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Query: UMLS:C0476089 (
endometrial cancer
)
11,379
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This updated literature review on heterosteroids and drug research has information on chemical structure, pharmacology, and effects. It first discusses the anti-inflammatory heterosteroids, such as mometasone furoate and cortivazol. It also covers heterosteroidal antimineralocorticoids and anabolic hetero derivatives. The review discusses at length the 19-norsteroid, mifepristone (RU-486), which exhibits antiprogestational activity and is being used for fertility control in women. It also has antiglucocorticoid activity and shows promise as a treatment of diseases characterized by muscle atrophy. In vitro studies indicate that mifepristone inhibits growth of breast cancer cell lines and of
endometrial cancer
cell lines. It has already exhibited growth inhibitory effects in some breast cancer patients. Discussions of mifepristone's pharmacokinetics and structural modifications of mifepristone follow. Danazol is an antigonadotropin and is used to treat endometriosis, benign breast disease, precocious puberty, hereditary angioneurotic edema, menorrhagia, some types of infertility, and
gynecomastia
. Danazol effects considerable changes in lipid metabolism. Other hormonal, antihormonal, and/or antifertility heterosteroids and/or aspects include androgen antagonists (e.g., cyproterone acetate), estrogen activity, antiestrogens, STS-557, and oximinosteroids. Heterosteroidal inhibitors of steroid hormone biosynthesis discussed are aromatase inhibitors, 5 alpha-reductase inhibitors, and 3 beta-hydroxysteroid dehydrogenase inhibitors (trilostane, epostane, and azastene). Heterosteroids affect the cardiovascular system, including the cardiac glycosides, antiarrhythmic agents, and antilipemic agents. Some heterosteroids affect central nervous system activity (e.g., RU-5135 causes convulsions in rodents). Pancuronium analogues and chandonium and analogues are neuromuscular blocking azasteroids. In addition to danazol and RU-486, several other antineoplastic heterosteroids exist (e.g., estramustine phosphate sodium, a prostate cancer drug).
...
PMID:Heterosteroids and drug research. 184 48
Aromatase P450 (P450arom) is responsible for conversion of C19 steroids to estrogens in a number of human tissues, such as the placenta, gonads, adipose tissue, skin and the brain. Aromatase expression in human tissues is regulated by use of alternative promoters in the placenta (promoter I.1), adipose tissue (promoters I.4, I.3 and II) and gonads (promoter II). Aromatase expression is absent in the disease-free adult liver, adrenal and uterine tissues. Excessive or inappropriate aromatase expression in adipose fibroblasts and endometriosis-derived stromal cells, as well as in testicular, hepatic, adrenal and uterine tumors, is associated with abnormally high circulating estrogen levels and/or with increased local estrogen concentrations in these tissues. Whether systemically delivered or locally produced, elevated estrogen levels will in turn promote the growth of hormone-responsive tissues. We recently studied aromatase expression in testicular tumor and adipose tissue samples from prepubertal boys with
gynecomastia
, in hepatocellular cancer and adrenocortical tumor samples from adult men with
gynecomastia
, in breast adipose tissue samples proximal to breast tumors, and in
endometrial cancer
, leiomyoma and endometriosis tissues. Excessive aromatase activity and P450arom transcript levels were found in these tissue samples or in cultured cells derived from these tissues. In these neoplastic or non-neoplastic tissues or cells, the regulation of aromatase expression was studied in terms of alternative promoter use, both in vivo and in response to various hormonal stimuli. Our results were suggestive of a common metabolic abnormality associated with activation of a cyclic AMP-dependent signalling pathway that gives rise to transcriptional transactivation of aromatase expression via promoters I.3 and II in all of the above tissues. This article describes the common pathophysiological and molecular features of excessive aromatase expression in these disease states.
...
PMID:Endocrine disorders associated with inappropriately high aromatase expression. 936 82
In premenopausal women ovaries are the major sites of estrogen production, while in postmenopausal women estrogen is produced by aromatization of ovarian and adrenal androgens in extragonadal sites, mostly in adipose tissue. Aromatase is a cytochrome P450 hemoprotein-containing enzyme complex that catalyzes the rate-limiting step in the conversion of androstenedione and testosterone to estrone and estradiol (E2). Aromatase inhibitors (AIs) have been developed primarily for use in either natural or surgical postmenopausal patients. In premenopausal women, the ovary can overcome the estrogen blockade by reflex increments of luteinizing hormone (LH) and follicle stimulating hormone (FSH), so AIs must be combined with a gonadotropin releasing hormone (GnRH) agonist to prevent the reflex LH and FSH increments. In advanced hormone-dependent breast cancer treatment, AIs have been shown to be superior to tamoxifen. Preliminary evidence also suggests superiority in the adjuvant, neoadjuvant settings and also for breast cancer prevention. AIs have been used in infertility and can increase ovulation rate. Reducing FSH dose, estrogen levels, improving response to FSH, implantation rates, and developing multiple follicles that can be used in in vitro maturation procedures are potential areas that AIs might be used in in assisted reproductive technologies (ART), besides simple ovulation induction. AIs are reported to be successful in treatment of endometriosis, an estrogen-dependent process. The use of AIs in
gynecomastia
, puberte precox, leiomyoma uteri, some estrogen-dependent cancers (ovarian),
endometrial cancer
and male infertility are reported; some of the results are promising but more clinical trials are needed. AIs are predicted to become the gold standard in the treatment of estrogen-dependent diseases in reproductive medicine in the near future.
...
PMID:Aromatase inhibitors: possible future applications. 1525 40
