Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

In 1973, McGuire and Chamness (In: O'Malley BW and Means AR (ed) Receptors for Reproductive Hormones, Plenum Press) summarized their work on the estrogen receptor in animal and human breast tumors, and in so doing described a target for therapeutic intervention. At that time there were no clinically useful antiestrogens, but the subsequent development of tamoxifen for breast cancer therapy has revolutionized the approach to treatment. Long-term adjuvant tamoxifen adjuvant therapy (i.e., greater than one year) has proven efficacy to enhance the survival of breast cancer patients. In addition, because there is an associated 40% decrease in contralateral breast cancer during adjuvant tamoxifen therapy and tamoxifen maintains bone density and reduces fatal myocardial infarction, clinical trials to test the worth of tamoxifen as a preventive for breast cancer in high risk women have started in the United States, United Kingdom, and Italy. Initial concerns that long-term tamoxifen causes endometrial cancer have been placed in perspective and analyzed by a review of the literature. Tamoxifen only doubles the normal risk of detecting endometrial cancer (i.e., to 2 per 1,000 tamoxifen-treated women per year), and 80% of these cases are early stage, good prognosis disease. Annual gynecological examinations and education are essential to provide reassurance for patients. The success of tamoxifen has encouraged the development of new antiestrogens to exploit the estrogen receptor as a therapeutic target. Droloxifene and TAT-59 mimic the metabolite 4-hydroxytamoxifen in having a high affinity for the estrogen receptor (Jordan et al, J Endocrinol 75:305, 1977). These drugs appear to have a pharmacological profile similar to tamoxifen. In contrast, the new pure antiestrogens have a distinct mechanism of action and will be valuable either as a first line therapy for advanced breast cancer or as a second line endocrine therapy after the failure of long-term adjuvant tamoxifen therapy. Finally, a new strategy is being developed to exploit the target site specific action of antiestrogens. Raloxifene, an antiestrogen with high affinity for the estrogen receptor but only weak estrogenicity for the uterus, prevents rat mammary tumorigenesis and maintains bone density. The drug is to be evaluated as a treatment for osteoporosis, but may also prevent the development of breast and endometrial cancer in a broad group of treated subjects. The identification of the estrogen receptor as a target for therapeutic opportunities has proved to be extremely beneficial for the control of breast cancer and has the added potential to control osteoporosis and coronary heart disease in women.
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PMID:Third annual William L. McGuire Memorial Lecture. "Studies on the estrogen receptor in breast cancer"--20 years as a target for the treatment and prevention of cancer. 857 10

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

Forty years ago, Lerner and coworkers (1958) discovered the first nonsteroidal antiestrogen and Jensen (Jensen and Jacobson, 1960) identified a target for drug action, the ER. This knowledge opened the door for the clinical development of tamoxifen which we now know provides a survival advantage in both node-positive and node-negative patients with ER-positive disease (Early Breast Cancer Trialists Collaborative Group, 1992, 1998). The drug has been studied extensively, and the results have provided an invaluable insight into possible ancillary advantages of "antiestrogens", i.e., maintenance of bone density and the prevention of coronary heart disease, and possible disadvantages, i.e., rat liver carcinogenesis and an increased risk of endometrial cancer. Most importantly, the identification of the target site-specific actions of tamoxifen caused a paradigm shift in the prospective uses of antiestrogens from a direct exploitation of the antitumor properties to the broader application as a preventative for osteoporosis, but with the beneficial side effects of preventing breast and endometrial cancer. Raloxifene, a second-generation SERM, has all the properties in the laboratory that would encourage development as a safe preventative for osteoporosis (Jordan et al., 1997). As a result, raloxifene has been evaluated in more than 11,000 postmenopausal women and found to maintain bone density with significant decreases in breast cancer incidence and no increase in endometrial thickness. Raloxifene is now available as a preventative for osteoporosis in postmenopausal women. There is every reason to believe that a multifaceted agent like raloxifene will find widespread use, and there will be continuing interest by the pharmaceutical industry in the development of new agents with even broader applications. The extensive clinical effort is augmented by past molecular innovations in the laboratory and the future promise of new discoveries. The cloning and sequencing of the ER (Green et al., 1986; Greene et al., 1986) has allowed the development of an ER knock-out mouse (Lubahn et al., 1993) that compliments Jensen's pioneering work (Jensen and Jacobson, 1962) and describes the consequences of the loss of ER alpha. However, ER beta (Kuiper et al., 1996), the second ER, has provided an additional dimension to the description of estrogen and antiestrogen action. For the future, the development of ER beta monoclonal antibodies, the classification of target sites for the protein around the body, and the creation of ER beta and ER alpha, beta knock-out mice will identify new therapeutic targets to modulate physiological functions. Clearly, the successful crystallization of ER alpha with raloxifene (Brzozowski et al., 1997) must act as a stimulus for the crystallization of ER beta. The central issue for research on antiestrogen pharmacology is the discovery of the mechanism (or mechanisms) of target site-specificity for the modulation of estrogenic and antiestrogenic response. The description of a stimulatory pathway for antiestrogens through an AP-1 ER beta signal transduction pathway (Paech et al., 1997), although interesting, may not entirely explain the estrogenicity of antiestrogens. The model must encompass the sum of pharmacological consequences of signal transduction through ER alpha and ER beta with the simultaneous competition from endogenous estrogens at both sites. This is complicated because estradiol is an antagonist at ER beta through AP-1 sites (Paech et al., 1997), so this is clearly not the pathway for estrogen-induced bone maintenance in women. Estrogen is stimulatory through ER alpha, but antiestrogens are usually partial agonists and may either block or stimulate genes. However, we suggest that the ER alpha stimulatory pathway could be amplified through selective increases in coactivators. The principle is illustrated with the MDA-MB-231 cells stably transfected with the cDNAs for the wild-type and the amino acid 351 mutan
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PMID:Basic guide to the mechanisms of antiestrogen action. 964 65

Women should be encouraged to maintain an adequate calcium intake throughout their life so they have good BMD when they reach menopause. The most effective choice for prevention and treatment of osteoporosis after menopause is estrogen or combined estrogen-progestin. The addition of progestin to estrogen therapy to prevent endometrial cancer does not impair effectiveness of estrogen in increasing BMD. In women who have contraindications to or do not wish to take estrogen, alendronate is the most effective alternative. Raloxifene has been found to protect BMD but not to the extent of estrogen or alendronate, and it does not provide the other benefits offered by estrogen. Calcitonin-salmon has an excellent long-term safety record, but its effectiveness in preventing fracture remains to be fully demonstrated. Adequate calcium intake and exercise are important adjuncts to other therapies but alone do not prevent osteoporosis in most women.
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PMID:What's new in preventing and treating osteoporosis? 979 57

Tamoxifen is the most widely prescribed anticancer drug in the world. It not only improves overall survival and decreases recurrence from breast cancer, but has beneficial effects on bone density and lipid profiles. Unfortunately, tamoxifen carries disadvantages such as unpleasant side effects and a questionable connection to endometrial carcinoma. However, after intense debate, the general consensus among the medical community is that the benefits of tamoxifen far outweigh the risks. Nonetheless, resistance to tamoxifen has been seen both in the clinic and in the laboratory prompting investigators to look for new antiestrogens in the treatment and prevention of breast cancer. We report on three agents: toremifene (Fareston®), ICI 182, 780 (Faslodex®), and raloxifene (Evista®). Unfortunately, clinical studies comparing tamoxifen and toremifene in the treatment of breast cancer have not shown a clear advantage of toremifene over tamoxifen. ICI 182, 780 is a "pure antiestrogen" that carries a low incidence of side effects and may hold promise as an effective agent for patients who have failed tamoxifen therapy or even as primary adjuvant therapy. Raloxifene displays beneficial bone and cardiovascular effects without uterine stimulation. It is being used as an agent to prevent osteoporosis and holds promise as an agent for advanced breast cancer. We hope that these new antiestrogens will revolutionize the way we treat breast cancer.
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PMID:Questions about Tamoxifen and the Future Use of Antiestrogens. 1038 91

Selective oestrogen receptor modulators (SERMs) constitute a group of new drugs which mimic oestrogen in some organs and tissues but have an oestrogen antagonistic mode of action in other tissues. In postmenopausal women these compounds have a favourable effect on lipoprotein cholesterol levels in the blood and bone mineral density, thereby reducing fracture risk, especially in the vertebral column. In contrast to oestrogen therapy SERMs reduce the risk of mammary carcinoma. Currently tamoxifen and raloxifene are the best known SERMs. Tamoxifen increases endometrial hyperplasia and the risk of endometrial carcinoma. Raloxifene inhibits uterine tissue proliferation and does not appear to influence the endometrium directly. Raloxifene appears to be finding a place for itself in the treatment and prevention of osteoporosis in postmenopausal women. At this moment it is not yet possible to foresee what the impact of SERMs will be in the treatment and prevention of cardiovascular diseases and breast cancer.
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PMID:[Selective estrogen-receptor modulators (SERM's) in postmenopausal women]. 1060 80

Raloxifene is a selective estrogen receptor modulator that produces both estrogen-agonistic effects on bone and lipid metabolism and estrogen-antagonistic effects on uterine endometrium and breast tissue. Because of its tissue selectivity, raloxifene may have fewer side effects than are typically observed with estrogen therapy. The most common adverse effects of raloxifene are hot flushes and leg cramps. The drug is also associated with an increased risk of thromboembolic events. The beneficial estrogenic activities of raloxifene include a lowering of total and low-density lipoprotein cholesterol levels and an augmentation of bone mineral density. Raloxifene has been labeled by the U.S. Food and Drug Administration for the prevention of osteoporosis. However, its effects on fracture risk and its ability to protect against cardiovascular disease have yet to be determined. Studies are also being conducted to determine its impact on breast and endometrial cancer reduction.
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PMID:Raloxifene: a selective estrogen receptor modulator. 1050 39

Selective estrogen receptor modulators (SERMs) act exclusively through estrogen receptors and possess tissue-specific agonistic or antagonistic properties. The effects of all referred SERMs in bone and cardiovascular system are estrogenic, namely they inhibit postmenopausal bone loss and favorably influence plasma lipoproteins and some coagulation factors. The aim of this paper is to review the effects of SERMs on estrogen-dependent breast tissues and on the endometrium. There are two types of SERMs in clinical use, based on their chemical structure: the triphenylethylenes and the benzothiophenes. The prototype of the SERMs with triphenylethylene structure is tamoxifen. Tamoxifen, like all other SERMs, is an estrogen antagonist in the breast and is widely used for adjuvant treatment of breast cancer. A recent study suggests that tamoxifen also may prevent breast cancer in patients at risk. Because of the partial estrogenic activity of tamoxifen in the endometrium, its clinical use is associated with uterine hypertrophy and an increased risk of endometrial cancer. Other triphenylethylene SERMs, droloxifene, toremifene, and idoxifene, also show efficacy in the treatment of breast cancer, in a manner similar to tamoxifen. A better toxicology profile and a decreased endometrial estrogen agonism may be advantages of the new triphenylethylene SERMs. Raloxifene is a SERM with a chemical structure different from triphenylethylenes. Raloxifene, a benzothiophene, possesses an estrogen-antagonistic effect in the breast similar to triphenylethylenes. Clinical studies on postmenopausal osteoporotic women on raloxifene as compared with placebo show a significant decrease in the rate of newly diagnosed breast cancers. In clinical studies, in contrast to tamoxifen, no stimulatory effect in the endometrium could be observed with raloxifene.
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PMID:[Effect of selective estrogen receptor modulators on estrogen-sensitive tissues]. 1062 80

Estrogens play a central role in reproductive physiology. The cellular effects of estrogens are mediated by binding to nuclear receptors (ER) which activate transcription of genes involved in cellular growth control. At least two such receptors, designated ERalpha and ERbeta, mediate these effects in conjunction with a number of coactivators. These receptors can directly interact with other members of the steroid receptor superfamily. A complex cross-talk exists between the estrogen-signaling pathways and the downstream signaling events initiated by growth factors, such as epidermal growth factor and insulin-like growth factors. Estrogens are also a causative factor in the pathogenesis of a variety of neoplastic and non-neoplastic diseases, including breast cancer, endometrial cancer, endometriosis, and uterine fibroids, among others. Antiestrogens, such as tamoxifen, are widely used for the treatment of breast cancer. Tamoxifen produces objective tumor shrinkage in advanced breast cancer, reduces the risk of relapse in women treated for invasive breast cancer, and prevents breast cancer in high-risk women. Although, initially developed as an antiestrogen, tamoxifen can also prevent postmenopausal osteoporosis as well as reduce cholesterol, due to its estrogen-agonist effects. Its estrogen-agonist activity, however, can lead to significant side-effects such as endometrial cancer and thromboembolic phenomena. This has led to the concept of "ideal" selective estrogen receptor modulators (SERMs), drugs that would have the desired, tissue selective, estrogen-agonist or -antagonist effects. Raloxifene is a SERM which has the desirable mixed agonist/antagonist effects of tamoxifen but does not cause uterine stimulation. "Pure" antiestrogens may provide very potent estrogen-antagonist drugs, but are likely to be devoid of beneficial effects on bone and lipids. Future drug development efforts should focus on developing superior SERMs that have a greater efficacy against ER-positive tumors and do not cause hot flashes or thromboembolism, and explore combination strategies to simultaneously target hormone-dependent as well as hormone-independent breast cancer.
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PMID:Antiestrogens--tamoxifen, SERMs and beyond. 1066 80

Selective estrogen receptor modulators (SERMs) appear to reduce the incidence of breast cancer in high-risk women. Five years of tamoxifen administration after the diagnosis of breast cancer results in a 50% reduction in the incidence of contralateral breast cancer. This reduction is maintained for 5 years after therapy is discontinued. The Study of Tamoxifen And Raloxifene (STAR), presently ongoing, will address the questions of breast cancer prevention, risk of endometrial cancer, the incidence of bone fractures, and coronary artery disease in women treated with these SERMs.
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PMID:Antiestrogens: clinical applications of pharmacology. 1073 29


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