UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

While estrogen is known to prevent the development of atherosclerosis, the mechanism is not completely understood. We investigated the effects of superoxide dismutase, acetylcholine, and other compounds on the release of nitric oxide (NO) by measuring the relaxation responses of aortic rings, with and without intact endothelium, taken from rabbits under various experimental conditions. The aorta of female rabbits released a greater amount of NO than did that of oophorectomized females and male rabbits. The greater basal release of NO in female rabbits was decreased in animals with atherosclerosis induced by a high cholesterol diet. We also investigated the effect of estrogen on endothelial, neuronal and inducible NO synthase (NOS), NOS-3, NOS-1 and NOS-2, respectively. Preincubation with a physiologic concentration of 17 beta-estradiol (10(-12) to 10(-8) M) over 8 h significantly enhanced the activity of NOS-3 in the endothelial cells of cultured human umbilical vein and bovine aortas. 17 beta-Estradiol also enhanced the release of NO from endothelial cells as measured by an NO selective meter and NO2-/N/3-, metabolites of NO. Western blot showed a similar effect of 17 beta-estradiol on NO. Estrogen increased NOS-3 via a receptor-mediated system. Low concentrations of 17 beta-estradiol (10(-10) to 10(-8) M) enhanced the activity of crude NOS-1 in the cytosolic fraction of rabbit cerebella. Partially purified NOS-1, obtained from the cytosolic fraction by DEAE column chromatography, had a similar response to estrogen. Estrogen at a low dose enhanced the fluorescence of dansyl calmodulin and augmented it in high doses. We also investigated the effect of estrogen on NOS-2. When J774 cells, a murine macrophage cell line, were incubated with interferon-r and lipopolysaccharide, NOS-2 was induced and a large amount of NO was released. Pre- or co-incubation of 17 beta-estradiol inhibited the induction of NOS-2 protein and NO release. The estrogen receptor antagonists, tamoxifen and ICI 182780, inhibited that effect of 17 beta-estradiol. 17 beta-Estradiol inhibited the induction of NOS-2 by a receptor-mediated system. These results may offer a new mechanism for the anti-atherosclerotic effect of 17 beta-estradiol.
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PMID:Effect of estrogen on isoforms of nitric oxide synthase: possible mechanism of anti-atherosclerotic effect of estrogen. 918 36

The purpose of this study was to investigate whether endothelium-derived nitric oxide (NO) is involved in the plasma lipid-independent antiatherogenic effect of estrogen and levormeloxifene, a partial estrogen receptor agonist. 85 rabbits were ovariectomized and balloon-injured in the middle thoracic aorta. The rabbits were fed a cholesterol-enriched diet supplemented with 17beta-estradiol, levormeloxifene, or placebo, either alone, or together with 160 microg/ml NG-nitro- -arginine methyl ester (-NAME), an NO synthase inhibitor, in their drinking water for 12 wk. Plasma cholesterol was maintained at 25-30 mmol/liter by individualized cholesterol feeding. In the undamaged aorta, the extent of atherosclerosis in the estrogen group was only one-third that in the placebo group. Simultaneous administration of -NAME, however, significantly reduced the antiatherogenic effect of estrogen (P < 0.01). There was no significant difference between the placebo group given -NAME and the group treated with placebo alone. At the previously endothelium-denuded site, estrogen had no effect on atherosclerosis development, whereas -NAME combined with estrogen significantly increased atherogenesis (P < 0.05). The effects of levormeloxifene were almost similar to those of estrogen. Active vascular concentrations of -NAME were demonstrated in an additional study, in which maximal aortic/coronary endothelium-dependent relaxation was significantly inhibited in rabbits given -NAME. Thus, in this study a considerable part of the plasma lipid-independent antiatherogenic effect of estrogen was mediated through its effect on endothelial NO in cholesterol-fed rabbits. The results for levormeloxifene suggest a common mechanism of action for estrogen and partial estrogen receptor agonists on atherogenesis.
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PMID:Significant reduction of the antiatherogenic effect of estrogen by long-term inhibition of nitric oxide synthesis in cholesterol-clamped rabbits. 925 81

Female sex hormones are known to affect lipoprotein flux in the artery wall and atherosclerosis. However, the mechanisms of these artery wall effects are unclear. To examine the effect of 17 beta-estradiol (estradiol) on LDL uptake in the artery wall, we developed an isolated perfused rat carotid artery model from ovariectomized rats. LDL flux in the artery wall was measured by quantitative fluorescence microscopy before and after treatment with estradiol (0.001 to 10,000 nmol/L). Dose-response experiments showed no significant difference in the rate of LDL uptake when arteries were perfused with estradiol at physiological concentrations (0.001 to 1 nmol/L) compared with control perfusions. However, higher concentrations of estradiol (10 to 10,000 nmol/L) significantly increased the rate of LDL uptake in isolated arteries. Artery lumen volume significantly increased with perfusion of estradiol (1 to 100 nmol/L) but decreased after perfusions of higher concentrations of estradiol (1000 to 10,000 nmol/L). Additional studies were performed to examine mechanisms of estradiol-mediated increases in LDL uptake. The effect of estradiol (10 nmol/L) on the rate of LDL uptake was blocked by nitric oxide synthase inhibitors. However, the estrogen receptor antagonist tamoxifen did not block the effects of estradiol on the rate of LDL uptake. Our study indicates that modulation of LDL uptake in the artery wall by estradiol is concentration dependent. High concentrations of estradiol increase LDL uptake by production of endothelium-derived nitric oxide. These observations suggest that increased nitric oxide production compromises endothelial layer barrier function to increase LDL uptake in the artery wall.
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PMID:Nitric oxide mediates LDL uptake in the artery wall in response to high concentrations of 17 beta-estradiol. 935 81

Estrogen replacement therapy retards the development of cardiovascular disease and osteoporosis in postmenopausal women. However, long-term unopposed use increases the risk of cancer in endometrium and possibly in breast. The racemic compound ormeloxifene, widely used in India as an antifertility agent, is a partial estrogen receptor agonist with antiosteoporotic properties. The present study was undertaken to investigate the effect of the L-enantiomer (levormeloxifene) and the d-enantiomer (d-ormeloxifene) on the development of atherosclerosis. In a short-term experiment (6 weeks), 4 x 10 ovariectomized female rabbits were fed a 0.25% cholesterol-enriched diet and the effect on plasma cholesterol levels was studied. In a long-term experiment (13 weeks), 4 x 15 ovariectomized female and 4 x 15 shamoperated male rabbits were maintained at a similar plasma cholesterol level of 25 mmol/L and the effect on undamaged and balloon-injured arterial wall was studied. In both experiments, the rabbits were treated with levormeloxifene, d-ormeloxifene, 17 beta-estradiol, or placebo, respectively. In the short-term experiment, levormeloxifene, in contrast to d-ormeloxifene, significantly reduced plasma cholesterol by 30% compared with the placebo group. In the long-term experiment, levormeloxifene, in contrast to d-ormeloxifene, significantly reduced atherosclerosis by 50% in the undamaged arterial wall of both female and male rabbits. Because these rabbits were cholesterol-clamped, the antiatherogenic effect was not mediated via plasma cholesterol lowering. Like estrogen, levormeloxifene did not inhibit atherosclerosis in the endothelium-denuded site of aorta. The antiatherogenic effects of levormeloxifene were thus similar to those of estrogen, but produced in the absence of any noticeable estrogenic effect on uterine or testicular tissue.
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PMID:A partial estrogen receptor agonist with strong antiatherogenic properties without noticeable effect on reproductive tissue in cholesterol-fed female and male rabbits. 935 99

Estradiol retards the development of atherosclerosis. Animal models have suggested that NO may be a critical effector molecule in this cardiovascular protection. In this study, female human umbilical vein endothelial cells (HUVECs) were propagated in phenol red-free gonadal hormone-free medium and pretreated with 17 beta-estradiol (E2). Reduced NO2- and NO3- (NOx) concentration, determined by chemiluminescence, demonstrated a rapid increase in basal HUVEC NO release in response to physiological concentrations of E2. The estrogen receptor (ER) antagonist ICI 164,384 inhibited the augmented NO release, demonstrating an ER-mediated component of this response. Because endothelial NO synthase (eNOS) activity is largely regulated by cytosolic Ca2+, relative [Ca2+]i in response to E2 was determined in a fluorometric assay. E2 did not promote HUVEC Ca2+ fluxes. Furthermore, eNOS activity in E2-pretreated endothelial whole-cell lysates was not dependent on additional Ca2+. Despite involving the ER, this is a nongenomic effect E2, as demonstrated by maintained responses in transcriptionally inhibited cells and by the rapidly (10 minutes) of cGMP formation in an NO bioassay. We demonstrate, for the first time, that independent of cytosolic Ca2+ mobilization, there is augmentation of eNOS activity with a resultant increase in HUVEC basal NO release in response to short-term estradiol exposure. Implications for the cardiovascular protective role of estrogen are discussed.
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PMID:17 beta-estradiol regulation of human endothelial cell basal nitric oxide release, independent of cytosolic Ca2+ mobilization. 935 64

Estrogen treatment affects the hepatic synthesis and/or secretion of several proteins involved in clinically important pathological processes such as atherosclerosis, hypertension, and thrombosis. The endocrine regulation of the estrogen receptor (ER) concentration in primary cultures of rat hepatocytes was studied. Human growth hormone (hGH) and dexamethasone (DEX) in combination increased ER concentration 6-fold and ER mRNA levels 2.5-fold. These effects were not significantly different from those observed after treatment with the purely somatogenic bovine growth hormone (GH) in combination with DEX. Treatment with the lactogen ovine prolactin in the presence or absence of DEX did not significantly affect ER or ER mRNA concentrations. Triiodothyronine treatment at the most effective concentration (50 nM) increased ER and ER mRNA levels twofold. Medium supplementation with estradiol (0.1 nM) throughout the experiment did not affect the response to treatment with hGH and DEX. Treatment with high concentrations of ethinylestradiol in combination with hGH and DEX, however, increased the ER level twice as much as hGH and DEX without addition of estradiol or ethinylestradiol, whereas the ER mRNA concentration was the same in both the GH+DEX group and GH+ DEX+ (estradiol or ethinylestradiol) groups. These data indicate the importance of GH in combination with glucocorticoids for the maintenance of ER concentrations in the rat liver. Thyroid hormones may be of some, although minor importance, whereas the data suggest that prolactin is not directly involved in hepatic ER regulation.
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PMID:Hormonal regulation of the estrogen receptor in primary cultures of hepatocytes from female rats. 938 11

The effect of natural androgens on serum lipids and atherosclerosis is controversial. We therefore studied this important issue prospectively in an animal model of atherosclerosis. Eighty male rabbits were randomized to bilateral castration, and 20 animals were sham operated. The castrated rabbits were randomized to 500 mg oral dehydroepiandrosterone (DHEA) daily, 80 mg oral testosterone undecanoate (TU) daily, or 25-mg intramuscular injection of testosterone enanthate (TE) twice weekly, whereas the fourth castrated group (placebo) and the sham-operated rabbits did not receive any hormones. All animals were fed a cholesterol-rich diet during the 30-week treatment period. Average serum lipids and atherogenic lipoproteins were higher in the placebo group than in the other groups (ANOVA, P<0.0001). Aortic atherosclerosis, as evaluated by the cholesterol content (nmol/mg protein), was also highest in the placebo group (308+/-39) and lowest in the TE group (61+/-12), but was intermediate in the DHEA (155+/-30), TU (191+/-43), and sham operation (162+/-29) groups (ANOVA, P<0.0001). ANCOVA indicated that the androgen effect on aortic atherosclerosis was only in part explained by the changes in lipoproteins. Aortic estrogen receptor contents were significantly lower in the androgen-treated groups than in the control groups, whereas there was no difference in aortic androgen receptor contents between groups. Natural androgens inhibit aortic atherosclerosis in castrated male rabbits only partly through a lipid-mediated effect.
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PMID:Natural androgens inhibit male atherosclerosis: a study in castrated, cholesterol-fed rabbits. 1020 49

Selective estrogen receptor modulators (SERMs) represent a growing class of compounds that act as either estrogen receptor agonists or antagonists in a tissue-selective manner. Preclinical and clinical studies have shown that estrogen has favorable effects on serum lipids and might affect processes at the blood vessel wall to inhibit atherosclerosis. SERMs with the appropriate selectivity profile offer the opportunity to dissociate these favorable cardiovascular effects of estrogen from its unfavorable stimulatory effects on the breast and uterus. This article reviews the data from both animal and human studies that document the cardiovascular effects of SERMs and discusses the clinical implications of these results.
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PMID:The Potential of SERMs for Reducing the Risk of Coronary Heart Disease. 1048 Nov 63

17 beta-estradiol (E2) protects against atherosclerosis independent of changes in plasma lipoproteins in a variety of animal models, which is explained by direct effects of E2 on the vascular wall. E2 improves vasomotion by modulation of vasoconstrictor and vasodilator systems through endothelium-dependent and endothelium-independent mechanisms. E2 affects the remodeling of the vascular wall by inhibiting smooth muscle cell proliferation and accelerating reendothelialization of injured blood vessels. E2 modulates the vascular inflammatory response by inhibiting cytokine production, cytokine-induced expression of cell adhesion molecules and platelet aggregation/adhesion. This review focuses on the cellular and molecular mechanisms underlying these vasculoprotective actions of E2. E2 can act through nongenomic stimulation of membrane/intracellular mediators and/or the classical genomic pathway of steroid actions, which is dependent on transcription and protein synthesis. The existence of at least two nuclear estrogen receptor (ER) subtypes alpha and beta and a putative membrane ER present the potential of tissue-specific as well as biologically different E2 actions. Nuclear ERs act as ligand-activated transcription factors and can affect gene regulation by interaction with the classical estrogen response element or other nonreceptor transcription factors. The molecular basis of genomic E2 actions by identifying transcription factors and regulatory elements involved in the induction and inhibition of E2 regulated gene expression is only at the beginning of being understood. The impact of E2-mediated increased NO availability on the hemodynamic and antiatherosclerotic actions of E2 is still a debate of controversy.
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PMID:Postmenopausal hormone replacement therapy and the vascular wall: mechanisms of 17 beta-estradiol's effects on vascular biology. 1061 78

Due to the improving life expectancy of women spend third of their active life after the menopause. Estrogen deficiency can be caused by both natural and artificial menopause. The lack of estrogen can directly worsen the quality of life and epidemiological evidence suggests association with development of certain diseased states. Hormone replacement with natural estrogens has been proven to be successful for various indications: it reduces the menopausal vasomotor and psychological symptoms thus improving quality of life. It can also be used to prevent harmful effects of estrogen deficiency in various organs. Literature review supports the role of estrogen in atherosclerosis and osteoporosis prevention. Further evidence required establishing the role of estrogens in secondary prevention of coronary artery disease. Also needs to be explained why the beneficial effects of estrogen therapy in osteoporosis seem to disappear soon after cessation of therapy. Currently the relative risk increase of breast cancer during long-term hormone replacement therapy cannot be exactly measured. Nevertheless, substantial reduction of mortality in estrogen receptor positive breast cancer can also be seen with women on hormone replacement as compared to controls. Some data support the negative correlation of residual but still detectable, endogen estrogen and atherosclerosis and similarly to osteoporosis. The same residual estrogen levels seem to correlate positively with breast cancer. The recognition (and further acceptance) of the role of the residual estrogens might have influence on the indication, choice and dosage of preparation and duration of hormone replacement therapy. Overall evidence is in favor of the need medical attention for menopause: which ranges from preventive screening to long term hormone replacement therapy. The decision to treat requires the risks and benefits taken into consideration. This highly specialized care is provided in menopause clinics in Hungary. New oestrogen like agents are being developed like the selective estrogen receptor modulators, the tibolone and the phyto-estrogens. They provide tissue-specific effect acting as estrogen agonistics, sustaining the beneficial preventive and therapeutic effects of the estrogens, but in the breast and endometrial tissue they behave like estrogen antagonists avoiding the side effects of the current used oestrogens. They might play a significant role in the treatment of menopause in the future.
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PMID:[Menopause and hormone replacement therapy]. 1074 Nov 67

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