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Query: UMLS:C0476089 (endometrial cancer)
 11,379 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of two anti-oestrogens, 4-OH tamoxifen and ICI 164,384, on growth and progesterone receptor (PR) concentration was investigated in the endometrial carcinoma cell line, Ishikawa. Growth stimulation in response to 4-OH tamoxifen was antagonized by ICI 164,384, the latter having no agonist effect when used as a single agent. Similarly, ICI 164,384 antagonized oestradiol-stimulated cell growth. PR was significantly increased following treatment with 4-OH tamoxifen, this response being antagonized in the presence of ICI 164,384. Oestradiol increased PR, although to a lesser extent than did 4-OH tamoxifen; the effect of oestradiol on PR was also antagonized by ICI 164,384. Used as a single agent, ICI 164,384 induced a moderate but statistically significant increase in PR, thus demonstrating partial agonist activity. This agonist property of ICI 164,384 may provide a mechanism of maintaining PR, which is down-regulated during conventional progestin therapy, without undesirable mitogenic activity.
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PMID:The effect of anti-oestrogens on cell growth and progesterone receptor concentration in human endometrial cancer cells (Ishikawa). 188 84

An estrogen receptor and progesterone receptor positive endometrial carcinoma (EnCa101) will grow in response to either estradiol or tamoxifen when transplanted into athymic mice. We have tested several antiestrogens with different properties to determine their ability to support endometrial tumor growth. Trioxifene, enclomiphene and nafoxidine are all as active as tamoxifen whereas the antiestrogen keoxifene, that has reduced estrogen-like properties, will partially inhibit tamoxifen-stimulated growth. Furthermore, the pure antiestrogen ICI 164,384 will block tamoxifen-stimulated growth without having any effect itself on tumor growth rate. Overall, the ability of antiestrogens to stimulate the growth of human endometrial carcinoma EnCa101 appears to be related to their intrinsic estrogenic activity.
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PMID:Tamoxifen-stimulated growth of human endometrial carcinoma. 190 95

The cathepsin D gene is differentially regulated by estrogens in hormone responsive breast cancer cells, by progestins in normal human endometrium and is highly expressed but not regulated by these steroids in estrogen (RE)- and progesterone receptor (RP)-negative breast cancer cells. We have stably transfected the RE-negative breast cancer cell line MDA-MB 231 and the Hela cell line with an expression vector for the human RE. The endogenous cathepsin D which is constitutively expressed was further stimulated by estradiol. However, the growth of both cell lines was not stimulated by estradiol and could not be inhibited by the antiestrogen ICI 164,384. By contrast, the cathepsin D gene in the estrogen responsive Ishikawa endometrial cancer cell line was unresponsive to estrogen or to progesterone even following stable transfection of expression vectors for the RP (both A and B isoforms). We conclude that the cathepsin D gene is potentially responsive to estrogens in MDA-MB 231 and Hela cells, which therefore express all of the transcriptional machinery (except the RE) necessary for this regulation. By contrast, cathepsin D remains unresponsive to estrogen and progesterone in Ishikawa cells. The cathepsin D gene is one of the first examples of an endogenous steroid responsive gene which can be controlled by steroids following stable transfection of a steroid receptor.
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PMID:Hormonal regulation of cathepsin D following transfection of the estrogen or progesterone receptor into three sex steroid hormone resistant cancer cell lines. 195 26

In uterine tissue, estrogen regulates various components of the insulin-like growth factor system; however, there are few suitable in vitro systems to examine these effects. Here we have examined the effects of 17-beta estradiol (E2) on expression and synthesis of insulin-like growth factors (IGF-I and IGF-II) and the insulin-like growth factor binding proteins (IGFBPs) by Ishikawa human endometrial cancer cells. Using a semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) assay, we demonstrated that both E2 and 4-hydroxy-tamoxifen (OHT) enhanced IGF-I expression but had no effect on IGF-II expression. The pure antiestrogen ICI 182,780 had no effect on IGF-I expression and partially blocked the E2 and OHT effect on IGF-I expression. The effect of epidermal growth factor (EGF), which is able to mimic some of the effects of E2 in Ishikawa cells and uterine tissue, was also examined. EGF, unlike E2, did not increase IGF-I expression but rather resulted in a significant decrease in IGF-I messenger RNA (mRNA) levels. EGF also resulted in a small, nonsignificant increase in IGF-II mRNA levels. IGFBP-3, -5, and -6 mRNAs were detected by Northern blot analyses of Ishikawa cells RNA. However, only IGFBP-3 was consistently detected by ligand blotting of conditioned medium. E2 had no significant effect on expression of any of the binding proteins, whereas EGF increased IGFBP-5 mRNA levels. These data provide the first in vitro demonstration of regulation of IGF-I expression by E2. The Ishikawa cell line may provide a useful model to further investigate the molecular mechanisms underlying E2 regulation of IGF-I expression. Furthermore, we have demonstrated a clear dissociation of the effects of E2 and EGF on IGF-I expression in this cell line.
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PMID:Expression of insulin-like growth factors and their binding proteins in the estrogen responsive Ishikawa human endometrial cancer cell line. 752 33

In MCF7 human breast cancer cells, the antiestrogens 4-hydroxy-tamoxifen and ICI 164,384 inhibit the mitogenic activity of epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I). These growth factors also stimulate the expression of cathepsin-D and pS2 genes. Therefore, we studied the effects of antiestrogens on growth factor induction of pS2 and cathepsin-D mRNA. The two antiestrogens strongly inhibited the transcriptional induction of pS2 by growth factors. On the contrary, estradiol and IGF-I or EGF had an additive effect on pS2 mRNA accumulation. Growth factor induction of cathepsin-D was also inhibited by ICI 164,384. By contrast, 4-hydroxytamoxifen had an agonist effect on cathepsin-D and an additive effect on IGF-I-induced mRNA. When 12-O-tetradecanoylphorbol-13-acetate or 8-bromo-cAMP (8-Br-cAMP) was used instead of growth factors, similar effects of 4-hydroxytamoxifen and ICI 164,384 were obtained on pS2 (12-O-tetradecanoylphorbol-13-acetate and 8-Br-cAMP) and cathepsin-D (8-Br-cAMP) induction. A mechanism based on the classical competitive inhibition by antiestrogens of estrogen binding and action on the estrogen receptor was very unlikely, as 1) no antigrowth factor activity was obtained with R5020, which was a potent inhibitor of estrogen induction of pS2 and cathepsin-D mRNA; 2) in the Ishikawa endometrial cancer cell line, the cathepsin-D gene is unresponsive to estrogen, but was inhibited by antiestrogen after its induction by EGF or 8-Br-cAMP; and 3) the residual estrogen concentration in cells was too low to induce the expression of estrogen-specific genes. However, antiestrogens did not inhibit the expression of all genes induced by growth factors, as they were without effect on IGF-I induction of glyceraldehyde-3-phosphate dehydrogenase mRNA. These results demonstrate that antiestrogens can modulate the transcription of some growth factor-induced genes and strongly suggest that this effect is not due to interference with residual estrogens.
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PMID:Synthetic antiestrogens modulate induction of pS2 and cathepsin-D messenger ribonucleic acid by growth factors and adenosine 3',5'-monophosphate in MCF7 cells. 834 99

An estrogen independent sub-clone of human endometrial carcinoma Ishikawa was established by culturing the mother cells in the absence of estrogen over a year. The daughter cells (designated as EIIL) possessed truncated estrogen receptors of an apparent size of 43Kd as well as normal 65Kd receptors and had lost sensitivity to estrogen or tamoxifen but remained sensitive to ICI 164,384. Analysis of the expression of the estrogen responsive element binding protein showed the presence of variant proteins which can recognize ERE. These observations indicate that long time estrogen deprivation may alter the expression of ER and this, in turn, alters cell response to estrogen as well as antiestrogens.
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PMID:[Separation and characterization of estrogen independent endometrial cancer cell line originated from Ishikawa strain]. 871 50

The estrogen receptor (ER) contains two transcriptional activation domains: AF-1 and AF-2. AF-2 is dependent on a highly species-conserved region of the ER. It has been shown that site-directed point mutations of conserved hydrophobic amino acids within this region reduce estrogen-dependent transcriptional activation. In addition, when these mutated ERs are transfected into HeLa cells, both tamoxifen and ICI 164,384 become strong agonists. The implication is that mutations in this region could account for the tamoxifen-stimulated tumors seen clinically. We performed single stranded conformational polymorphism (SSCP) analysis spanning the entire ER along with DNA sequencing of the AF-2 region of the ER isolated from two different tamoxifen-stimulated breast cancers, MCF-7/TAM and MCF-7/MT2, and a tamoxifen-stimulated endometrial cancer, EnCa 101. In addition, a tamoxifen-stimulated endometrial carcinoma cell line, the Ishikawa cell line, was also studied. There were no mutations found by SSCP analysis and sequencing of all four AF-2 regions also revealed no mutations. Mutations within the AF-2 region of the human ER do not appear to account for the growth of human breast and endometrial carcinomas that are used as reproducible laboratory models of tamoxifen-stimulated growth observed clinically.
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PMID:An analysis of tamoxifen-stimulated human carcinomas for mutations in the AF-2 region of the estrogen receptor. 891 73

We have compared the cell and tissue selective estrogenic and antiestrogenic activities of tamoxifen, raloxifene, ICI 164,384 and a permanently ionized derivative of tamoxifen--tamoxifen methiodide (TMI). This non-steroidal antiestrogen has limited ability to cross the blood brain barrier and is therefore less likely to cause the central nervous system disturbances caused by tamoxifen. We have used the stimulation of the specific activity of the "estrogen induced protein", creatine kinase BB, as a response marker in bone, cartilage, uterine and adipose cells and in rat skeletal tissues, uterus and mesometrial adipose tissue. In vitro, TMI, tamoxifen and raloxifene mimicked the agonistic action of 17beta-estradiol in ROS 17/2.8 rat osteogenic osteosarcoma, female calvaria, and SaOS2 human osteoblast cells. In Ishikawa endometrial cancer cells, tamoxifen showed reduced agonistic effects and raloxifene showed no stimulation. However, as antagonists, tamoxifen and raloxifene were equally effective in Ishikawa or SaOS2 cells. In immature rats, all four of the antiestrogens inhibited estrogen action in diaphysis, epiphysis, uterus and mesometrial adipose tissue; when administered alone, tamoxifen stimulated creatine kinase (CK) specific activity in all these tissues. Raloxifene and TMI, however, stimulated only the skeletal tissues and had no stimulatory effect in the uterus or mesometrial fat, and the pure antiestrogen ICI 164,384 showed no stimulatory effect in any of the tissues. The simultaneous injection of estrogen, plus an antiestrogen which acted as an agonist, resulted in lower CK activity than after injection of either agent alone. These differential effects, in vivo and in vitro, may point the way to a wider therapeutic choice of an appropriate antiestrogen which, although antagonizing E2 action in mammary cancer, can still protect against osteoporosis and cardiovascular disease and not stimulate the uterus with its attendant undesirable changes, or interfere with the beneficial action of E2 in the brain.
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PMID:Tissue selective action of tamoxifen methiodide, raloxifene and tamoxifen on creatine kinase B activity in vitro and in vivo. 901 Mar 44

Although temporary benefits of tamoxifen therapy are observed in up to 40% of women with breast cancer, this compound, which is known to possess mixed estrogenic and antiestrogenic activities, has been associated with increased risk of endometrial carcinoma. This study compares the effects of the novel nonsteroidal pure antiestrogen EM-800 and related compounds with those of a series of antiestrogens on the estrogen-sensitive alkaline phosphatase (AP) activity in human endometrial adenocarcinoma Ishikawa cells. Exposure to increasing concentrations of up to 1000 nM EM-800 or its active metabolite EM-652 alone failed to affect basal AP activity. In contrast, incubation with 10 nM (Z)-4-OH-tamoxifen, (Z)-4-OH-toremifene, droloxifene, or raloxifene increased the value of this estrogen-sensitive parameter by 3.3-, 3.5-, 2.2-, and 1.6-fold, respectively, a stimulatory effect that was completely reversed by simultaneous exposure to 30 nM EM-800. Moreover, the stimulation of AP activity induced by 1 nM 17beta-estradiol was completely reversed by EM-800, EM-652, or ICI-182780, at the IC50 value of 1.98 +/- 0.23, 1.01 +/- 0.16, and 5.64 +/- 0.59 nM, respectively, whereas the partial blockade exerted by (Z)-4-OH-tamoxifen, (Z)-4-OH-toremifene, or raloxifene was observed at IC50 values of 13.5 +/- 3.80, 41.0 +/- 7.2, and 3.74 +/- 0.43 nM, respectively. Thus, as assessed by their activity in the human Ishikawa endometrial carcinoma cells, EM-800 and EM-652 are the most potent known antiestrogens in Ishikawa cells, and, most importantly, they are devoid of the estrogenic activity observed in these human endometrial cancer cells with (Z)-4-OH-tamoxifen, (Z)-4-OH-toremifene, droloxifene, and raloxifene.
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PMID:Blockade of the stimulatory effect of estrogens, OH-tamoxifen, OH-toremifene, droloxifene, and raloxifene on alkaline phosphatase activity by the antiestrogen EM-800 in human endometrial adenocarcinoma Ishikawa cells. 927 18

The uterine endometrium responds to unopposed estrogen stimulation with rapid cell proliferation. Progesterone protects the endometrium against the hyperplastic effects of estradiol (E2) through progesterone receptors (PRs), of which two isoforms are expressed: human (h) PRA and PRB. hPRB has a longer NH2 terminus and may function differently from hPRA. Thus, the relative expression of hPRA:hPRB is likely to be important for the action of progesterone. We hypothesized that the hPRA:hPRB ratios may be abnormal in endometrial cancer, leading to a lack of normal progesterone protection against the growth-promoting effects of E2. To test this hypothesis, well-differentiated Ishikawa endometrial cancer cells were compared to poorly differentiated Hec50 and KLE cells. Reverse transcription-PCR was chosen as a sensitive method to detect transcripts for the two forms of PR. The relative expression of PR isoforms under hormonal stimulation was determined by Western blotting. Transient transfections of hPRA and hPRB into endometrial cells allowed the evaluation of the transcriptional activity of each isoform independently on reporter gene transcription under the control of a simple progesterone response element-containing promoter. The effect of coexpressing the estrogen receptor on PR expression was also studied. Ishikawa cells (well-differentiated) express both hPRA and hPRB. Both isoforms, but predominantly hPRB, are up-regulated by E2 and not by tamoxifen or the pure antiestrogen ICI 182,780. Hec50 and KLE cells (poorly differentiated) express only hPRA. No hPRB is present in the poorly differentiated cells, and it is not induced by estrogen receptor expression and/or estrogen treatment. In all cells, hPRB expression, whether endogenous or produced as a result of transfection, acts as a stronger transcription factor than hPRA on a simple progesterone-dependent promoter. We speculate that down-regulation of hPRB may predict for poorly differentiated endometrial cancers that do not respond to progestin therapy.
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PMID:Selective down-regulation of progesterone receptor isoform B in poorly differentiated human endometrial cancer cells: implications for unopposed estrogen action. 958 25


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