UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interest in the physiological role of bioactive compounds present in plants has increased dramatically over the last decade. Of particular interest in relation to human health are the class of compounds known as the phytoestrogens, which embody several groups of non-steroidal oestrogens including isoflavones & lignans that are widely distributed within the plant kingdom. Data from animal and in vitro studies provide plausible mechanisms to explain how phytoestrogens may influence hormone dependent states, but although the clinical application of diets rich in these oestrogen mimics is in its infancy, data from preliminary studies suggest potential beneficial effects of importance to health. Phytoestrogens are strikingly similar in chemical structure to the mammalian oestrogen, oestradiol, and bind to oestrogen receptors (ER) with a preference for the more recently described ER beta. This suggests that these compounds may exert tissue specific effects. Numerous other biological effects independent of the ER (e.g. antioxidant capacity, antiproliferative and antiangiogenic effects) have been ascribed to these compounds. Whether phytoestrogens have any biological activity in humans, either hormonal or non hormonal is a contentious issue and there is currently a paucity of data on human exposure. Much of the available data on the absorption and metabolism of dietary phytoestrogens is of a qualitative nature; it is known that dietary phytoestrogens are metabolised by intestinal bacteria, absorbed, conjugated in the liver, circulated in plasma and excreted in urine. Recent studies have addressed quantitatively what happens to isoflavones following ingestion--with pure compound and stable isotope data to compliment recent pharmacokinetic data for soy foods. The limited studies conducted so far in humans clearly confirm that soya isoflavones can exert hormonal effects. These effects may be of benefit in the prevention of many of the common diseases observed in Western populations (such as breast cancer, prostate cancer, menopausal symptoms, osteoporosis) where the diet is typically devoid of these biologically active naturally occurring compounds. However since biological effects are dependent on many factors including dose, duration of use, protein binding affinity, individual metabolism and intrinsic oestrogenic state, further clinical studies are necessary to determine the potential health effects of these compounds in specific population groups. However we currently know little about age related differences in exposure to these compounds and there are few guidelines on optimal dose for specific health outcomes.
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PMID:Potential risks and benefits of phytoestrogen-rich diets. 1274 19

Despite the historical use of estrogens in the treatment of prostate cancer (PCa) little is known about their direct biological effects on the prostate, their role in carcinogenesis, and what mechanisms mediate their therapeutic effects on PCa. It is now known that estrogens alone, or in synergism with an androgen, are potent inducers of aberrant growth and neoplastic transformation in the prostate. The mechanisms of estrogen carcinogenicity could be mediated via induction of unscheduled cell proliferation or through metabolic activation of estrogens to genotoxic metabolites. Age-related changes and race-/ethnic-based differences in circulating or locally formed estrogens may explain differential PCa risk among different populations. Loss of expression of estrogen receptor (ER)-beta expression during prostate carcinogenesis and prevention of estrogen-mediated oxidative damage could be exploited in future PCa prevention strategies. Re-expression of ER-beta in metastatic PCa cells raises the possibility of using ER-beta-specific ligands in triggering cell death in these malignant cells. A variety of new estrogenic/anti-estrogenic/selective estrogen receptor modulator (SERM)-like compounds, including 2-methoxyestradiol, genistein, resveratrol, licochalcone, Raloxifene, ICI 182,780, and estramustine are being evaluated for their potential in the next generation of PCa therapies. Increasing numbers of patients self-medicate with herbal formulations such as PC-SPES. Some of these compounds are selective ER-beta ligands, while most of them have minimal interaction with ER-alpha. Although many may inhibit testosterone production by blockade of the hypothalamal-pituitary-testis axis, the most effective agents also exhibit direct cytostatic, cytotoxic, or apoptotic action on PCa cells. Some of them are potent in interfering with tubulin polymerization, blocking angiogenesis and cell motility, suppressing DNA synthesis, and inhibiting specific kinase activities. Further discovery of other compounds with potent apoptotic activities but minimal estrogen action should promote development of a new generation of effective PCa preventive or treatment regimens with few or no side-effects due to estrogenicity. Further advancement of our knowledge of the role of estrogens in prostate carcinogenesis through metabolic activation of estrogens and/or ER-mediated pathways will certainly result in better preventive or therapeutic modalities for PCa.
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PMID:Estrogens and anti-estrogens: key mediators of prostate carcinogenesis and new therapeutic candidates. 1475 80

The incidence of and mortality from prostatic cancer in the West is higher than that in Asian countries. Migrants from Asia to western countries, who maintain their traditional diet, do not have an increased risk of prostatic cancer. This has been attributed in part to 'phyto-oestrogens' in vegetarian Asian diets. Prostatic cancer is a hormone-dependent disease and oestrogens retard the growth of prostatic tumours by interfering with the action of testosterone. Oestrogen increases the level of sex hormone-binding globulin that binds testosterone, resulting in lower free testosterone levels, thereby decreasing androgenic stimulation of the prostate. Oestrogens used to retard the growth of prostatic cancer are associated with certain undesirable side-effects. Phyto-oestrogens have weak oestrogenic potency and anticancer effects. Thus, these phytochemicals have a possible role in the prevention of hormone-dependent diseases such as prostatic cancer. Although the relative potencies of various phyto-oestrogens compared with oestradiol are low, the oestrogen receptor (ER) complexes formed byoestradiol and isoflavones have functional similarities. Also, phyto-oestrogens have a higher affinity to bind to ER-beta than ER-alpha. They are antiproliferative and inhibit tyrosine and other protein kinases which play a key role in tumorigenesis, and also inhibit the production of the potent androgen 5alpha dihydrotestosterone in the prostate. Since prostatic cancer cells usually multiply slowly and the development of this cancer can take many years before symptoms appear, the latent period provides a chemopreventive opportunity for natural therapy with phyto-oestrogens. Although phyto-oestrogens have not yet been used in long-term trials to evaluate their ability to reduce the risk of prostate carcinoma, the evidence thus far suggests that they have a protective effect against the growth of prostate tumours.
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PMID:Phyto-oestrogens and prostatic growth. 1511 28

The androgen-sensitive human prostate cancer cell line LNCaP expresses the estrogen receptor beta and androgen receptor and can be stimulated by androgens to secrete prostate-specific antigen (PSA). In this study we demonstrate the cancer protective potential of silibinin, a flavolignan derived from the fruits of Silybum marianum, which down-regulates the co-activator of the androgen receptor, the prostate epithelium-derived Ets transcription factor (PDEF) and consequently the secretion of PSA. LNCaP cells were treated with various concentrations of silibinin in the presence or in the absence of 5alpha-dihydrotestosterone (DHT). We used real-time RT-PCR to quantify mRNA expression of PDEF and PSA with gene-specific dual-labelled fluorescence probes. PSA secretion from LNCaP cells in conditioned media was measured with the Elecsys System 2010. Silibinin down-regulated PSA mRNA expression and PSA secretion in conditioned medium under basal and DHT (10(-8) M) stimulated conditions, which was paralleled by PDEF down-regulation. DHT alone stimulated PDEF and PSA gene expression and PSA secretion. The down-regulation of basal as well as DHT stimulated PDEF and PSA by silibinin demonstrates the antiproliferative potential of this agent. These effects underline the possible therapeutic use of silibinin in the management of prostate cancer.
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PMID:Silibinin down-regulates prostate epithelium-derived Ets transcription factor in LNCaP prostate cancer cells. 1512 82

Prostate cancer remains the number one cause of noncutaneous cancer, with 220,900 new cases predicted for the year 2003 alone. Of the more promising classes of compounds studied thus far for the treatment of prostate cancer, estrogens of various types have consistently exhibited antitumor activities both in vitro and in vivo. For this reason, we have synthesized and screened a library of unique 17alpha/11beta modified 17beta-estradiol (E(2)) analogues designed for estrogen receptor beta (ER-beta) specificity and a potential for cytotoxic activity directed toward prostate cancer cells. From this library, the novel compound 17alpha-20Z-21-[(4-amino)phenyl]-19-norpregna-1,3,5(10),20-tetraene-3,17beta-diol (APVE(2)) was identified as the primary lead, found to induce a high level (>90%) of cell death through an apoptotic mechanism, with an EC(50) of 1.4, 2.7, and 16 nM in the LNCaP, PC3, and DU145 cell lines, respectively. APVE(2) was found to bind to ER-beta, albeit weakly, with an EC(50) of 250 nM and a binding activity of 6.2% relative to E(2), nearly two orders of magnitude less than the concentration required to induce apoptosis. APVE(2) bound preferentially to ER-beta by 7-fold over ER-alpha, and did not induce growth in the MCF-7 cell line, thus indicating that it is not a classical ER agonist. Furthermore, the cytotoxic actions of APVE(2) were not reversed by co-treatment with a 50-fold excess E(2). In summary, a novel 17 modified estrogen APVE(2) was identified as a lead compound, capable of inducing apoptosis in three prostate cancer cell lines at low nanomolar concentrations, through a mechanism inconsistent with an ER-mediated mechanism.
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PMID:The novel estrogen 17alpha-20Z-21-[(4-amino)phenyl]-19-norpregna-1,3,5(10),20-tetraene-3,17beta-diol induces apoptosis in prostate cancer cell lines at nanomolar concentrations in vitro. 1514 Oct 16

Genistein, a component of soy, has been reported to protect against spontaneously developing prostate tumors in the transgenic adenocarcinoma of mouse prostate (TRAMP) model. This is consistent with reports showing that Asians eating a diet high in soy have reduced incidence of clinically manifested prostate cancer. In order to understand the mechanism of action of genistein, we have investigated the expression of androgen and estrogen receptors, four growth factor receptors that signal via tyrosine protein kinases, and specific growth factor proteins in the dorsolateral prostates of TRAMP mice fed 250 mg genistein/kg diet, starting at 5 weeks of age. These analyses were carried out at 12 weeks, prior to the development of solid tumors, allowing us to readily investigate cell proliferation and biomarkers in premalignant tissue. Cell proliferation, AR, ER-alpha, EGFR, ErbB2, EGF, IGF-1R, IGF-1, VEGFR2, ERKs-1 and 2 proteins and TGF-alpha mRNA, but not ER-beta and VEGF, were significantly increased in prostates of TRAMP compared to C57BL/6 mice. Genistein in the diet significantly down-regulated cell proliferation, EGFR, IGF-1R, ERK-1 and ERK-2, but not AR, ER-alpha, ER-beta, ErbB2, EGF, TGF-alpha, IGF-1, VEGF and VEGFR in prostates of TRAMP mice. Serum testosterone and dihydrotestosterone concentrations were not significantly different in C57BL/6 or TRAMP male mice fed control or genistein-containing diets. The up-regulation of sex steroid receptors and multiple growth signaling pathways in TRAMP mice supports the concept of multiple dysregulation contributing to carcinogenesis. Down-regulation of the tyrosine kinase regulated proteins, EGFR and IGF-1R, and of the downstream mitogen-activated protein kinases, ERK-1 and 2, with genistein in the diet provides a possible mechanism for prostate cancer chemoprevention.
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PMID:Genistein alters growth factor signaling in transgenic prostate model (TRAMP). 1514 38

Estrogen receptor (ER)-beta is thought to exert anti-proliferative effects in the normal prostate but supports prostate cancer (PCa) cell survival. We previously reported that the receptor's expression declined as PCa developed in the gland but reappeared in lymph node and bone metastases. To investigate whether hypermethylation was the underlying mechanism for these phenomena, we first identified two CpG islands (CGIs) encompassing 41 CpG dinucleotides, located separately in the untranslated exon 0N and the promoter region of ER-beta. Using immunostained, laser capture-microdissected samples from 56 clinical specimens, we demonstrated an inverse relationship exists between the extent of ER-beta CGI methylation and receptor expression in normal, hyperplastic, premalignant, and malignant foci of the prostate and in lymph node and bone metastases. Treatment of PCa cell lines (LNCaP and DU145), that express little ER-beta mRNA, with a demethylating agent increased levels of receptor expression thus corroborating our in vivo findings that methylation is involved in ER-beta silencing. Methylation centers in the promoter region and exon 0N were identified by hierarchical cluster analysis of bisulfite sequencing data obtained from 710 alleles. Methylation at these centers was insignificant in normal epithelium, reached 80 to 90% in grade 4/5 PCa, but declined to less than 20% in bone metastases. In addition, progressive methylation spreading from the exonic CGI to the promoter CGI, which correlated with loss of ER-beta expression, was detected in microdissected samples and in cell cultures. Using a new class of methylated oligonucleotides that mediate sequence-specific methylation in cellulo, we demonstrated that methylation of the promoter CGI, but not the exonic CGIs, led to transcriptional inactivation of ER-beta. Our results present the first evidence that epigenetic regulation of ER-beta is a reversible and tumor stage-specific process and that gene silencing via methylated oligonucleotides may have therapeutic potential in the treatment of advanced PCa.
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PMID:Dynamic regulation of estrogen receptor-beta expression by DNA methylation during prostate cancer development and metastasis. 1516 24

In mice fed a diet supplemented with red clover isoflavones the prostatic epithelium displays a significant increase in the production of estrogen receptor beta and the adhesion protein E-cadherin but a decrease in transforming growth factor beta1. These proteins are estrogenically-induced markers of proliferation, maintenance of histological architecture, preservation of cell phenotype and reduction of the potential for neoplastic and metastatic transformation. This study suggests that red clover isoflavones represent a non-toxic dietary treatment for prostatic hyperplasia and a reduction in the potential for neoplastic transformation.
Prostate Cancer Prostatic Dis 2002
PMID:In the prostatic epithelium, dietary isoflavones from red clover significantly increase estrogen receptor beta and E-cadherin expression but decrease transforming growth factor beta1. 1519 25

The characterization of estrogen receptor beta (ERbeta) brought new insight into the mechanisms underlying estrogen signaling. Estrogen induction of cell proliferation is a crucial step in carcinogenesis of gynecologic target tissues, and the mitogenic effects of estrogen in these tissues (such as breast, endometrium and ovary) are well documented both in vitro and in vivo. There is also an emerging body of evidence that colon and prostate cancer growth is influenced by estrogens. In all of these tissues, most studies have shown decreased ERbeta expression in cancer as compared with benign tumors or normal tissues, whereas ERalpha expression persists. The loss of ERbeta expression in cancer cells could reflect tumor cell dedifferentiation but may also represent a critical stage in estrogen-dependent tumor progression. Modulation of the expression of ERalpha target genes by ERbeta or ERbeta-specific gene induction could explain that ERbeta has a differential effect on proliferation as compared with ERalpha. ERbeta may exert a protective effect and thus constitute a new target for hormone therapy, such as ligand specific activation. The potential distinct roles of ERalpha and ERbeta expression in carcinogenesis, as suggested by experimental and clinical data, are discussed in this review.
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PMID:Loss of ERbeta expression as a common step in estrogen-dependent tumor progression. 1536 53

Prostate cancer growth depends, in its earlier stages, on androgens and is usually pharmacologically modulated with androgen blockade. However, androgen-ablation therapy may generate androgen-independent prostate cancer, often characterized by an increased invasiveness. We have found that the 5alpha-reduced testosterone derivative, dihydrotestosterone (the most potent natural androgen) inhibits cell migration with an androgen receptor-independent mechanism. We have shown that the dihydrotestosterone metabolite 5alpha-androstane-3beta,17beta-diol (3beta-Adiol), a steroid which does not bind androgen receptors, but efficiently binds the estrogen receptor beta (ERbeta), exerts a potent inhibition of prostate cancer cell migration through the activation of the ERbeta signaling. Very surprisingly, estradiol is not active, suggesting the existence of different pathways for ERbeta activation in prostate cancer cells. Moreover, 3beta-Adiol, through ERbeta, induces the expression of E-cadherin, a protein known to be capable of blocking metastasis formation in breast and prostate cancer cells. The inhibitory effects of 3beta-Adiol on prostate cancer cell migration is counteracted by short interfering RNA against E-cadherin. Altogether, the data showed that (a) circulating testosterone may act with estrogenic effects downstream in the catabolic process present in the prostate, and (b) that the estrogenic effect of testosterone derivatives (ERbeta-dependent) results in the inhibition of cell migration, although it is apparently different from that linked to estradiol on the same receptor and may be protective against prostate cancer invasion and metastasis. These results also shed some light on clinical observations suggesting that alterations in genes coding for 3beta-hydroxysteroid dehydrogenases (the enzymes responsible for 3beta-Adiol formation) are strongly correlated with hereditary prostate cancer.
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PMID:The androgen derivative 5alpha-androstane-3beta,17beta-diol inhibits prostate cancer cell migration through activation of the estrogen receptor beta subtype. 1595 94

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