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Query: UMLS:C0476089 (
endometrial cancer
)
11,379
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of trans-4-hydroxytamoxifen (OHTam) on proliferation of cells of the Ishikawa human endometrial adenocarcinoma line were studied under serum-free,
phenol
red-free conditions and compared to those of estradiol. The addition of OHTam (1 microM) to basal medium (BM), consisting of equal parts of Dulbecco's modified Eagle's medium and Ham's F-12 with additional glutamine and 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid, resulted in significant increases in cell numbers relative to controls. These effects were even greater than those obtained with estradiol (10 nM-1 microM) or 1% charcoal-treated fetal bovine serum (ctFBS). Addition of 1% ctFBS to BM containing 1 microM OHTam further increased cell numbers whereas addition of estradiol (10 nM) did not do so. The stimulation of growth was positively correlated with OHTam concentrations in the range of 10 nM to 1 microM. Dissociation of estradiol and OHTam proliferative effects was observed in a variant of Ishikawa cells in which estradiol did not increase proliferation while OHTam had a strong stimulatory effect. The growth-promoting effects of OHTam were also observed in BM containing 5% or 15% ctFBS. In contrast, in parallel experiments in which BM was replaced by minimal essential medium (Eagle's) with Earle's salts, OHTam (1 microM) did not stimulate proliferation under these conditions and acted as an antiestrogen, inhibiting the proliferative effects of estradiol. These results illustrate marked effects of medium composition on proliferation and antiestrogenic actions of OHTam. Alkaline phosphatase activity was strongly stimulated by estradiol (10 nM) but only very weakly affected by OHTam (1 microM); at these concentrations, OHTam inhibited the effect of estradiol, both in serum-free BM and in minimal essential medium plus 15% ctFBS, demonstrating dissociation in its actions on proliferation and on enzymatic activity. These findings suggest that OHTam may stimulate the proliferation of particular clones of
endometrial cancer
cells in human tumors. They also suggest that OHTam can exert effects not mediated by the estrogen receptor system, or form OHTam-estrogen receptor agonistic complexes unlike those resulting from estradiol-estrogen receptor interactions. Clearly, Ishikawa cells provide a useful model to investigate mechanisms of action of antiestrogens.
...
PMID:Stimulatory effects of 4-hydroxytamoxifen on proliferation of human endometrial adenocarcinoma cells (Ishikawa line). 270 24
Studies of hormonal growth regulation in cultured human
endometrial cancer
cells are limited by the requirement of exogenous growth factors, usually supplied by addition of serum. The present report provides evidence that estradiol can stimulate proliferation of
endometrial cancer
cells of the Ishikawa line in the absence of serum or added growth factors. Mitogenic effects of estrogen were demonstrated in two different experimental systems, in cells attached to the substratum of mammalian tissue culture dishes, and in cells forming colonies in soft agar under anchorage-independent conditions. Addition of estradiol to a mixture of serum-free,
phenol
red-free Dulbecco's minimal essential medium and Ham's F-12 medium, supplemented with L-glutamine and 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid [basal medium: (BM)] significantly increased the proliferation of cells attached to culture dishes. Dose-response experiments revealed maximal estradiol stimulation at 10 nM; significant responses were also observed at 1 nM and at 100 nM concentrations. The mitogenic effect of 10 nM estradiol was comparable to that of 1% charcoal-treated fetal bovine serum and the two effects were additive. The presence of estradiol in serum-free BM resulted in a shortening of the doubling time of exponentially proliferating cells from 38 to 29 h. From the labeling index, measured after exposure to a pulse of [3H]thymidine, and from the mitotic index, both determined in exponentially proliferating cells, the lengths of the S and M phases were calculated to be 11 and 1 h, respectively. From these data it was estimated that estradiol shortened the G1 phase by approximately 40%, from 22 to 13 h. Estradiol doubled the colony formation efficiency of cells plated in BM containing 0.3% agar in the absence of serum as well as in the presence of 1% charcoal-treated fetal bovine serum. The stimulation of colony formation by estradiol was influenced by medium components, since no effects were observed in minimal essential medium. The colony formation efficiency was positively related to the serum concentrations and remained significantly lower in minimal essential medium than in BM at comparable serum levels. The observed positive relationship between colony formation efficiency and cell densities at plating suggests a cooperative mitogenic effect, likely due to autocrine and paracrine action of secreted growth factors. These results define a model to evaluate hormonal growth regulation mediated by autocrine mitogens in human
endometrial cancer
cells in the absence of interfering exogenous growth factors.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Proliferation and responsiveness to estrogen of human endometrial cancer cells under serum-free culture conditions. 272 Jun 84
Understanding the factors which alter estrogen metabolism and activity in endometrial tissue is important because unopposed estrogen stimulation is an important risk factor in the development of
endometrial carcinoma
. The cyclic progression of the endometrium through proliferative and secretory phases is normally under the control of the ovarian hormones beta-estradiol (E2) and progesterone. One mechanism by which progesterone inhibits the activity of E2 in secretory endometrium is by elevating the degree of E2 sulfation, thereby reducing its ability to bind to the estrogen receptor and elicit a cellular response. Our laboratories have investigated the cytosolic sulfotransferases (STs) found in biopsies of both proliferative and secretory endometrium obtained from five normal pre-menopausal women who were not taking any drugs or steroids. Two of the human cytosolic STs were detected in human endometrial tissues. The
phenol
-sulfating form of
phenol
ST (P-PST) was found at varying levels in cytosol from both proliferative and secretory endometrium in all of the women studied but with no consistent correlation to the phase of the menstrual cycle. In contrast, estrogen ST (EST) was not detected in the proliferative endometrial cytosol of any of the women studied but was consistently found in all of the secretory endometrial cytosols. The presence and levels of these STs was confirmed by ST activity studies, immunoblot analysis and Northern blot analysis. These results indicate that the expression of EST in human endometrial tissues varies with the phase of the menstrual cycle and is most likely regulated by progesterone secreted from the ovaries.
...
PMID:Identification and characterization of cytosolic sulfotransferases in normal human endometrium. 956 56
Tamoxifen (TAM) is an important chemotherapeutic agent for the treatment of breast cancer. It has also been shown to decrease breast cancer incidence in healthy women at high risk for the disease. The increased risk of
endometrial cancer
in women has raised concerns in the use of the drug. Tamoxifen has also been shown to be a potent hepatocarcinogen in rats. The oxidative metabolites of TAM include alpha-hydroxytamoxifen (alpha-OH-TAM) and 4-hydroxytamoxifen (4-OH-TAM). The studies on the sulfation of these metabolites are very limited. It has been reported that alpha-OH-TAM is a substrate for rat hydroxysteroid sulfotransferase a (STa). Our studies on the sulfation of 4-OH-TAM demonstrated that 4-hydroxytamoxifen can be sulfated by human liver and human intestinal cytosols. Human
phenol
-sulfating sulfotransferase and human estrogen sulfotransferase are the major enzymes for the sulfation of 4-OH-TAM. Human dopamine-sulfating sulfotransferase also has sulfation activity for 4-OH-TAM. In contrast, rat liver and intestine cytosols have no detectable sulfation activity for 4-OH-TAM. The results suggest that the alpha-OH-TAM sulfation pathway leads to bioactivation of TAM, and the 4-OH-TAM sulfation pathway leads to detoxification of TAM. This agrees with the fact that TAM is more toxic for rats than for human beings.
...
PMID:4-Hydroxytamoxifen sulfation metabolism. 1248 3
The antiestrogen, tamoxifen, has been extensively used in the treatment and prevention of breast cancer. Although tamoxifen showed benefits in the chemotherapy and chemoprevention of breast cancer, epidemiological studies in both tamoxifen-treated breast cancer patients and healthy women indicated that treatment caused an increased risk of developing
endometrial cancer
. These troubling side effects lead to concerns over long-term safety of the drug. Therefore, it is important to fully understand the relationship between the antiestrogenic and the genotoxic mechanisms of tamoxifen, other antiestrogens, and their metabolites. Previously, we have shown that o-quinone formation from tamoxifen and its analogues, droloxifene and 4-hydroxytoremifene, may not contribute to the cytotoxic effects of these antiestrogens; however, these o-quinones can form adducts with deoxynucleosides and this implies that the o-quinone pathway could contribute to the genotoxicity of the antiestrogens in vivo. To further investigate this potential genotoxic pathway, we were interested in the role of estrogen receptor (ER)(1) alpha and beta since work with catechol estrogens has shown that ERs seem to enhance DNA damage in breast cancer cell lines. As a result, we investigated the binding affinities of 4-hydroxy and 3,4-dihydroxy derivatives of tamoxifen and toremifene to ER alpha and beta. The antiestrogenic activities of the metabolites using the Ishikawa cells were also investigated as well as their activity in ERalpha and ERbeta breast cancer cells using the transient transfection reporter, estrogen response element-dependent luciferase assay. The data showed that the antiestrogenic activities of these compounds in the biological assays mimicked their activities in the ER binding assay. To determine if the compounds were toxic and if ERs played a role in this process, the cytotoxicity of these compounds in ERbeta41(2) (ERbeta), S30 (ERalpha), and MDA-MB-231 (ER(-)) cell lines was compared. The results showed that the cytotoxicity differences between the metabolites were modest. In addition, all of the metabolites showed similar toxicity patterns in both ER positive and negative cell lines, which means that the ER may not contribute to the cytotoxicity pathway. Finally, we compared the amount of DNA damage induced by these metabolites in these cell lines using the comet assay. The catechols 3,4-dihydroxytoremifene and 3,4-dihydroxytamoxifen induced a greater amount of cellular single strand DNA cleavage as compared with the phenols in all cell lines. The different amounts of DNA damage in ER positive and negative cell lines suggested that the ERs might play a role in this process. These data suggest that the formation of catechols represents a minor role in cytotoxic and antiestrogenic effects in cells as compared with their
phenol
analogues. However, catechols induced more DNA damage at nontoxic doses in breast cancer cells, which implies that o-quinones formed from catechols could contribute to genotoxicity in vivo, which is ER-dependent.
...
PMID:Antiestrogenic and DNA damaging effects induced by tamoxifen and toremifene metabolites. 1287 Aug 85
Although approved for the treatment of hormone-dependent breast cancer as well as for the prevention of breast cancer in high-risk women, the selective estrogen receptor modulator (SERM) tamoxifen has been associated with an increased risk of
endometrial cancer
in women. With an understanding of the potential carcinogenic mechanisms of these compounds, SERMs could in principle be designed or selected for use that avoids these problems. Acolbifene (EM-652) is a fourth-generation SERM and the active form of the ester prodrug EM-800. As a pure antagonist of breast tumor development and growth, acolbifene does not stimulate endometrial tissue. However, acolbifene was found in this investigation to form two kinds of quinone methides, either through chemical or through enzymatic oxidation. One was a classical acolbifene quinone methide, which was formed by oxidation at the C-17 methyl group, and the other was a diquinone methide involving the oxidation of two
phenol
groups. The half-life of the classical quinone methide was determined to be 32 +/- 0.4 s at physiological pH and temperature. The quinone methides reacted with glutathione (GSH) to form five mono-GSH conjugates and five di-GSH conjugates. The majority of GSH conjugates resulted from reaction of the classical acolbifene quinone methide with GSH. Incubations of acolbifene with GSH and either tyrosinase or human and rat liver microsomes also produced acolbifene quinone methide-GSH conjugates. In addition to reaction with GSH, the classical acolbifene quinone methide was also shown to react with deoxynucleosides. One of the major deoxynucleoside adducts was identified as the deoxyadenosine adduct resulting from reaction of the classical acolbifene quinone methide with the exocyclic amino group of adenine. Acolbifene could also induce DNA damage in the S30 breast cancer cell line. These data imply that the classical electrophilic acolbifene quinone methide might contribute to the potential toxicity of acolbifene.
...
PMID:Bioactivation of the selective estrogen receptor modulator acolbifene to quinone methides. 1572 Jan 21
This study was designed to elucidate the signal transduction mechanisms, mediating the antiproliferative effects of analogs of luteinizing hormone releasing hormone (LHRH) on cell lines derived from human cancers of the ovary (EFO-21, EFO-27) and the endometrium (HEC-1A, Ishikawa). The LHRH agonist triptorelin had no measurable effects on the activity of phospholipase C, protein kinase C, or adenylate cyclase in all 4 cell lines, though these enzymes could be activated through pharmacological stimuli. The proliferation of EFO-21, EFO-27 and HEC-1A cells in serum/
phenol
red-free medium was significantly stimulated by epidermal growth factor (EGF). This mitogenic effect of EGF was dose dependently antagonized by triptorelin, without affecting the concentrations of EGF receptors. Net tyrosine phosphorylation induced by 1 nM EGF was nearly completely suppressed by simultaneous addition of 10 mu M triptorelin or preincubation for 48 h with 100 nM triptorelin. This inhibitory effect of the LHRH agonist on EGF-induced net tyrosine phosphorylation was partly antagonized by exposure to 100 mu M sodium vandate, an inhibitor of phosphotyrosine phosphatase. In EFO-21, EFO-27, and HEC-1A cells exposure to 100 nM EGF for 5 min induced an approximately 5-fold increase in activity of mitogen activated protein kinase (MAP-kinase)/extracellular signal regulated kinase (ERK) which was virtually nullified, when the cells were exposed for 15 min to 10 mu M triptorelin. These data suggest that LHRH signal transduction mechanisms based on the activation of phospholipase C, protein kinase C, and adenylate cyclase, which operate in the pituitary gonadotroph, are not necessarily involved in the mediation of the antiproliferative effects of triptorelin in these ovarian and
endometrial cancer
cell lines. Instead our findings support the hypothesis that triptorelin interferes with mitogenic signal transduction, probably through antagonizing tyrosine kinase activity of the EGF receptor.
...
PMID:Luteinizing hormone-releasing hormone agonist triptorelin antagonizes signal transduction and mitogenic activity of epidermal growth factor in human ovarian and endometrial cancer cell lines. 2154 21
