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Query: UMLS:C0476089 (
endometrial cancer
)
11,379
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The US Food and Drug Administration (FDA) approved marketing of diethylstilbestrol in 1941 and conjugated equine estrogens (CEE) in 1942 for treatment of menopausal symptoms. Estrogen sales doubled and tripled in the mid-1960s to mid-1970s, until 1975, when reports of increased
endometrial cancer
in estrogen users resulted in a dramatic decline. Estrogen use increased again, with evidence of protective effects of progestins on estrogen-induced endometrial changes, combined with a 1982 report that
Premarin
(conjugated estrogen tablets; Wyeth Pharmaceuticals, Philadelphia, PA) retained bone mass and a 1984 National Institutes of Health (NIH) Consensus Conference on Osteoporosis statement that estrogens were the most effective means for preventing bone loss. Despite conflicting reports in 1985 regarding the relation between estrogens and coronary heart disease (CHD), many published observations of reduced CHD risk in estrogen users--reinforced by clinical trial findings in 1995 of favorable lipoprotein changes in women assigned to CEE with or without a progestin--promoted increased use through the 1990s. By 2001, approximately 15 million US women were using estrogen therapy, with or without progestins. The 2002 Women's Health Initiative (WHI) report of greater harm than benefit of combined CEE plus a progestin resulted in a precipitous decrease in estrogen and progestin use and a serious reevaluation of menopausal hormone therapy, as well as increased interest in alternative approaches to managing menopausal symptoms, including use of "bioidentical" hormones. FDA guidelines regarding treatment indications for vasomotor symptoms, vaginal atrophy, and osteoporosis prevention have resulted in approval of several estrogen (and progestin) formulations, doses, and routes of administration, thereby providing many options for women who seek conventional therapy.
...
PMID:Estrogens and progestins: background and history, trends in use, and guidelines and regimens approved by the US Food and Drug Administration. 1641 29
Steroid sulfatase (STS) regulates the hydrolysis of steroid sulfates to their unconjugated forms.
Estrone sulfate
and dehydroepiandrosterone sulfate can be hydrolyzed by STS to estrone and dehydroepiandrosterone, respectively, with these steroids being the precursors for the synthesis of more biologically active estrogens or androgens. A number of potent STS inhibitors have now been developed including STX64, which entered a phase I trial for the treatment of postmenopausal women with advanced metastatic hormone-dependent breast cancer. The results from this phase I trial were encouraging, suggesting that STS inhibitors may also have a role in the treatment of other hormone-dependent cancers including those of the endometrium, ovary, and prostate. In this paper the potential use of STS inhibitors to treat these hormone-dependent cancers is reviewed. In addition, results from in vitro studies show that Ishikawa
endometrial cancer
cells, OVCAR-3 ovarian cancer cells, and LNCaP prostate cancer cells all possess significant STS activity. Furthermore, STS activity in these cells can be almost completely inhibited by STX64 or the second-generation STS inhibitor, STX213. Results from these investigations therefore suggest that STS inhibitors could have therapeutic potential for the treatment of a range of hormone-dependent cancers.
...
PMID:The development of steroid sulfatase inhibitors for hormone-dependent cancer therapy. 1925 Jan 95
Estrone sulfate
(E
1
S) is the most abundant circulating estrogen and it has the potential to be used as a biomarker in certain conditions where estimation of low levels of estrogen or changes in relative levels of estrogens are important. This review will critically consider the role of estimating E
1
S for clinical laboratory practice. As E
1
S is an estrogen, a wider discussion of estrogens is included to contextualize the review. Assays have been available for a number of years for these estrogens and they have been measured in a number of clinical research studies. However, E
1
S remains a rarely ordered test. This review highlights the literature that suggests the possible advantages of measuring E
1
S in addition to, or possibly in place of, the more commonly measured estradiol (E
2
) and the less commonly measured estrone (E
1
). The potential biomarker role of E
1
S in risk stratification for breast cancer, in promotion of proliferation of
endometrial cancer
, in prognostic information in advanced prostatic carcinoma, and in the monitoring of response to certain hormonal therapy for malignancy is discussed. The methods available for the measurement of E
1
S are reviewed and the limitations of the current methodologies are described. In conclusion, E
1
S has some interesting potential applications in clinical laboratory medicine that require further investigation.
...
PMID:Clinical implications of estrone sulfate measurement in laboratory medicine. 2796 May 70
Despite evidence that estrogens and insulin are related to type 1
endometrial carcinoma
(EC), their synergistic role has not been analyzed. Here, we investigated how estrogens cooperate with insulin to promote type 1 EC progression. We examined the clinical significance of serum estrogen and insulin levels using type 1 EC patients and control subjects. Univariate and multivariate logistic regression analyses for total, premenopausal, and postmenopausal subjects were performed. Type 1 EC risk was evaluated with respect to estrone, estradiol, and insulin levels based on odds ratios (ORs) using stratified data. Cell growth in vitro and in vivo, effects of insulin and estradiol on apoptosis and cell cycle distribution were measured after estradiol and insulin stimulation.
Estrone
and insulin concentrations were significantly high in type 1 EC patients and retained positive associations with type 1 EC after adjustment for BMI, WHR, diabetes, and hypertension. The odds ratio was significantly high for type 1 EC patients with higher levels of estrone/estradiol and insulin than for patients with higher levels of either estrone/estradiol or insulin, suggesting that estrogen and insulin play a synergistic role in type 1 EC carcinogenesis and progression. Compared to EC cells and cell-based xenografts treated with estradiol or insulin alone, those treated with estradiol and insulin exhibited stronger stimulation. Estrogen and insulin play synergistic roles in type 1 EC carcinogenesis and progression, extending our understanding of EC risks.
...
PMID:Estrogen and insulin synergistically promote type 1 endometrial cancer progression. 2917 56
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