α,17β-diol (3α-androstanediol; Ji et al. 2003, Rizner et al. 2003), which is then glucuronidated to form 3α-androstanediol glucuronide by the enzymes UDP glycosyltransferase 2, B15 (UGT2B15) or UGT2B17
  • DHT in prostate is inactivated by the enzyme AKR1C2, which is also termed 3α-hydroxysteroid dehydrogenase type 3 (3α-HSD type 3
    • Nathan Goodyear
       
      The metabolite 3-alpha androstanediol is NOT inactive as this author states.  This DHT metabolite actually can stimulate  ER alpha receptors in the prostate.
  • AKR1C1, is also expressed in prostate. However, in contrast to AKR1C2, it converts DHT primarily to 5α-androstane-3β,17β-diol (3β-androstanediol; Steckelbroeck et al. 2004), which is a potential endogenous ligand for the estrogen receptor β
  • Significantly, intraprostatic testosterone levels were not substantially reduced relative to controls with normal serum androgen levels, although DHT levels were reduced to 18% of controls
  • testosterone levels in many of the CRPC samples were actually increased relative to control tissues (Montgomery et al. 2008). While DHT levels were less markedly increased, this may have reflected DHT catabolism
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    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.
Nathan Goodyear

Production of 3α-Androstanediol Glucuronide in Human Genital Skin - 0 views

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    DHT metabolite 3 alpha-androstanediol shown to be a good assessment of peripheral DHT action.
Nathan Goodyear

3alpha-androstanediol, but not testoste... [Front Aging Neurosci. 2010] - PubMed - NCBI - 0 views

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    Now, this is a rat model, but 3 alpha androstanediol treatment restored cognitive function  greater than testosterone alone.
Nathan Goodyear

5alpha-androstane-3alpha,17beta-diol selectively activates the canonical PI3K/AKT pathw... - 0 views

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    3-alpha androstanediol known to stimulate prostate cancer cell proliferation via ER alpha with little no affinity for AR.  This study finds cell signaling via AR independent mechanism--AKT pathway.
Nathan Goodyear

Diabetic neuropathic pain: a role for testosterone metabolites - 0 views

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    Great article.  Really shows the depth of the androgens and androgen metabolites in diabetes and diabetic complications.  In this study, DHT and its metabolis 3-alpha androstanediol were shown to reduce inflammation and pain associated with diabetic neuropathy.  Significant reduction in inflammation signaling (IL-1beta, TNF-alpha) was seen as was potential neurodegenerative processes (glutamate release and astrocyte immunoreactivity).
Nathan Goodyear

Roles for the Backdoor Pathway of Androgen Metabolism in Prostate Cancer Response to Ca... - 0 views

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    "back door" DHT production from 3 alpha-androstanediol following ADT.
Nathan Goodyear

Dihydrotestosterone is a peripheral paracrine hormone. - PubMed - NCBI - 0 views

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    DHT is a paracrine hormone.  The most bioactive metabolite is 3-alpha-androstanediol.
Nathan Goodyear

Potential Prostate Cancer Drug Target: Bioactivation of Androstanediol by Conversion to... - 0 views

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    Article discusses the the conversion of 3-alpha-diol back to DHT and this role in prostate cancer in androgen deprivation therapy.  What we now know is that this metabolite interacts with ER alpha receptor to promote proliferation.  Carcinogenesis appears to be primarily an estrogen driven process and her in prostate cancer, the androgen metabolites are promoting proliferation through estrogen receptors.
Nathan Goodyear

ERβ Impedes Prostate Cancer EMT by Destabilizing HIF-1α and Inhibiting VEGF-M... - 0 views

  • Loss of ERβ1 expression also resulted in a significant increase in migration and invasion (Figure 2F), functions characteristic of an EMT
  • we hypothesized that ERβ functions as a “gatekeeper” of the epithelial phenotype
  • breast and prostate are different with respect to ER expression and function
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    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.
Nathan Goodyear

Effects of 3-beta-diol, an androgen metabolite with intrinsic estrogen-like effects, in... - 0 views

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

The Androgen Derivative 5α-Androstane-3β,17β-Diol Inhibits Prostate Cancer Ce... - 0 views

  • the dihydrotestosterone metabolite 5α-androstane-3β,17β-diol (3β-Adiol), a steroid which does not bind androgen receptors, but efficiently binds the estrogen receptor β (ERβ), exerts a potent inhibition of prostate cancer cell migration through the activation of the ERβ signaling
  • estradiol is not active
  • 3β-Adiol, through ERβ, induces the expression of E-cadherin, a protein known to be capable of blocking metastasis formation in breast and prostate cancer cells
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    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.
Nathan Goodyear

Pre-receptor regulation of the androgen receptor - 0 views

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    Great read on the regulation of the androgen receptor by the different iso forms of 5-alpha reductase and HSD.
Nathan Goodyear

http://erc.endocrinology-journals.org/content/18/5/R175.full.pdf - 0 views

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

British Journal of Cancer - Androgen metabolism in prostate cancer: from molecular mech... - 0 views

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    androgen metabolites and prostate cancer promotion.
Nathan Goodyear

JCI - Alteration in the metabolism of dihydrotestosterone in elderly men with prostate ... - 0 views

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    Even back in 1980, DHT metabolism was known.  Elderly men, 3alpha oxidoreductase is decreased resulting in decreased DHT to 3-alpha-diol.  This study discussed the DHT metabolite as inactive.  We now know that is not the case.
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