UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Circulating estrone sulfate levels are 10-fold higher than the free estrone and estradiol levels in postmenopausal women and could form a reservoir from which the free estrogens could be synthesized in situ in breast cancer tissues. The enzymes catalyzing conversion of estrone sulfate to free estrone and estradiol are estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase, respectively. Selective blockade of these two enzymes may provide a means of reducing tumor estrogen levels and promoting tumor regression. The present study characterized the kinetics of several potential inhibitors of estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase in vitro in rat breast tumors and compared these effects to those in human tissues. The antiestrogen ICI 164384 as well as tamoxifen and its metabolites inhibit estrone sulfatase via noncompetitive mechanisms at Kis ranging from 11-1130 microM in rat breast tumors. The steroid sulfates (pregnenolone sulfate and dehydroepiandrosterone sulfate) on the other hand, act as competitive inhibitors with Kis ranging from 4 to 6 microM. ICI 164384 and the tamoxifen metabolite 4-hydroxytamoxifen also blocked 17 beta-hydroxysteroid dehydrogenase at concentrations of 470 and 275 microM, respectively. In human breast tumors, 4-hydroxytamoxifen and desmethyltamoxifen blocked estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase but at higher concentrations than in the rat (i.e. IC50s of 1000-2000 microM). The inhibition caused by the antiestrogens requires concentrations at least 100-fold higher than those necessary for antiestrogenic effects. Although blockade of enzyme action is significant in vitro, and could also be in vivo, the effects of antiestrogens on enzyme inhibition are likely to be outweighed by their ability to block estrogen receptor-mediated effects in patients.
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PMID:Inhibition of estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase by antiestrogens. 838 10

It has been demonstrated that reductive 17 beta-hydroxysteroid dehydrogenase activity (17-HSD) in the human breast cancer cell line MCF-7 can be stimulated by 17 beta-estradiol (E2), progesterone (P) and interleukin-6 (IL-6). We have examined the interactive effects of these factors on growth and reductive 17-HSD activity of MCF-7 cells cultured under defined conditions in phenol red-free medium. E2 stimulated growth of MCF-7 cells in a dose-dependent manner, while IL-6 had a growth inhibitory effect and in combination with E2, it reduced or abolished the stimulatory effects of the steroid. Both E2 and IL-6 stimulated 17-HSD activity by a maximum of 2- to 5-fold, but, in combination, the stimulatory effects ranged from 7- to 10-fold, indicating a strong synergism between the 2 factors. P had growth stimulatory effects on MCF-7, but when combined with IL-6 had no further positive or negative growth effects. Both factors stimulated reductive 17-HSD activity and simultaneous treatment with P and IL-6 indicated a synergy between the 2 factors. These results provide evidence of powerful interactive effects between steroidal and paracrine control of human breast epithelial cells in vitro.
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PMID:Interactive effects of interleukin-6, 17 beta-estradiol and progesterone on growth and 17 beta-hydroxysteroid dehydrogenase activity in human breast carcinoma cells. 839 37

A susceptibility gene for hereditary breast-ovarian cancer, BRCA1, has been assigned by linkage analysis to chromosome 17q21. Candidate genes in this region include EDH17B2, which encodes estradiol 17 beta-hydroxysteroid dehydrogenase II (17 beta-HSD II), and RARA, the gene for retinoic acid receptor alpha. We have typed 22 breast and breast-ovarian cancer families with eight polymorphisms from the chromosome 17q12-21 region, including two in the EDH17B2 gene. Genetic recombination with the breast cancer trait excludes RARA from further consideration as a candidate gene for BRCA1. Both BRCA1 and EDH17B2 map to a 6 cM interval (between THRA1 and D17S579) and no recombination was observed between the two genes. However, direct sequencing of overlapping PCR products containing the entire EDH17B2 gene in four unrelated affected women did not uncover any sequence variation, other than previously described polymorphisms. Mutations in the EDH17B2 gene, therefore do not appear to be responsible for the hereditary breast-ovarian cancer syndrome. Single meiotic crossovers in affected women suggest that BRCA1 is flanked by the loci RARA and D17S78.
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PMID:Genetic mapping of the breast-ovarian cancer syndrome to a small interval on chromosome 17q12-21: exclusion of candidate genes EDH17B2 and RARA. 840 1

Estradiol levels in breast tumors from post-menopausal women are similar to those in pre-menopausal women even though plasma estrogens are much lower after the menopause. In situ estrogen production by the tumor provides a potential means of maintaining high estradiol levels in post-menopausal breast cancer tissue. The estrone sulfatase pathway has been proposed as the mediator of in situ estrogen production. A number of studies suggest that estrone sulfate may be converted into estradiol in breast tumors via the catalytic activity of estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase. However, these studies used pharmacologic levels of estrogen sulfates and have not shown that physiologic levels can support biologic effects. Accordingly, the present study examined the dose relationship of estrone sulfate to a variety of biologic endpoints in MCF-7 breast cancer cells in culture. These cells converted physiologic concentrations of estrone sulfate to quantities of free estradiol capable of stimulating cell growth. Under these conditions, the nuclear steroids observed were free estrone and estradiol. Increase in cell number after 6 days of exposure to steroid required 100 nM estrone sulfate. However, S-phase, a more sensitive measure of cell proliferation, was stimulated by 0.1 nM estrone sulfate, a clearly physiologic concentration. Stimulation of estrogen-dependent protein markers such as pS2 and progesterone receptor required much higher concentrations of estrone sulfate. These effects were mediated through the estrogen receptor since the pure anti-estrogen, ICI 164384, blocked all effects produced by estrone sulfate. While it has been suggested that anti-estrogens may partly exert their effects by inhibition of sulfatase and 17 beta-hydroxysteroid dehydrogenase, this did not occur under our experimental conditions. These data provide evidence of the relevance of the estrone sulfatase pathway since biologic effects can be demonstrated in response to physiologic concentrations of estrone sulfate.
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PMID:Estrone sulfate promotes human breast cancer cell replication and nuclear uptake of estradiol in MCF-7 cell cultures. 847 38

Enzymes with 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity catalyse reactions between the low-active female sex steroid, estrone, and the more potent estradiol, for example. 17 beta-HSD activity is essential for glandular (endocrine) sex hormone biosynthesis, but it is also present in several extra-gonadal tissues. Hence, 17 beta-HSD enzymes also take part in local (intracrine) estradiol production in the target tissues of estrogen action. Four distinct 17 beta-HSD isozymes have been characterized so far, and the data strongly suggests that different 17 beta-HSD isozymes have distinct roles in endocrine and intracrine metabolism of sex steroids. Current data suggest that 17 beta-HSD type 1 is the principal isoenzyme involved in glandular estradiol production both in humans and rodents. During ovarian follicular development and luteinization, rat 17 beta-HSD type 1 is regulated by gonadotropins, and the effects of gonadotropins are modulated by steroid hormones and paracrine growth factors. Human 17 beta-HSD type 1 favors the reduction reaction, thereby converting estrone to estradiol both in vitro and in cultured cells. Hence, the enzymatic properties of the enzyme are also in line with its suggested role in estradiol biosynthesis. Interestingly, 17 beta-HSD type 1 is also expressed in certain target tissues of estrogen action such as normal and malignant human breast and endometrium. Hence, 17 beta-HSD type 1 could be one of the factors leading to a relatively high tissue/plasma ratio of estradiol in breast cancer tissues of postmenopausal women. We conclude that 17 beta-HSD type 1 has a central role in regulating the circulating estradiol concentration as well as its local production in estrogen target cells.
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PMID:Role of 17 beta-hydroxysteroid dehydrogenase type 1 in endocrine and intracrine estradiol biosynthesis. 854 77

Synthesis of the biologically active oestrogen, oestradiol, within breast tumours makes an important contribution to the high concentrations of oestrogens which are present in malignant breast tissues. In breast tumours, oestrone is preferentially converted to oestradiol by the Type I oestradiol 17 beta-hydroxysteroid dehydrogenase (E2DH). Several growth factors, such as insulin-like growth factor Type I, and cytokines, such as Tumour Necrosis Factor alpha (TNF alpha), have been shown to stimulate E2DH activity in MCF-7 breast cancer cells. As little is known about the regulation of Type I E2DH expression and activity in other breast cancer cell lines, the expression and activity of this enzyme was examined in other oestrogen receptor positive and also oestrogen receptor negative breast cancer cell lines. As it is possible that E2DH activity may be limited by co-factor availability, the effects of exogenous co-factors on enzyme activity in these cell lines was also investigated. For T47D and BT20 breast cancer cells, the addition of exogenous co-factors was found to enhance enzyme activity. TNF alpha, in addition to stimulating E2DH activity in MCF-7 cells, also increased activity in T47D and MDA-MB-231 cells, although to a lesser extent than in MCF-7 cells. An investigation of signalling pathways involved in the regulation of E2DH activity revealed that stimulation of both the protein kinase C (PKC) and PKA pathways may be involved in regulation of E2DH activity. As several growth factors and cytokines have now been found to be involved in regulating E2DH activity, the role that macrophages and lymphocytes have in supplying these factors and the mechanism by which these factors may stimulate tumour growth, is also reviewed.
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PMID:The role and proposed mechanism by which oestradiol 17 beta-hydroxysteroid dehydrogenase regulates breast tumour oestrogen concentrations. 854 83

Human 17 beta-hydroxysteroid dehydrogenase type 1 (17HSD type 1) catalyzes primarily the reductive reaction of estrone to the biologically more active form, estradiol. The enzyme is highly expressed in the human placenta and the ovary and, in addition, in certain estrogen target cells, such as breast epithelial cells. To elucidate the transcriptional control of the EDH17B2 gene, the gene encoding 17HSD type 1, we fused a series of 5'-deletion mutants of the EDH17B2 gene into chloramphenicol acetyl transferase reporter gene vectors. An enhancer region was identified within the bases -661 to -392 and it increased, in both orientations, thymidine kinase promoter activity more than 200-fold in JEG-3 choriocarcinoma cells. This enhancer region was also functional in another choriocarcinoma cell line, JAR, although to a lesser extent. In BT-20 and T-47D breast cancer cells the enhancer region increased thymidine kinase promoter activity to some degree but not as efficiently as expected on the basis of endogenous enzyme expression. No such enhancer activity was observed in 17HSD type 1 nonexpressing cell lines. The retinoic acid responsive element, which was located between bases -503 and -487 in the EDH17B2 enhancer, bound retinoid acid receptor alpha retinoid X receptor alpha complex and transmitted retinoic acid induction on transcription in JEG-3 and T-47D cells. Finally, a silencer, functional in all the cell lines tested, was localized in the region from -392 to -78. Deletion of the region lad to a 4-fold increase in reporter gene expression. Altogether, our findings suggest that transcriptional control of the EDH17B2 gene is coordinated by the cell-specific enhancer and the silencer.
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PMID:Coordination of transcription of the human 17 beta-hydroxysteroid dehydrogenase type 1 gene (EDH17B2) by a cell-specific enhancer and a silencer: identification of a retinoic acid response element. 861

The in situ formation of estradiol plays an important role in the development and biological behavior of human breast cancer Aromatase and 17 beta-hydroxysteroid dehydrogenase type 1 (17 beta-HSD type 1) are two principal enzymes involved in in situ estradiol production. We evaluated the expression of aromatase and 17 beta-HSD type 1 by immunohistochemistry in 41 cases of invasive breast carcinoma (19 lobular and 22 ductal). We then examined the correlation among the expression of these enzymes, estrogen (ER) and progesterone (PR) receptor status, Ki67 labeling index of carcinoma cells, age, and the clinical stage of the patients. Marked aromatase immunoreactivity was observed in stromal cells around carcinomatous glands in 32 of 41 cases (78%), and 17 beta-HSD type 1 immunoreactivity was detected in carcinoma cells in 23 of 41 cases (56%). There was a significant correlation observed between expression of 17 beta-HSD type 1 and aromatase in invasive lobular carcinoma (P = 0.0119), but not in invasive ductal carcinoma. There was an inverse correlation between aromatase and ER status in invasive ductal carcinoma (P = 0.0213), but not in invasive lobular carcinoma. No other correlations were observed among 17 beta-HSD type 1, aromatase, PR, ER, clinical stage, age, and Ki67 labeling indexes. Aromatase and 17 beta-HSD are not always expressed simultaneously in human breast carcinoma, but their simultaneous expression is more frequent in invasive lobular carcinoma than invasive ductal carcinoma. Consequently, different mechanisms may be involved in the regulation of expression of these two enzymes in human breast carcinoma.
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PMID:Aromatase and 17 beta-hydroxysteroid dehydrogenase type 1 in human breast carcinoma. 892 58

To develop inhibitors of 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) without residual estrogenic activity, the synthesis of 16 alpha-(bromoalkylamide) derivatives of estradiol was performed starting from a key intermediate aldehyde obtained from commercially available estrone. In addition, series of 16 alpha-(bromoalkyl) and 16 alpha-(bromoalkynyl) derivatives of estradiol were also prepared as model compounds. All new compounds inhibited human placental cytosolic 17 beta-HSD (type 1) with IC50 values ranging from 1.7 to 10.6 microM. From these results, we observed that a primary bromide produces a greater inhibition of 17 beta-HSD activity than secondary bromide, and that a shorter 16 alpha-side chain increases the inhibiting activity. In the estrogen-sensitive ZR-75-1 human breast cancer cell line, the 16 alpha-(bromoalkylamide)-estradiol series had no estrogenic activity at 30 nM, and only the compound with a shorter side chain length showed an estrogenic activity at 1000 nM. Interestingly, at this concentration, the compound with an intermediate side chain length showed an antiestrogenic activity of 74%, whereas the compound with the longer side chain length showed 34% of antiestrogenic activity. In this test, other 17 beta-HSD inhibitors (without bromoalkylamide side chain) were fully estrogenic. Among synthesized compounds, the estradiol derivative 4 (N-butyl, N-methyl, 9-[3',17' beta-(dihydroxy)-1',3',5'(10')-estratrien-16' alpha-yl]-7-bromononamide) was the best compromise for a dual-action inhibitor. This compound inhibited moderately and reversibly the 17 beta-HSD type 1 activity, but possessed no estrogenic activity and exhibited antiestrogenic activity in the ZR-75-1 cell line.
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PMID:Synthesis and evaluation of estradiol derivatives with 16 alpha-(bromoalkylamide), 16 alpha-(bromoalkyl) or 16 alpha-(bromoalkynyl) side chain as inhibitors of 17 beta-hydroxysteroid dehydrogenase type 1 without estrogenic activity. 893 31

The past four decades of epidemiological research have yielded valuable information on the risks of populations to environmental exposures such as tobacco, asbestos, and dietary components. Prevention efforts have been focused on large-scale population-based interventions to minimize exposure to such external carcinogens. While some cancers are beginning to show a decline from changing environmental exposures, hormone-related cancers, such as breast and prostate, are becoming more prevalent. The development of these cancers appears to be closely related to endogenous exposures to circulating steroid hormones. Although prevention trials using antihormone agents are proving successful in some instances, the long-term control of these cancers necessitates a clearer understanding of the metabolism and transport of the relevant hormone in vivo. The revolution in molecular biology has provided powerful genetic tools for evaluating mechanisms of cancer causation as well as the potential to better define individual susceptibility. Using tobacco exposure as an example, we and others have demonstrated that polymorphisms in genes controlling aromatic amine metabolism provide at least a partial explanation for ethnic and individual susceptibility to bladder cancer. Similar studies have examined genetic polymorphisms in the metabolism of tobacco smoke and lung cancer risk, red meat and colorectal cancer, and aflatoxin and liver cancer. Our current studies have pursued a similar paradigm of genetic polymorphism and individual cancer susceptibility in prostate and breast carcinogenesis. We are evaluating polymorphisms in the steroid 5 alpha-reductase type II and androgen receptor genes in relation to prostate cancer based on the evidence that intracellular dihydrotestosterone is the critical "carcinogen." We are pursuing genetic polymorphisms affecting estradiol metabolism, including those in the 17 beta-hydroxysteroid dehydrogenase 2 and estrogen receptor genes as they relate to susceptibility to breast cancer. The potential role of a polymorphism in the cytochrome P450c 17 alpha gene in both breast and prostate cancers is also being examined.
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PMID:Genetic susceptibility to cancer from exogenous and endogenous exposures. 902 93

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