The impact of estrogen replacement therapy and raloxifene on osteoporosis, cardiovascular disease, and gynecologic cancers

OBJECTIVE: To compare the clinical utility of estrogen replacement therapy (ERT) and raloxifene in osteoporosis and cardiovascular disease in postmenopausal women and to evaluate the contrasting adverse effects of these therapies. DATA SOURCES: A MEDLINE search was performed for January 1980 through September 1998 using the key terms raloxifene, estrogen, CVD, lipoproteins, and osteoporosis. STUDY SELECTION AND DATA EXTRACTION: All clinical studies assessing ERT and raloxifene in cardiovascular disease or osteoporosis were evaluated. DATA SYNTHESIS: ERT remains the standard for prevention and treatment of osteoporosis in women. Its use increases total bone mineral density (BMD) up to 12.1% and reduces hip fracture risk by 66-73%. It reduces low-density lipoprotein (LDL) cholesterol by 15-19% and increases high-density lipoprotein (HDL) cholesterol by 6-18%. Raloxifene, an alternative to ERT in the prevention of osteoporosis, increases total BMD by 2.2%. It reduces LDL by 6.2-14.1% and increases HDL by 1.5-5.7%. Preliminary data suggest that raloxifene has contrasting effects on gynecologic cancers compared with the increased risk posed by ERT. CONCLUSIONS: Clinical trials have illustrated greater effects on BMD with ERT than with raloxifene. Studies of significant duration assessing raloxifene and its fracture risk effects are lacking. ERT appears to have greater beneficial cardiovascular risk factor effects than raloxifene. Prospective, primary prevention studies evaluating overall cardiovascular risk reduction do not exist for either intervention. Raloxifene, while more costly, is an alternative that may have a lower associated risk of breast cancer compared with ERT.     

Role of raloxifene in breast cancer prevention in postmenopausal women: clinical evidence and potential mechanisms of action

BACKGROUND: Raloxifene is a selective estrogen-receptor modulator (SERM) indicated for the prevention and treatment of osteoporosis in postmenopausal women. In the Multiple Outcomes of Raloxifene Evaluation (MORE) study, an osteoporosis treatment trial, raloxifene therapy was associated with a reduced incidence of invasive, estrogen receptor (ER)-positive breast cancer compared with placebo (relative risk, 0.16; 95% CI, 0.09-0.30). OBJECTIVE: This review summarizes available preclinical and clinical data pertaining to a potential role for raloxifene in the prevention of breast cancer, and examines the mechanisms of action by which raloxifene may exert an effect. METHODS: Relevant articles were identified through a search of MEDLINE for English-language studies published between 1966 and January 2003. Search terms included raloxifene, keoxifene, tamoxifen, SERM, estrogen, estrogen receptor, breast, mammary, growth factors, and apoptosis. The reference lists of identified articles were reviewed for additional publications. RESULTS: Both preclinical and clinical data suggest a role for raloxifene in the prevention of breast cancer. Like tamoxifen, raloxifene acts as an estrogen antagonist in breast tissue through competitive binding to the ER. Raloxifene may also inhibit breast tissue proliferation through mechanisms independent of the ER. CONCLUSIONS: Given raloxifene's mechanism of action and the preclinical evidence for its role in breast cancer prevention, a clinically favorable effect seems feasible. Results of ongoing clinical studies will provide evidence to support or refute the clinical findings of MORE and thus raloxifene's role in the breast cancer prevention.     

Prevention and treatment of osteoporosis in women with breast cancer

Women who have had breast cancer may be at higher risk for osteoporosis than other women. First, they are more likely to undergo early menopause, due to chemotherapy-induced ovarian failure or oopherectomy. In addition, chemotherapy may have a direct adverse effect on bone mineral density (BMD), and osteoclastic activity may increase from the breast cancer itself. While estrogen therapy is considered standard for the prevention and treatment of osteoporosis, use of estrogen in women with a history of breast cancer is usually contraindicated. The approach to osteoporosis in women with breast cancer is also affected by the use of tamoxifen in many, as this drug appears to have opposite effects on BMD in premenopausal and postmenopausal women. We have reviewed therapeutic alternatives for the prevention and treatment of osteoporosis, focusing on patients with a history of breast cancer. Alendronate and raloxifene are currently approved in the United States for the prevention of osteoporosis; alendronate, raloxifene, and calcitonin are approved for treatment. Alendronate has the greatest positive effect on BMD and reduces the incidence of vertebral and nonvertebral fractures. Raloxifene and calcitonin appear to reduce the incidence of vertebral fractures; their effects on the incidence of nonvertebral fractures are not yet proven. Although no published studies specifically address the use of these approved agents for osteoporosis in women with breast cancer, understanding their relative effects on BMD in postmenopausal women in general will facilitate therapy selection in this population. Postmenopausal women with a history of breast cancer should undergo bone mineral analysis. Normal results and absence of other risk factors ensure that calcium and vitamin D intake are adequate. If osteopenia or other risk factors are present, preventive therapy with alendronate or raloxifene should be considered. For osteoporosis, treatment with alendronate should be strongly considered. Raloxifene and calcitonin are alternatives when alendronate is contraindicated. Further studies are needed to evaluate the optimal timing of initial bone mineral analysis in premenopausal women after breast cancer diagnosis and to determine the value of preventive treatment in women scheduled to undergo chemotherapy.     

Raloxifene: a selective estrogen receptor modulator.

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.     

Raloxifene (LY139481 HCI) prevents bone loss and reduces serum cholesterol without causing uterine hypertrophy in ovariectomized rats.

There is a medical need for an agent with the positive effects of estrogen on bone and the cardiovascular system, but without the negative effects on reproductive tissue. Raloxifene (LY139481 HCI) is a benzothiophene derivative that binds to the estrogen receptor and inhibits the effects of estrogen on the uterus. In an ovariectomized (OVX) rat model we investigated the effects of raloxifene on bone loss (induced by estrogen deficiency), serum lipids, and uterine tissue. After oral administration of raloxifene for 5 wk (0.1-10 mg/kg per d) to OVX rats, bone mineral density in the distal femur and proximal tibia was significantly greater than that observed in OVX controls (ED50 of 0.03-0.3 mg/kg). Serum cholesterol was lower in the raloxifene-treated animals, which had a minimal effective dose of 0.1 mg/kg and an approximate oral ED50 of 0.2 mg/kg. The effects of raloxifene on bone and serum cholesterol were comparable to those of a 0.1-mg/kg per d oral dose of ethynyl estradiol. Raloxifene diverged dramatically from estrogen in its lack of significant estrogenic effects on uterine tissue. Ethynyl estradiol produced a marked elevation in a number of uterine histologic parameters (e.g., epithelial cell height, stromal eosinophilia). These data suggest that raloxifene has promise as an agent with beneficial bone and cardiovascular effects in the absence of significant uterine effects.     

Selective estrogen receptor modulators

Because of recent concerns about the long-term risks of estrogen replacement therapy in postmenopausal women, there is growing interest in a group of compounds known as selective estrogen receptor modulators (SERMs). The SERMs bind to estrogen receptors and have tissue-specific effects that allow them to function as estrogen agonists in some tissues and estrogen antagonists in other tissues. There are four SERMs currently marketed in the United States. These include the triphenylethylenes--clomiphene citrate (Clomid), tamoxifen, and toremifene--and the benzothiophene, raloxifene. Clomid is used primarily in the treatment of infertility. Tamoxifen is indicated for the treatment and prevention of breast cancer. It has an estrogen antagonist effect on breast tissue, but an estrogen-like effect on lipids, bone, and the endometrium. Toremifene has an antagonist/agonist profile similar to that of tamoxifen. Raloxifene is approved for the prevention of osteoporosis in postmenopausal women. It is thought to be an estrogen antagonist on the uterus and breast tissues and an estrogen agonist with respect to bone and serum lipids.     

Raloxifene relaxes rat pulmonary arteries and veins: roles of gender, endothelium, and antagonism of Ca2+ influx

Effects of raloxifene have been documented in the systemic circulation. However, its impact on the pulmonary circulation is unclear. The present study investigated the role of gender, endothelial modulation, and Ca(2+) channel in relaxations evoked by raloxifene in rat pulmonary arteries and veins. Vascular responses were studied on isolated pulmonary blood vessels mounted in a myograph and constricted by U46619 (9,11-dideoxy-11alpha,9alpha-epoxymethanoprostaglandin F(2alpha)). Constrictions to CaCl(2) were studied in Ca(2+)-free, 60 mM K(+) solution. Changes in the intracellular calcium ion concentration ([Ca(2+)](i)) in vascular smooth muscle were measured using a calcium fluorescence imaging method. Raloxifene was more effective in relaxing U46619-constricted pulmonary arteries from male than female rats. Raloxifene-induced relaxation was unaffected by ICI 182,780 [7alpha-[9-[(4,4,5,5,5,-pentafluoropentyl)-sulfinyl]nonyl]-estra-1,3,5(10)-triene-3,17beta-diol], inhibition of the nitric oxide (NO) pathway, or removal of the endothelium. In arteries without endothelium, raloxifene attenuated CaCl(2)-induced constriction and CaCl(2)-stimulated increase in [Ca(2+)](i) with similar potencies. Raloxifene caused endothelium-independent relaxations in pulmonary veins, albeit to a lesser degree than in pulmonary arteries. The venous responses showed a gender difference because raloxifene was more potent in male veins. In summary, raloxifene relaxed rat pulmonary arteries, and this effect did not involve the endothelium/NO or ICI 182,780-sensitive estrogen receptors. Raloxifene, like nifedipine, reduced constriction and [Ca(2+)](i) increase in response to CaCl(2) in high K(+) solution. Raloxifene also relaxed high K(+)-constricted pulmonary veins. Our data indicate that raloxifene acutely relaxes rat pulmonary blood vessels primarily via inhibition of Ca(2+) influx through voltage-sensitive Ca(2+) channels. Finally, raloxifene induced more relaxation in blood vessels isolated from male than female rats.     

Effect of raloxifene on serum triglycerides in women with a history of hypertriglyceridemia while on oral estrogen therapy

OBJECTIVE: Raloxifene hydrochloride is a selective estrogen receptor modulator that to date has not been shown to cause hypertriglyceridemia in normal, diabetic, or hypertriglyceridemic women. This study was designed to assess the effect of raloxifene on serum triglycerides in postmenopausal women who have a history of increased hypertriglyceridemia with oral estrogen therapy. RESEARCH DESIGN AND METHODS: This was a single-center, uncontrolled, open-label study investigating the effects of 8 weeks of raloxifene (60 mg/day) therapy on plasma lipids. The study subjects were 12 postmenopausal women, ages 49-73 years, with a documented history of oral estrogen-induced hypertriglyceridemia (serum triglycerides > or =3.39 mmol/l [> or =300 mg/dl]). RESULTS: At week 2 of the study, three (25%) of the subjects withdrew from the trial because they developed marked hypertriglyceridemia (>or =11.3 mmol/l [> or =1,000 mg/dl]) during raloxifene therapy. These three women had higher baseline triglyceride and glucose levels, were not being treated with lipid-lowering agents, and were more likely to have diabetes than the other study subjects. The remaining nine patients (75%) completed the 8-week trial and experienced a nonsignificant increase in mean triglyceride levels from baseline to end point. Raloxifene treatment also resulted in a significant 16% decrease in hepatic lipase activity and a 26% increase in HDL(2) levels (P = 0.013 and 0.03, respectively). CONCLUSIONS: Patients with a previous history of hypertriglyceridemia on oral estrogen therapy should have serum triglyceride levels monitored closely after beginning raloxifene therapy and may even require fibrate therapy before beginning raloxifene.     

Lasofoxifene in osteoporosis and its place in therapy

Selective estrogen-receptor modulators (SERMs), which have estrogen-like effects on bone and “antiestrogen effects” on other tissues, have been in development for osteoporosis prevention and treatment in postmenopausal women as a safer alternative to long-term estrogen. We conducted a literature review of the skeletal and extraskeletal effects of lasofoxifene, a new generation SERM approved by the European Commission for osteoporosis treatment. Published data on the effects of lasofoxifene are based on 23 clinical pharmacology studies with over 10,000 participants from 17 phase 2 and 3 randomized controlled trials (RCTs). In RCTs, lasofoxifene decreases bone turnover markers (BTMs), increases bone mineral density (BMD) at the spine and hip, and decreases the incidence of vertebral and nonvertebral nonhip fractures compared with placebo. Compared with raloxifene, lasofoxifene gave greater decreases in BTMs, and greater increases in lumbar spine BMD. Lasofoxifene also decreased the risk of breast cancer, major coronary heart disease events, and stroke, but—similar to raloxifene—there was an increased risk of venous thromboembolism. In one trial, endometrial hypertrophy and uterine polyps were more common with lasofoxifene than with placebo, but endometrial cancer and hyperplasia were not. Lasofoxifene is probably most appropriate for use among women in their early or middle menopausal years (age 55-65) who have, or are at risk of developing, osteoporosis and in particular vertebral fractures. At the time of publication, lasofoxifene is not approved for use by the US Food and Drug Administration, and as such is not used in North America.     

Raloxifene elicits combined rapid vasorelaxation and long-term anti-inflammatory actions in rat aorta

Previous studies reported the ability of raloxifene to acutely relax arterial and venous vessels, but the underlying mechanisms are controversial. Anti-inflammatory effects of the drug have been reported in nonvascular tissues. Therefore, the aim of this study was to investigate the nature of short- and long-term effects of raloxifene on selected aspects of vascular function in rat aorta. Isometric tension changes in response to raloxifene were recorded in aortic rings from ovariectomized female rats that underwent estrogen replacement, whereas long-term experiments were performed in isolated aortic smooth muscle cells (SMCs). Raloxifene (0.1 pM-0.1 microM) induced acute vasorelaxation through endothelium- and nitric oxide (NO)-dependent, prostanoid-independent mechanisms. The relaxant response to raloxifene was significantly weaker than that to 17beta-estradiol and was sensitive to neither the nonselective estrogen receptor antagonist ICI 182,780 [7,17-[9[(4,4,5,5,5-pentafluoropentyl)sulfinyl]nonyl]estra-1,3,5(10)-triene-3,17-diol] nor a selective estrogen receptor (ER) alpha antagonist. This rapid vasorelaxant effect was retained in aortic rings from rats treated with 0.1 mg/kg, but not 1 mg/kg, lipopolysaccharide, 4 h before sacrifice. In cultured aortic SMCs, raloxifene treatment (1 nM-1 microM) for 24 h reduced inducible NO synthase activation in response to cytokines. This effect was prevented by the selective ERalpha antagonist and was associated with up-regulation of ERalpha protein levels, which dropped markedly upon cytokine stimulation. These findings illustrate the relevance of classic ER-dependent pathways to the vascular anti-inflammatory effects rather than to the nongenomic vasorelaxation induced by raloxifene and may assist in the design of novel ER isoform-selective estrogen-receptor modulators targeted to the vascular system.