UNIPROT:P06889 - FACTA Search

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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.
J Steroid Biochem Mol Biol 1996 Dec
PMID:Tissue selective action of tamoxifen methiodide, raloxifene and tamoxifen on creatine kinase B activity in vitro and in vivo. 901 Mar 44

Raloxifene (LY139481 HCl) is a selective estrogen receptor modulator (SERM) which blocks the effects of estrogen on some tissues, such as the breast and uterus, while mimicking estrogen in other tissues, such as bone. To study the origins of this unique pharmacology, we have prepared the major metabolites of raloxifene as chemical probes for examining the estrogen receptor function in vitro and in vivo. In human breast cancer cell (MCF-7) related assays, these glucuronide conjugates show little affinity for the estrogen receptor and are more than two orders of magnitude less potent at inhibiting cell proliferation than raloxifene. In non-traditional estrogen target tissue, such as bone, these metabolites are less effective than the parent at inhibiting cytokine-stimulated bone resorbing activity in rat osteoclasts or producing transforming growth factor beta-3 (TGF-beta3). In animal models, tissue distribution studies with radiolabelled metabolite indicate that conversion to raloxifene occurs readily in a variety of tissues including the liver, lung, spleen, kidney, bone and uterus. Differential conversion of metabolite in target organs, such as bone and the uterus, is not observed indicating that the origin of raloxifene's pharmacology does not result from tissue-selective deconjugation of metabolite to parent.
J Steroid Biochem Mol Biol 1997 Apr
PMID:Evaluation of the major metabolites of raloxifene as modulators of tissue selectivity. 932 15

Although controversy remains regarding direct effects of estrogen on bone, in vivo data clearly show that estrogens suppress bone turnover, resulting in decreased bone resorption and formation activity. Selective estrogen receptor modulators (SERMs), such as raloxifene, produce effects on bone which are very similar to those of estrogen. In vitro, both raloxifene and estrogen inhibit mammalian osteoclast differentiation and bone resorption activity, but only in the presence of IL-6. Data from a number of ovariectomized rat model manipulations (i.e. hypophysectomy, low calcium diet and drug combinations) demonstrate a strong parallel between the antiosteopenic effects of raloxifene and estrogen. A characteristic action of estrogens on the skeleton is inhibition of longitudinal bone growth, an effect which is not observed with other resorption inhibitors, including calcitonin and bisphosphonates. Consistent with an estrogen-like mechanism on bone, raloxifene inhibits longitudinal bone growth in growing rats. In addition to the overall similarity of the bone activity profile in animals, estrogen and raloxifene also produce similar effects on various signaling pathways relative to the antiosteopenic effect of these two agents. For example, IL-6, a cytokine involved in high turnover bone resorption following estrogen deficiency in rats, is suppressed by both raloxifene and estrogen. Raloxifene and estrogen also produce a similar activation of TGF-beta3 (a cytokine associated with inhibition of osteoclast differentiation and activity) in ovariectomized rats. Like 17beta-estradiol, raloxifene binds with high affinity to both estrogen receptor-alpha (ER alpha) and estrogen receptor-beta (ER beta). Crystal structure analyses have shown that 17beta-estradiol and raloxifene bind to ER alpha with small, but important, differences in three dimensional structure. These subtle differences in the conformation of the ligand:receptor complex are likely the basis for the key pharmacological differences between estrogens and the various SERMs (i.e. raloxifene vs tamoxifen). Raloxifene also produces estrogen-like effects on serum cholesterol metabolism and the vasculature. Thus, while raloxifene exhibits a complete estrogen antagonist in mammary tissue and the uterus, it produces beneficial effects on the cardiovascular system and prevents bone loss via an estrogen receptor mediated mechanism.
J Steroid Biochem Mol Biol
PMID:An estrogen receptor basis for raloxifene action in bone. 1041 79

Tamoxifen has not only proved to be a valuable treatment for estrogen receptor (ER)-positive breast cancer, but is also a pioneering medicine for chemoprevention in high-risk pre- and postmenopausal women. Insights into the pharmacology and toxicology of tamoxifen have led to the recognition of selective ER modulators (SERMs) with estrogen-like actions in maintaining bone density and in lowering circulating cholesterol, but antiestrogenic actions in the breast. Raloxifene, a related SERM, is now available to treat osteoporosis and is also being tested as a preventive for breast cancer and coronary heart disease. Emerging knowledge about the action of SERMs will provide clues for the design of mechanism-based medicines.
Trends Mol Med 2002 Feb
PMID:Selective estrogen receptor modulators (SERMS) and their roles in breast cancer prevention. 1181 74

Tamoxifen has been shown to decrease the risk of invasive breast cancer by 49% and noninvasive breast cancer by 50%. Tamoxifen is also associated with a threefold increased risk of endometrial cancer. Raloxifene, a second-generation selective estrogen receptor modulator (SERM), has not been associated with endometrial cancer risk, and is currently under study in a large, multi-institutional, randomized Study of Tamoxifen and Raloxifene (STAR) for breast cancer prevention in postmenopausal women. A pilot trial of raloxifene in premenopausal women to assess the safety, tolerability, effects on bone mineral density, mammographic density, and other biological endpoints is ongoing. The retinoids have been shown to decrease mammary tumors in rodent carcinogenesis models. The Italian trial of fenretinide (4-HPR) in women with stage I breast cancer randomized women to fenretinide or no intervention. This study did not show an overall effect of decreasing the risk of contralateral breast cancer. However, a protective effect was suggested in premenopausal women. It has been suggested that this effect may be related to insulin-like growth factor 1 (IGF-1), which has been shown to be modulated by fenretinide in premenopausal but not postmenopausal women. Pilot studies of SERMs alone and in combination with retinoids or other agents provide a model for testing the safety and tolerability, pharmacokinetics and pharmacodynamics, and biomarker modulation in high-risk women. These studies can provide information as to both the pathophysiology of carcinogenesis and the mechanism of action of chemopreventive agents, and help select agents and doses for testing in large randomized studies.
Environ Mol Mutagen 2002
PMID:Selective estrogen receptor modulators (SERMs) and retinoids in breast cancer chemoprevention. 1192 Nov 97

Raloxifene (Ral) has estrogenic activity in bone and cardiovascular tissues, but is antiestrogenic in breast and has limited uterotrophic activity in mice. Here we report that Ral stimulates the growth of human endometrial Ishikawa tumors implanted in the mammary fat pad of nude ovariectomized mice. In cultured Ishikawa cells, Ral has agonist effects on transcription mediated by the progesterone receptor, an endogenous estrogen target gene, and on expression of reporter genes containing estrogen response elements (EREs). Both Ral and tamoxifen (Tam), but not estradiol, stimulated transcription mediated by the activator protein 1 at micromolar concentrations. However, this effect correlated with induction of cellular death at high concentrations of Ral or Tam and was not observed at lower concentrations. Our results suggest that Ral has stimulatory effects in Ishikawa cells on both cellular growth and gene transcription, and that EREs can mediate some of these effects.
Mol Cell Endocrinol 2002 Apr 25
PMID:Growth-stimulatory and transcriptional activation properties of raloxifene in human endometrial Ishikawa cells. 1199 79

The dose-dependent effect of a 24 h treatment with estradiol (E(2)) (1, 2, 5, 10 nM) and raloxifene (Rx) (1, 5, 10, 20 microM) on ER alpha and ER beta mRNA expression, collagen bio-synthesis, prolidase activity, MMP-2, MMP-9, insulin-like growth factor I receptor expression (IGF-1R) and beta1-integrin expressions in cultured fibroblasts obtained from postmenopausal women were examined. Both ligands increased mRNA expression of ER compared to control. Rx at 5 and 10 microM concentrations had greater stimulative effect on collagen biosynthesis, prolidase activity and IGF-1R expression compared to E(2) at 2 and 5 nM concentration. Both studied ER ligands had no effect on beta1-integrin receptor expressions. MMP-2 expression was not detected in human skin fibroblast culture. In contrast to estradiol raloxifene inhibited the expression of MMP-9. Raloxifene had stronger positive stimulative effects on collagen biosynthesis, through different biochemical mechanisms, than estradiol in human skin fibroblasts and might reverse some of the postmenopausal changes in skin or connective tissue. Increase of collagen synthesis induced by raloxifene may be activated by both estrogen receptor dependent and independent pathways such as up-regulation of estrogen receptors, up-regulation of IGF receptor, transcriptional regulation of collagen genes by estrogen receptor-raloxifene complex, increasing of prolidase activity or finally by inhibition of MMP-9 expression.
Int J Mol Med 2003 Nov
PMID:Differential effects of estradiol and raloxifene on collagen biosynthesis in cultured human skin fibroblasts. 1453 13

Estrogens and selective estrogen receptor modulators (SERMs) interact with estrogen receptor (ER) alpha and beta to activate or repress gene transcription. To understand how estrogens and SERMs exert tissue-specific effects, we performed microarray analysis to determine whether ERalpha or ERbeta regulate different target genes in response to estrogens and SERMs. We prepared human U2OS osteosarcoma cells that are stably transfected with a tetracycline-inducible vector to express ERalpha or ERbeta. Western blotting, immunohistochemistry, and immunoprecipitation studies confirmed that U2OS-ERalpha cells synthesized only ERalpha and that U2OS-ERbeta cells expressed exclusively ERbeta. U2OS-ERalpha and U2OS-ERbeta cells were treated either with 17beta-estradiol (E2), raloxifene, and tamoxifen for 18 h. Labeled cRNAs were hybridized with U95Av2 GeneChips (Affymetrix). A total of 228, 190, and 236 genes were significantly activated or repressed at least 1.74-fold in U2OS-ERalpha and U2OS-ERbeta cells by E2, raloxifene, and tamoxifen, respectively. Most genes regulated in ERalpha cells in response to E2, raloxifene, and tamoxifen were distinct from those regulated in ERbeta cells. Only 38 of the 228 (17%) genes were regulated by E2 in both U2OS-ERalpha and U2OS-ERbeta cells. Raloxifene and tamoxifen regulated only 27% of the same genes in both the ERalpha and ERbeta cells. A subset of genes involved in bone-related activities regulated by E2, raloxifene, and tamoxifen were also distinct. Our results demonstrate that most genes regulated by ERalpha are distinct from those regulated by ERbeta in response to E2 and SERMs. These results indicate that estrogens and SERMs exert tissue-specific effects by regulating unique sets of targets genes through ERalpha and ERbeta
Mol Biol Cell 2004 Mar
PMID:Estradiol and selective estrogen receptor modulators differentially regulate target genes with estrogen receptors alpha and beta. 1469 72

Post-menopausal women have higher incidence of heart diseases compared to pre-menopausal women, suggesting a protective role for estrogen. The recently Women's Health Initiative (WHI) randomized controlled trial concluded that the overall heart risk exceeded benefits from use of combined estrogen and progestin as hormone replacement therapy for an average of five years among healthy postmenopausal US women. Therefore, there is an urgent need for new agents with tissue-selective activity with no deleterious effects. In the present study, we tested the effects on vascular tissues in vitro and in vivo of two natural compounds derived from licorice root: glabridin, the major isoflavan, and glabrene, an isoflavene, both demonstrated estrogen-like activities. Similar to estradiol-17beta (E2), glabridin (gla) stimulated DNA synthesis in human endothelial cells (ECV-304; E304) and had a bi-phasic effect on proliferation of human vascular smooth muscle cells (VSMC). Raloxifene inhibited gla as well as E2 activities. In animal studies, both intact females or after ovariectomy, gla similar to E2 stimulated the specific activity of creatine kinase (CK) in aorta (Ao) and in left ventricle of the heart (Lv). Glabrene (glb), on the other hand, had only the stimulatory effect on DNA synthesis in vascular cells, with no inhibition by raloxifene, suggesting a different mechanism of action. To further elucidate the mechanism of action of glb, cells were pre-incubated with glb and then exposed to either E2 or to gla; the DNA stimulation at low doses was unchanged but there was abolishment of the inhibition of VSMC cell proliferation at high doses as well as inhibition of CK stimulation by both E2 and by gla. We conclude that glb behaved differently than E2 or gla, but similarly to raloxifene, being a partial agonist/antagonist of E2. Glabridin, on the other hand, demonstrated only estrogenic activity. Therefore, we suggest the use of glb with or without E2 as a new agent for modulation of vascular injury and atherogenesis for the prevention of cardiovascular diseases in post-menopausal women.
J Steroid Biochem Mol Biol 2004 Jul
PMID:Estrogen-like activity of licorice root constituents: glabridin and glabrene, in vascular tissues in vitro and in vivo. 1527 22

Data from both in vivo and in vitro experiments demonstrated that glabridin and glabrene are similar to estradiol-17beta in their stimulation of the specific activity of creatine kinase, although at higher concentrations, but differ in their extent of action and interaction with other drugs. In pre-menopausal human bone cells, the response to estradiol-17beta and glabridin (at higher concentration) was higher than in post-menopausal cells; whereas, glabrene (at higher concentration) was more effective in post-menopausal cells. At both ages, the response to estradiol-17beta and glabridin was enhanced by pretreatment with the less-calcemic Vitamin D analog CB 1093 (CB) and the demonstrably non-calcemic analog JK 1624 F(2)-2 (JKF). The response to glabrene was reduced by this pretreatment. Both glabridin and glabrene stimulated creatine kinase specific activity in diaphyseal bone and epiphyseal cartilage of prepubertal female rats. Daily feeding (3-14 days) of prepubertal female rats with glabridin, estradiol-17beta or their combination, also stimulated creatine kinase specific activity. Glabridine, similarly to estradiol-17beta, also stimulated creatine kinase specific activity in ovariectomized female rats. Raloxifene, in combination with glabridin or estradiol-17beta, demonstrated the phenomenon of mutual annihilation of stimulation of creatine kinase specific activity in both epiphysis and diaphysis. Glabrene activity was not inhibited by raloxifene. Therefore, glabridin shows greater similarity to estradiol-17beta and thus greater potential, with or without Vitamin D, to modulate bone disorders in post-menopausal women.
J Steroid Biochem Mol Biol 2004 Aug
PMID:Estrogenic activity of glabridin and glabrene from licorice roots on human osteoblasts and prepubertal rat skeletal tissues. 1533 1

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