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Nathan Goodyear

Urinary Estrogens and Estrogen Metabolites and Subsequent Risk of Breast Cancer among P... - 0 views

cancerres.aacrjournals.org/...696.full

estrogen metabolites estrogen metabolism ER estrogen receptors ROS hormones cancer breast cancer

shared by Nathan Goodyear on 07 Oct 15 - No Cached
  • both 2- and 4-catechol estrogen metabolites bind to the ER with affinities comparable with estradiol, 4-catechol estrogen metabolites have lower dissociation rates than estradiol and an enhanced ability to upregulate ER-dependent processes
  • 2-catechol estrogen metabolites act as either weak mitogens (39) or weak inhibitors of cell proliferation
  • While 16α-hydroxyestrone binds to the ER with lower affinity than estradiol, it binds covalently (41) and leads to a constitutively activated ER
  • ...15 more annotations...
  • 4-hydroxyestradiol and 16α-hydroxyestrone increasing proliferation and decreasing apoptosis in a manner similar to estradiol; however, these effects were achieved only at concentrations 10-fold higher than estradiol (39). In contrast, 2-hydroxyestradiol did not have substantial proliferative or antiapoptotic effects
  • In our study, the associations with both 2-hydroxyestrone and 16α-hydroxyestrone were nonsignificantly inverse and we did not observe a consistent trend or significant associations between the 2-hydroxyestrone:16α-hydroxyestrone ratio and breast cancer risk
  • Ratios of the 3 hydroxylation pathways were not significantly associated with risk although the 2:16-pathway and 4:16-pathway ratios were suggestively inversely associated
  • a significant inverse association with the ratio of parent estrogens to estrogen metabolites
  • several potentially estrogenic and genotoxic mechanisms
  • Estrogen metabolites also can be genotoxic
  • Catechol estrogens can be oxidized into quinones and induce DNA damage directly through the formation of DNA adducts, or indirectly via redox cycling and generation of reactive oxygen species
  • the oxidized forms of the catechol estrogens differ in their ability to damage DNA through adducts, with oxidized 2-catechols forming stable and reversible DNA adducts and oxidized 4-catechols forming unstable adducts, which lead to depurination and mutations
  • 2- and 4-catechols have been shown to produce reactive oxygen species and induce oxidative DNA damage
  • act independently from the ER
  • 16α-Hydroxyestrone also may be genotoxic
  • While the catechol estrogens have estrogenic and genotoxic potential, the methylated catechol estrogens, which are catechol estrogens with one hydroxyl group methylated, have been hypothesized to lower the risk of breast cancer
  • The suggested mechanisms are indirect, by decreasing circulating levels of catechol estrogens and thereby the opportunity for catechols to exert genotoxic or proliferative effects, or direct, by inhibiting tumor growth and inducing apoptosis
  • the balance between phase I (oxidation) and phase II (methylation) metabolism of estrogen may be important in hormonally related cancer development.
  • Despite the estrogenic and genotoxic potential of many of the estrogen metabolites, we only observed a significantly increased breast cancer risk with one estrogen metabolite, 17-epiestriol, which has particularly strong estrogenic activity and binds to both ERα and ERβ with an affinity comparable with estradiol
  • Nathan Goodyear on 07 Oct 15
     
    review of estrogen metabolites and breast cancer risk in premenopausal women.
Nathan Goodyear

Estrogen receptor transcription and transactivation: Estrogen receptor alpha and estrog... - 1 views

www.ncbi.nlm.nih.gov/...PMC138655

ER alpha ER beta estrogen receptors estrogen receptor alpha estrogen receptor beta estrogen cancer

shared by Nathan Goodyear on 06 Oct 18 - No Cached
  • Nathan Goodyear on 06 Oct 18
     
    estrogen receptors are not created equally.  ER-alpha is the predominant pro-stimulatory signal receptor, whereas the ER-beta is the inhibitory receptor signaling pathway.  SERMS are not created equally as well dependent on how they bind the respective ER receptors.
  • walterbradford on 12 Oct 18
     
    Thank you for sharing
Nathan Goodyear

Transcriptional targets shared by estrogen receptor-related receptors (ERRs) and estrog... - 0 views

www.ncbi.nlm.nih.gov/...004270.pdf

estrogen related receptors estrogen receptor receptors estrogen related elements hormone hormones

shared by Nathan Goodyear on 09 Jan 13 - No Cached
  • Nathan Goodyear on 09 Jan 13
     
    estrogen related receptors play a role in estrogen signaling, though they don't bind estradiol. They bind estrogen related elements. Exact role is unknown. They are called "orphan" members of the nuclear family of receptors.
Nathan Goodyear

Circulating 2-hydroxy and 16-α hydroxy estrone levels and risk of breast canc... - 1 views

www.ncbi.nlm.nih.gov/...PMC2562592

estrogen metabolism menopause post-menopause post menopause estrogen metabolite 2-OH-estrone 16-alpha-OH-estrone 2:16alpha-OH estrone breast cancer risk hormone hormones

shared by Nathan Goodyear on 21 Aug 14 - No Cached
  • 2-OH estrogens bind to the estrogen receptor (ER) with affinity equivalent to or greater than estradiol
  • previous prospective studies have not observed any significant associations with either 2-OH or 16α-OH estrone or the ratio of the two metabolites and breast cancer risk overall.
    • Nathan Goodyear
      Nathan Goodyear on 08 Oct 15
       
      whether that risk is increased or decreased
  • it has been hypothesized that metabolism favoring the 2-OH over the 16α-OH pathway may be inversely associated with breast cancer risk (28).
  • ...24 more annotations...
  • they may act as only weak mitogens (14, 15), or as inhibitors of proliferation
  • While 16α-OH estrone binds to the ER with lower affinity than estradiol, it binds covalently (18-20) and once bound, fails to down-regulate the receptor (21). Thus, 16α-OH estrone stimulates cell proliferation in a manner comparable to estradiol in ER+ breast cancer cell lines
  • No significant associations have been observed between 2-OH estrone and breast cancer risk
  • In this large prospective study of 2-OH and 16α-OH estrone metabolites and breast cancer risk, we did not observe any significant associations overall with either individual metabolite or with the ratio of the two metabolites
  • our results do not support the hypothesis that metabolism favoring the 2-OH estrone pathway is more beneficial to breast cancer risk than that favoring the 16α-OH estrone pathway
  • To date, several epidemiologic studies have examined the association between the 2-OH and 16α-OH estrogen metabolites and breast cancer risk with inconclusive results.
  • circulating estrogen levels have been associated more strongly with ER+/PR+ tumors than with ER-/PR- tumors
  • we observed positive associations with 2-OH estrone and the 2:16α-OH estrone ratio among women with lower BMI and women with ER-/PR-tumors,
  • we observed significant positive associations of both 2-OH estrone and the 2:16α-OH estrone ratio with ER-/PR-tumors
  • Three (30, 32, 33) of four (30-33) studies observed RRs above 1 for the association between 16α-OH estrone and breast cancer risk (range of RRs=1.23-2.47); none of the point estimates was statistically significant though one trend was suggestive
  • we observed a suggestive inverse association with 16α-OH estrone and a significant positive association with the 2:16α-OH estrone ratio among lean women, suggesting possible associations in a low estrogen environment.
  • No significant associations have been observed between 2-OH estrone, 16α-OH estrone, or the 2:16α-OH estrone ratio and breast cancer risk and the direction of the estimates is not consistent across studies.
    • Nathan Goodyear
      Nathan Goodyear on 08 Oct 15
       
      better worded is no consistent, significant associations.   There are some studies that point to the 16 catecholestrogen and increased cancer risk; limited studies show negative effects of 2 catecholestrogens on cancer risk and prospective studies available pretty much dispel the idea that the 2:16 ratio has an risk predictability.
  • based on animal studies, 2-OH estrone and the 2:16α-OH estrone ratio have been hypothesized to be inversely associated with breast cancer risk
  • 16α-OH estrone increases unscheduled DNA synthesis in mouse mammary cells (27) and hence also may be genotoxic
  • Although 2-OH estrogens are capable of redox cycling, the semiquinones and quinones (i.e., the oxidized forms) form stable DNA adducts that are reversible without DNA destruction
  • In our population of PMH nonusers, we observed no associations with ER+/PR+ tumors, but significant positive associations with 2-OH estrone and the 2:16α-OH estrone ratio among women with ER-/PR- tumors
    • Nathan Goodyear
      Nathan Goodyear on 08 Oct 15
       
      one of the few studies to find this association between 2 catecholestrogens and the 2:16 ratio and ER-/PR-tumors
  • Animal and in vitro studies have shown that hydroxy estrogens can induce DNA damage either directly, through the formation of quinones and DNA adducts, or indirectly, through redox cycling and the generation of reactive oxygen species
    • Nathan Goodyear
      Nathan Goodyear on 08 Oct 15
       
      genotoxic via directe DNA adducts and indirectly via ROS; this is in addition to the proliferative effect
  • we observed a significant positive association between the 2:16α-OH estrone ratio and breast cancer risk among lean women
  • No significant associations have been observed with the 2:16α-OH estrone ratio
  • In the Danish study, no associations were observed with either ER+ or ER- tumors among PMH nonusers
  • significant positive associations with 2-OH estrone and the 2:16α-OH estrone ratio were observed among PMH users with ER+, but not ER-, tumors
  • it is possible that the genotoxicity of 2-OH estrone plays a role in hormone receptor negative tumors
  • 4-OH estrogens have a greater estrogenic potential than 2-OH estrogens, given the lower dissociation rate from estrogen receptors compared with estradiol (61), and are potentially more genotoxic since the quinones form unstable adducts, leading to depurination and mutation in vitro and in vivo
  • the balance between the catechol (i.e., 2-OH and 4-OH) and methoxy (i.e., 2-Me and 4-Me) estrogens may impact risk
  • Nathan Goodyear on 21 Aug 14
     
    The risks of estrogen metabolism are not clear cut.  Likely never will be due to the complexity of individual metabolism.  This study found no correlation between 2OH-Estrone and 2OH:16alpha-Estrone and breast cancer risk in ER+/PR+ breast cancer.  Translated: no benefit in breast cancer risk in 2OH-Estrone metabolism or increased 2OH:16alpha estrone metabolism.  There was a positive association between 2OH-Estrone and 2:16alpha-Estrone in women with ER-/PR- tumors and low BMI.
  • anonymous on 28 Oct 15
     
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Nathan Goodyear

Communication between genomic and non-genomic signaling events coordinate steroid hormo... - 0 views

www.ncbi.nlm.nih.gov/...PMC5864526

genomic signaling cancer hormones non-genomic signaling

shared by Nathan Goodyear on 10 Apr 21 - No Cached
  • steroid hormones typically interact with their cognate receptor in the cytoplasm for AR, glucocorticoid receptor (GR) and PR, but may also bind receptor in the nucleus as appears to often be the case for ERα and ERβ
  • This ligand binding results in a conformational change in the cytoplasmic NRs that leads to the dissociation of HSPs, translocation of the ligand-bound receptor to the nucleus
  • In the nucleus, the ligand-bound receptor dimerizes and then binds to DNA at specific HREs to regulate gene transcription
  • ...25 more annotations...
  • some steroid hormone-induced nuclear events can occur in minutes
  • the genomic effects of steroid hormones take longer, with changes in gene expression occurring on the timescale of hours
  • Classical steroid hormone signaling occurs when hormone binds nuclear receptors (NR) in the cytoplasm, setting off a chain of genomic events that results in, among other changes, dimerization and translocation to the nucleus where the ligand-bound receptor forms a complex with coregulators to modulate gene transcription through direct interactions with a hormone response element (HRE)
  • NRs have been found at the plasma membrane of cells, where they can propagate signal transduction often through kinase pathways
  • Membrane-localized ER, PR and AR have been reported to modulate the activity of MAPK/ERK, phosphoinositide 3-kinase (PI3K)/protein kinase B (Akt), nitric oxide (NO), PKC, calcium flux and increase inositol triphosphate (IP3) levels to promote cell processes including autophagy, proliferation, apoptosis, survival, differentiation, and vasodilation
  • ERα36, a 36kDa truncated form of ERα that lacks the transcriptional activation domains of the full-length protein. Membrane-localized ERα36 can activate pathways including protein kinase C (PKC) and/or mitogen activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) to promote the progression of various cancers
  • G protein-coupled receptor 30 (GPR30), also referred to as G protein-coupled estrogen receptor (GPER), is a membrane-localized receptor that has been observed to respond to estrogen to activate rapid signaling
  • hormone-responsive G protein coupled receptor is Zip9, which androgens can activate
  • GPRC6A is another G protein-coupled membrane receptor that is responsive to androgen
  • androgen-mediated non-genomic signaling through this GPCR can modulate male fertility, hormone secretion and prostate cancer progression
  • non-NR proteins located at the cell surface can bind to steroid hormones and respond by eliciting rapid signaling events
  • Estrogens have been shown to induce rapid (i.e. seconds) calcium flux via membrane-localized ER (mER)
  • ER-calcium dynamics lead to activation of kinase pathways such as MAPK/ERK which can result in cellular effects like migration and proliferation
  • 17β-estradiol (E2) has been reported to promote angiogenesis through the activation of GPER
  • Membrane NRs may also mediate rapid signaling through crosstalk with growth factor receptors (GFR)
  • A similar crosstalk occurs between the receptor tyrosine kinase insulin-related growth factor-1 receptor (IGF-IR) and ERα. Not only does IGF-IR activate ERα, but inhibition of IGF-IR downregulates estrogen-mediated ERα activity, suggesting that IGF-IR is essential for maximal ERα signaling
    • Nathan Goodyear
      Nathan Goodyear on 10 Apr 21
       
      This is a bombshell that shatters the current right brain approach to ER. It completely shatters the concept of eat sugar, whatever you want, with cancer treatment in ER+ or hormonally responsive cancer!
  • Further, ER activates IGF-IR pathways including MAPK
  • GPER is involved in the transactivation of the EGFR independent of classical ER
  • tight interconnection between genomic and non-genomic effects of NRs.
  • non-genomic pathways can also lead to genomic effects
  • androgen-bound AR associates with the kinase Src at the plasma membrane, activating Src which then leads to a signaling cascade through MAPK/ERK
  • However, Src can also increase the expression of AR target genes by the ligand-independent transactivation of AR
  • extranuclear steroid hormone actions can potentially reprogram nuclear NR events
  • estrogen modulated the expression of several genes including endothelial nitric oxide synthase (eNOS) via rapid signaling pathways
  • epigenetic changes can then mediate genomic events in uterine tissue and breast cancer cells
Nathan Goodyear

The Estrogen Receptor β Subtype: A Novel Mediator of Estrogen Action in Neuro... - 0 views

www.sciencedirect.com/...S0091302298901704

Estrogen receptors receptor ER alpha ER-alpha ER beta ER-beta hormone hormones

shared by Nathan Goodyear on 27 Jan 14 - No Cached
  • Nathan Goodyear on 27 Jan 14
     
    Estrogen receptors are one mechanism of the transmission of the estrogen signal.  The signal can be from estrogens themselves, estrogenic like compounds (xenoestrogens) and via non-estrogens like 3-beta androstane idol that interacts with ER beta to decrease prostate cancer cell proliferation.
Nathan Goodyear

4-Hydroxytamoxifen binds to and deactivates the estrogen-related receptor γ - 0 views

www.ncbi.nlm.nih.gov/...PMC37529

estrogen related receptors estrogen receptors estrogen receptor receptors estrogen related elements

shared by Nathan Goodyear on 08 Jan 13 - No Cached
  • Nathan Goodyear on 08 Jan 13
     
    estrogen-related receptors.  There are 3 types: alpha, beta, and gamma.  These don't respond to estrogens, but to estrogen related elements
Nathan Goodyear

Oestrogen receptor α and β mRNA expression in human endometrium throughout th... - 0 views

molehr.oxfordjournals.org/...559.full

endometrium ER-alpha ER-beta estrogen receptor alpha estrogen receptor beta estrogen receptor estrogen receptors estrogen receptor receptors alpha beta menstrual cycle human

shared by Nathan Goodyear on 07 Dec 12 - No Cached
  • Nathan Goodyear on 07 Dec 12
     
    Estrogen receptors alpha and beta show dominance in the proliferative phases, with alpha isoform predominating.  In the secretory phase, less expression of ER was present. ER alpha was predominantly expressed in the epithelial and stromal cells in the proliferative phase.  ER beta was predominantly expressed in glandular cells in the same proliferative phase.   in the luteal phase, ER alpha expression declined in the funtionalis layers.  ER alpha in the basalis remained unchanged.  ER beta in the functionalis layers also declined in the luteal phase.   No relative change was found in the weak expression of ER alpha/beta in the myometrium.
Nathan Goodyear

Estradiol and Bisphenol A Stimulate Androgen Receptor and Estrogen Receptor Gene Expres... - 0 views

www.ncbi.nlm.nih.gov/...PMC1892114

xenoestrogens bisphenol A estrogen hormone hormones androgen receptor receptors estrogen receptor prostate

shared by Nathan Goodyear on 07 Jan 13 - No Cached
  • Nathan Goodyear on 07 Jan 13
     
    Great read on the effects of bisphenol A as an xenoestrogen.  Bisphenol A is a weak estrogen, but it does increase androgen receptor and estrogen receptor alpha transcription.  This is from fetal exposure.
Nathan Goodyear

JCI - Estrogen receptors and human disease - 0 views

www.jci.org/27987

estrogen receptors receptor disease ER estrogen receptors hormones estrogen receptor ER alpha ER beta

shared by Nathan Goodyear on 23 Nov 12 - No Cached
  • Nathan Goodyear on 23 Nov 12
     
    Estrogen receptors and disease
Nathan Goodyear

Estrogen receptor related beta is expressed in human endometrium throughout the normal ... - 0 views

humrep.oxfordjournals.org/...2782.full

ER-alpha ER-beta estrogen receptor estrogen receptors estrogen receptor alpha estrogen receptor beta estrogen receptor alpha beta endometrium menstrual cycle human

shared by Nathan Goodyear on 07 Dec 12 - No Cached
  • Nathan Goodyear on 07 Dec 12
     
    ER-beta found throughout both the proliferative and secretory phases of the menstrual cycle.  ER-beta expression was higher in the proliferative versus the secretory phases, though not statistically significant.  This makes since as estrogen stimulation dominates the proliferative phase.  Additionally, ER-beta expression was found throughout all levels of the endometrium and the myometrium.
Nathan Goodyear

Estradiol and Bisphenol A Stimulate Androgen Receptor and Estrogen Receptor Gene Expres... - 0 views

www.ncbi.nlm.nih.gov/...PMC1892114

environmental toxins environment bisphenol A inflammation cancer estrogen receptors androgen receptors ER AR estrogen receptors androgen hormone hormones

shared by Nathan Goodyear on 15 Dec 12 - No Cached
  • Nathan Goodyear on 15 Dec 12
     
    environmental toxin, bisphenol A, shown to increase estrogen receptor and androgen receptor expression in the prostate.  Also, a shift from ER beta to ER alpha occurs, increase the inflammatory and proliferative signal.
Nathan Goodyear

Comparative Studies of the Estrogen Receptors β and α and the Androgen Recept... - 0 views

ajp.amjpathol.org/...fulltext

ER beta ER-beta AR androgen receptors ER alpha ER-alpha prostate disease cancer estrogen receptor hormone hormones men male

shared by Nathan Goodyear on 21 Jan 14 - No Cached
  • ER-β is predominately immunolocalized in basal cells and to a lesser extent in stromal cells of the morphologically normal human prostate
  • ER-α is detected in stromal cells and rarely in basal cells of the normal gland
  • AR was predominately localized in the nuclei of differentiated secretory cells and variably in basal cells of the normal acinar/duct unit as well as in stromal cells
  • ...9 more annotations...
  • Hall and colleagues44 have reported that ER-β functions as a transdominant inhibitor of ER-α transcription and that it acts to decrease overall cellular sensitivity to estradiol
  • The expression of ER-β was diminished in high-grade dysplasias when compared to normal glands and lower grade lesions.
  • The transition from normal to low/moderate dysplastic glands in the peripheral zone was marked by the appearance of ER-β homogeneously immunostained nuclei in secretory as well as basal cells with no changes in the localization of the other receptors.
  • proliferative signals mediated by AR in basal cells or by ER-α and AR in stromal cells may be opposed by the purported growth-inhibitory action of ER-β25, 26, 27, 28 localized in basal cells.
  • The diminution of ER-β expression in high-grade dysplasias and grade 4/5 cancers may be therefore related to the alteration of DNA methylation pattern in CpG islands of the promoter, resulting in down-regulation of the receptor at the transcriptional level
  • based on the proposed anti-proliferative function of the receptor,25, 26, 27, 28 the presence of ER-β in secretory cells of low/moderate-grade lesions may represent a transient abortive attempt to counter growth of these cells
  • the attrition of receptor-positive basal cells in the high-grade dysplasias may signify a continuing loss of growth inhibitory function mediated by ER-β in these precursor lesions
  • Our findings in prostate therefore differ from those reported for human colon cancer in which Folley and colleagues48 demonstrated that a selective loss of ER-β protein but not receptor message expression occurs in these neoplasms
  • Our findings therefore differed from those of Bonkhoff and colleagues33 who found immunostaining for the receptor in high-grade dysplasias and grade 4/5 carcinomas. Using in situ hybridization these authors also reported that a high percentage of dysplasias and carcinomas in their study contained cells that expressed ER-α message
  • Nathan Goodyear on 21 Jan 14
     
    Very nice study.  The authors looked at normal prostate, early disease and late stage prostate cancer.  The authors found that ER beta expression, as a general rule, was lost as progression occurred to the high-grade dysplasias and grad 4/5 carcinomas of the prostate.  Early low/moderate dysplasia was associated with an increase in ER beta--the authors propose that this was due to an attempt of the basal epithelium to counter the paracrine effect of ER alpha.   In contrast, androgen receptors appeared to be equally expressed across all.
Nathan Goodyear

Endogenous Estrogen Regulation of Inflammatory Arthritis and Cytokine Express... - 0 views

onlinelibrary.wiley.com/...A9BD5D2255232A4DBCA476F.d01t03

RA rheumatoid arthritis inflammation ER-alpha estrogen receptor alpha

shared by Nathan Goodyear on 26 Apr 12 - No Cached
  • Nathan Goodyear on 26 Apr 12
     
    this study looked at estrogen in rheumatoid arthritis in mice. They found an anti-inflammatory effect of estrogen in men through ER-alpha. This is in contrast to other studies. Maybe the immunomodulatory effects of estrogen is, in part, through which receptors are activated.
Nathan Goodyear

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

www.researchgate.net/...aromatase_inhibitor_resistance

breast cancer aromatase aromatase inhibitors estradiol estrogen 3-beta androstanediol Testosterone DHT 3 beta HSD receptor receptors ER alpha ER-alpha ER beta ER-beta hormone hormones women

shared by Nathan Goodyear on 21 Jan 14 - No Cached
  • Nathan Goodyear on 21 Jan 14
     
    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

Progesterone metabolites regulate induction, growth, and suppression of estrogen- and p... - 0 views

www.ncbi.nlm.nih.gov/...PMC3706910

progesterone metabolites metabolite 5-alpha pregnene 5-alpha pregnenes 5alpha-dihydroprogesterone 4-pregnene 4-pregnenes 3alpha-dihydroprogesterone breast cancer ER PR hormone hormones receptors estrogen

shared by Nathan Goodyear on 28 Jan 14 - No Cached
  • in vitro studies had shown that the progesterone metabolites, 5α-dihydroprogesterone (5αP) and 3α-dihydroprogesterone (3αHP), respectively, exhibit procancer and anticancer effects on receptor-negative human breast cell lines
  • Onset and growth of ER/PR-negative human breast cell tumors were significantly stimulated by 5αP and inhibited by 3αHP
  • When both hormones were applied simultaneously, the stimulatory effects of 5αP were abrogated by the inhibitory effects of 3αHP and vice versa
  • ...31 more annotations...
  • Treatment with 3αHP subsequent to 5αP-induced tumor initiation resulted in suppression of further tumorigenesis and regression of existing tumors
  • Tumorigenesis of ER/PR-negative breast cells is significantly enhanced by 5αP and suppressed by 3αHP, the outcome depending on the relative concentrations of these two hormones in the microenvironment in the breast regions
  • The findings show that the production of 5αP greatly exceeds that of 3αHP in ER/PR-negative tumors and that treatment with 3αHP can effectively block tumorigenesis and cause existing tumors to regress
  • hypothesis that a high 3αHP-to-5αP concentration ratio in the microenvironment may foster normalcy in noncancerous breast regions.
  • a large proportion (about 30% to 60%) of breast tumors are ER and/or PR negative
  • about 90% of normal proliferating breast epithelial cells are receptor negative
  • Our previous in vitro studies had shown that breast tissues and cell lines readily convert progesterone to 5α-pregnanes, such as 5αP, and delta-4-pregnenes, such as 3αHP (Figure ​(Figure1),1), and that tumorous breast tissues [15] and tumorigenic breast cell lines [16] produce higher levels of 5αP and lower levels of 3αHP than do normal breast tissues and nontumorigenic cell lines
  • The progesterone metabolism studies suggested that increases in 5αP and decreases in 3αHP production accompany the shift toward breast cell neoplasia and tumorigenicity
  • In vitro studies on five different human breast cell lines showed that cell proliferation and detachment are significantly increased by 5αP and decreased by 3αHP
  • the prevailing theory of hormonal regulation of breast cancer, as well as hormone-based therapies, revolves around estrogen and/or progesterone and ER/PR-positive breast cells and tumors.
  • Not only do these "receptor-negative" breast cancers fail to benefit from current hormonal therapies, but they also generally exhibit more-aggressive biologic behaviors and poorer prognosis than the receptor-positive ones
  • The results of the studies reported here show for the first time that the progesterone metabolites, 5αP and 3αHP, act as hormones that regulate ER/PR-negative breast tumor formation, growth, and regression
  • The onset of the ER/PR-negative human breast cell tumors in mice was considerably accelerated, and the growth significantly stimulated, by just one or two applications of 5αP
  • In contrast, 3αHP retarded onset of tumor formation, suppressed tumor growth, and inhibited or regressed existing 5αP-induced tumors
  • When both hormones were administered simultaneously, the effects of one were abrogated by the effects of the other.
  • The 5αPR and 3αHPR (which are associated with the plasma membranes of both ER/PR-positive [19] and ER/PR-negative [29] cells) are distinct from each other and from known ER, PR, androgen, and corticosteroid receptors, and lack affinity for other steroids, such as progesterone, estrogen, androgens, corticosteroids, and other progesterone metabolites
  • Levels of 5αPR are upregulated by 5αP itself and estradiol, and downregulated by 3αHP in both ER/PR-positive and -negative cells
  • ndications are that 5αP acts via the surface receptor-linked mitogen-activated protein kinase (MAPK; Erk1/2) pathway; 5αP significantly stimulates activation of Erk1/2 [30], increases the Bcl-2/Bax expression ratio [18] and actin depolymerization [31], and decreases expression of actin and adhesion plaque-associated vinculin [31], resulting in decreased apoptosis and increased mitosis and cell detachment
  • 3αHP appears to suppress protein kinase C (PKC), phospholipase C (PLC), Ca2+ mobilization (unpublished observations), and the Bcl-2/Bax expression ratio [18], and increases expression of the cell-cycle inhibitor p21 [18], resulting in increased apoptosis and decreased proliferation and detachment of breast cell lines.
  • serum from mice with tumors had significantly more 5αP than 3αHP
  • the tumors, which on average had about threefold higher concentrations of 5αP than the respective sera, and >10-fold higher 5αP than 3αHP levels
  • Previous in vitro metabolism studies showed that human breast tumor tissues convert significantly more progesterone to 5α-pregnanes like 5αP and less to 4-pregnenes like 3αHP than do paired normal (nontumorous) tissues
  • Similar differences in progesterone metabolism and enzyme gene expressions were observed between tumorigenic and nontumorigenic breast cell lines
  • breast carcinomas are able to synthesize progesterone
  • The current findings, along with the previous in vitro studies, suggest that the relative concentrations of 5αP and 3αHP in the breast microenvironment constitute important autocrine/paracrine determinants not only for tumorigenesis but also for potential regression of tumors and the maintenance of normalcy of ER/PR-negative breast cells/tissues.
  • Evidence presented here shows that a high concentration of 5αP, relative to 3αHP in the microenvironment, promotes initiation and growth of tumors, whereas a higher concentration of 3αHP, relative to 5αP, suppresses tumorigenesis and promotes normalcy
  • 5α-reductase and 5αPR levels are upregulated by 5αP
  • in the 3αHP-treated mice, the elevated 3αHP levels, relative to 5αP, in the microenvironment could have opposed progression to xenograft neoplasia by its inherent anticancer actions and the suppression of 5αP synthesis and 5αPR expression
  • the opposing actions of the progesterone metabolites also appear to exert some control over the estrogen-regulated effects on breast cancer by their ability to modulate ER numbers in ER-positive cells
  • because both ER/PR-negative and ER/PR-positive, as well as normal and tumorigenic human breast cell lines, have been shown to respond to 5αP and 3αHP in vitro, it is suggested that these endogenously produced progesterone metabolites may also play regulatory hormonal roles in ER/PR-positive breast cancers, as well as in the maintenance of normalcy in nontumorous breast tissues.
  • The in vivo data provide further evidence that progesterone metabolites, such as 5αP and 3αHP, deserve to be considered as active hormones in their own right, rather than inactive waste products
  • Nathan Goodyear on 28 Jan 14
     
    Progesterone metabolites and breast cancer
Nathan Goodyear

RU486 exerts antiestrogenic activities through a novel progesterone receptor A form-med... - 0 views

www.jbc.org/...11945.full.pdf+html

progesterone receptor progesterone receptor A PR-A estrogen receptor estrogen receptor progesterone

shared by Nathan Goodyear on 24 Nov 12 - No Cached
  • Nathan Goodyear on 24 Nov 12
     
    Progesterone receptor A inhibits estrogen receptors.
Nathan Goodyear

Distribution and Posttranslational Modification of Synaptic ERα in the Adult ... - 1 views

endo.endojournals.org/...819.full

estrogen receptors estrogen receptor receptors ER alpha

shared by Nathan Goodyear on 24 Feb 13 - No Cached
  • Nathan Goodyear on 24 Feb 13
     
    estrogen receptors are transported to the cell membrane after production in the rat hippocampus.  The membrane receptors have the same origin as the intracellular receptors.
Nathan Goodyear

Estrogen receptor acts as a dominant regulator of estrogen signaling - 0 views

www.nature.com/...1203828a.html

ER beta ER-beta ER alpha ER-alpha ER estrogen receptor estrogen receptors estrogen

shared by Nathan Goodyear on 09 Jun 14 - No Cached
  • Nathan Goodyear on 09 Jun 14
     
    ER-beta expression appears to regulate estrogenic activity through ER-alpha expression.  Co-expression of ER-alpha and ER-beta is associated with reduced estrogenic signaling, indicating a significant counter regulatory role for ER-beta.
Nathan Goodyear

High Progesterone Receptor Expression in Prostate Cancer Is Associated with Clinical Fa... - 0 views

www.ncbi.nlm.nih.gov/...PMC4344236

prostate cancer progesterone progesterone receptor hormones cancer prostate

shared by Nathan Goodyear on 03 Jun 18 - No Cached
  • Currently, there is a general agreement of PGR presence in the stromal cells of PCa
  • expressed in both stromal and tumor cells of the PCa tissue
  • In univariate analysis, a high density level of PGR in both TE and TS was associated with CF
  • ...17 more annotations...
  • High density level of PGR in the TE was an independent prognostic factor for CF.
  • Our large-sized study demonstrates a wide distribution of PGR in stromal and epithelial cells of both benign and malignant prostate tissue
  • there seems to be a general agreement of PGR presence in the stromal cells of PCa
  • In line with our findings, several have also reported a high PGR expression in TE of PCa [9,10,23,25]. In contrast, others have demonstrated a total lack of PGR expression in TE
  • the actions of progesterone are tissue specific
  • In our work univariate analysis demonstrated a high PGR expression in TS to be associated with clinical failure in PCa patients. So far we have not yet demonstrated the mechanism underlying this association
  • Several non-genomic proliferative actions of progesterone have been proposed in tumor cells of other organs, including breast [35–37], astrocytoma [38] and osteosarcoma [39] cell lines. However, such results are contradicted by suggestions of anti-proliferative actions of progesterone in endometrial cancer
  • Yu et al. found PGR to be negatively regulating stromal cell proliferation in vitro
  • high PGR density level in TE was associated with CF in patients with Gleason score ≥ 7
  • Bonkhoff et al. have suggested progressive emergence of PGR during PCa progression and metastasis
  • Latil and co-workers found a decreased PGR expression in clinically localized tumors and increased PGR expression in hormone-refractory tumors, when compared with normal prostate tissue
  • Our findings provide further support to these findings, indicating that PGR plays a role in the pathogenesis of PCa
  • Ki67 and PGR in TE were correlated with CF (S3 Text), indicating an association between PGR and proliferative activity
  • The mechanism behind the PGR up-regulation in PCa has not yet been elucidated
  • The PGR is, like the glucocorticoid receptor, similar to androgen receptor with 88% sequence homology in the ligand-binding domain
  • progesterone induced expression of androgen receptor-regulated genes could be a potential mechanism contributing to the development of castrate resistant PCa
  • A possibility of different roles by the two PGR isoforms in normal prostate tissue and PCa, as is suggested for the estrogen receptors [13], must also be taken into account
  • Nathan Goodyear on 03 Jun 18
     
    STudy finds that increased Progesterone receptor expression on epithelial and stromal cells is associated with increased clinical failure of therapy.  Several proposed mechanisms: 88% homologous with androgen receptor suggesting cross-stimulation and via progesterone induced increased androgen receptor gene stimulation i.e. epigenetics.
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