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

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

Estrogen decreases low density lipoprotein (LDL) particle size, and smaller LDL particles are associated with coronary atherosclerosis. To understand the metabolic basis for this change, we studied the effect of oral 17 beta-estradiol (2 mg/day) on apolipoprotein B-100 (apoB) metabolism, in eight healthy postmenopausal women. The study was a randomized, double blinded, placebo-controlled, cross-over trial with intervention sequences of 6 weeks each. ApoB in very low density lipoprotein, intermediate density lipoprotein, and LDL subclasses was endogenously labeled with [D3]L-leucine, and metabolic rates were calculated by computer modeling. The overall effect of oral estrogen therapy on apoB metabolism was to accelerate the fractional catabolic rates of all particles studied and production rates of all except IDL. For light LDL (density = 1.019-1.036 g/mL), estrogen increased the mean fractional catabolic rate by 63% from 0.59 to 0.96 pools/day (P = 0.02), whereas the production rate increased by a lesser amount (42%) from 575 to 817 mg/day (P = 0.10). These metabolic changes reduced light LDL cholesterol and apoB concentrations by 26% (P = 0.005) and 19% (P = 0.03), respectively. In contrast, dense LDL (density = 1.036-1.063 g/mL) cholesterol and apoB concentrations were unchanged by the intervention, as both the apoB fractional catabolic rate and production rate were significantly increased by similar amounts, 39% (from 0.41 to 0.57 pools/day, P = 0.01) and 38% (from 434 to 601 mg/day; P = 0.003), respectively. Estrogen decreased the predominant LDL peak particle size from 273 to 268 A (P = 0.04). Thus, estrogen therapy increases the clearance of both light and dense LDL, counteracting increases in production rates. The reduced plasma residence times of light and dense LDL both may be antiatherogenic, even though, for dense LDL, the concentration did not change.
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PMID:Effect of estrogen on very low density lipoprotein and low density lipoprotein subclass metabolism in postmenopausal women. 939 94

Older oral contraceptive (OC) formulations containing high doses of potent synthetic estrogens and progestins are associated with increased risk of thrombosis. To examine the effects of current low-dose OC and hormone replacement therapy (HRT) regimens on arterial thrombosis, premenopausal and surgically postmenopausal cynomolgus monkeys were divided into four treatment groups. Premenopausal monkeys were given either no OCs or ethinyl estradiol and levonorgestrel as an OC at a dose equivalent to that currently given to women. Postmenopausal monkeys were given either no HRT or conjugated equine estrogens and medroxyprogesterone as an HRT at a dose equivalent to that currently given to women. The monkeys were fed an atherogenic diet containing these treatments for 27 to 30 months. At the end of this time, arterial thrombosis was evaluated with a standardized stenosis/injury procedure in the left carotid artery. Blood flow velocity was monitored for cyclic or permanent occlusive thrombosis. The current OC and HRT regimens did not increase the susceptibility of the artery wall to develop an occlusive thrombus following injury and stenosis. In fact, there was a reduction in the incidence of thrombosis in the OC animals compared with untreated controls. Increased amounts of atherosclerosis were associated with an increased incidence of occlusive arterial thrombosis. Several selected coagulation parameters [von Willebrand factor, protein C, lipoprotein(a), and platelet aggregation] did not appear to be associated with either the amount of atherosclerosis or incidence of arterial thrombosis.
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PMID:Oral contraceptives and hormone replacement therapy do not increase the incidence of arterial thrombosis in a nonhuman primate model. 944 61

The development of atherosclerosis in animal models and the incidence of coronary heart disease in postmenopausal women are markedly reduced by estrogen treatment. Estrogen have acute beneficial effects on vascular reactivity and longer-term effects on critical steps in the pathogenesis of atherosclerosis. Phytoestrogens present in soybeans and other plant products are weak estrogens but appear to have potent beneficial effects on the arterial wall. The phytoestrogens have certain similarities to 'designer hormones' which are being developed to retain their beneficial effects on the cardiovascular system and the skeleton without having cancer promoting effects on the breast and endometrium.
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PMID:Estrogens and atherosclerosis: phytoestrogens and selective estrogen receptor modulators. 981

There is a strong link between menopause and increased cardiovascular disease incidence in women, and observational studies suggest that postmenopausal hormone replacement therapy reduces cardiovascular disease risk by about half. Observational studies suffer from important limitations, however, and the only published prospective controlled trial of the effects of hormone replacement therapy on cardiovascular outcomes, the Heart Estrogen-Progestin Replacement Study (HERS), showed no net benefit of continuous estrogen plus synthetic progestin treatment in women with established coronary disease. Fundamental mechanistic studies of the cellular and molecular events by which hormones protect (or fail to protect) blood vessels from damage are needed to define the role of postmenopausal hormone replacement therapy in cardiovascular disease prevention. Most studies suggest that estrogen inhibits the neointimal response to acute injury in normal blood vessels, but this vasoprotective effect was not seen in vessels with preexisting atherosclerosis. Studies from our laboratory in the rat carotid injury model have shown that estrogen inhibits neointima formation via effects on all 3 layers of the vascular wall, including inhibition of medial smooth muscle cell migration and proliferation, stimulation of regrowth of endothelium, and inhibition of adventitial cell migration into neointima. Our laboratory is currently using transduced (lacZ) syngeneic fibroblasts as 'reporter' cells to delineate the factors that stimulate migration of adventitial cells into neointima after vascular injury and their modulation by estrogen and the other sex hormones. These fundamental studies will establish more rational strategies for therapeutic intervention in vascular diseases, including the basis for future gene therapy.
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PMID:Arthur C. Corcoran Memorial Lecture. Hormones and vasoprotection. 993 Nov

As women undergo menopause, circulating concentrations of estrogen decrease. The relative estrogen deprivation in postmenopausal women is associated with physiological changes and increased risk of several diseases, including cardiovascular disease. Studies in animals have shown that exogenous estrogen inhibits atherosclerosis, the underlying cause of cardiovascular disease. Ongoing clinical trials will soon provide data for the effect of exogenous estrogen on cardiovascular disease in postmenopausal women. Estrogen has a number of effects that could influence atherogenesis and cardiovascular disease. Estrogens have favorable effects on lipoproteins, but such effects can only account for part of the protection from cardiovascular disease that appears to be conferred by estrogen. Evidence suggests that estrogens can have both prooxidant and antioxidant effects. However, the available evidence suggests that in vivo physiological concentrations of estrogen may have a modest antioxidant activity, and prooxidant activity is unlikely. The antioxidant activity of estrogens and inhibition by estrogens of cellular processes that are thought to promote atherosclerosis are likely to be additional mechanism(s) by which estrogen inhibits atherosclerosis and cardiovascular disease, but more work is needed. Studies of some effects of estrogens on atherogenic processes in isolated cells need to be extended to the whole animal. The influence of estrogen receptors on inhibition of atherosclerosis by estrogen needs to be clarified. Future studies should be designed to investigate separately the estrogenic and antioxidant activities of estrogens and estrogen analogs. Investigations of the antioxidant activities of estrogens should include careful consideration of the interaction of estrogens with endogenous antioxidants and fatty acid saturation, and more attention should be paid to the potential for estrogens to inhibit intraarterial oxidation.
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PMID:Aging, menopause, and free radicals. 1010 10

Oxidative stress and free radical-mediated cell death have been linked to diseases such as atherosclerosis, Alzheimer's disease, and cancer. Estrogens may promote, or offer protection against these conditions, by acting both as an antioxidant and prooxidant. Estrogens are converted to catecholestrogens via an oxidation step. Catecholestrogens are precursors of quinones that undergo a reversible oxidation-reduction reaction yielding semiquinones and reactive oxygen species. These semiquinones and reactive oxygen species may act as prooxidants and result in DNA and protein damage that may play a role in initiating tumor growth. Estrogen may also stimulate the peroxidase reaction, thereby promoting prooxidant reactions catalyzed by estrogen. Such reactions may be involved in enhancing the oxidizability of low-density lipoproteins (LDL). This mechanism of oxidation of LDL in plasma may actually lead to increased clearance of LDL by the liver and thereby contribute to estrogens' antiatherogenic action. On the other hand, participation of catecholestrogens in iron redox cycling may contribute to the antioxidant action of estrogens. This action might be important in sites such as the subendothelial space where estrogens are thought to inhibit LDL oxidation. Estrogens may also exert antioxidant effects by acting on genes with response elements for antioxidants. This may in turn inhibit expression of certain proteins involved in disease processes such as atherogenesis. Thus, by acting as an antioxidant and prooxidant, estrogen may produce both beneficial and adverse effects important in the prevention and pathogenesis of disease.
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PMID:Antioxidant and prooxidant actions of estrogens: potential physiological and clinical implications. 1010 11

Human internal mammary arteries (IMA) are relatively protected from atherosclerosis. Estrogen plays a protective role in cardiovascular disease. It causes in vitro and in vivo vasodilatation, but the mechanisms are contradictory. To investigate the in vitro vasomotor effect of estrogen on IMA and the role of endothelium, we studied 30 IMA segments harvested from 10 men during coronary artery bypass grafting surgery. Patients with diabetes mellitus, hypercholesterolemia, hypertension, and smoking were excluded. Twenty IMA rings had intact endothelium ((+)Endo) and 10 rings were denuded of endothelium ((-)Endo). Vasomotor response of each ring was expressed as the percentage of maximal response to norepinephrine (NE). Acetylcholine (10(-8)-10(-5) M) given to (+)Endo and (-)Endo rings induced vasorelaxation of 72 +/- 30.4% and vasoconstriction of 48.5 +/- 20.1%, respectively. 17-Beta-estradiol (10(-8)-10(-5) M) given after maximal precontraction with NE induced marked relaxation in (+)Endo (80.9 +/- 39.2%), but no significant vasomotor effect in (-)Endo rings (P < 0.0001). Vasorelaxation to 17-beta-estradiol (10(-6) M) in (+)Endo rings was 64.5 +/- 18.4 and 8.6 +/- 8.4%, before and after 15-min treatment with nitric oxide synthase inhibitor, L-nitroarginine methyl ester, respectively (n = 14, P < 0.0001). Tamoxifen (10(-6) M) decreased 17-beta-estradiol (10(-7) M)-induced relaxation by 71%. In conclusion, 17-beta-estradiol induces endothelium-dependent NO-mediated vasodilation of human mammary arteries in vitro. This response is mediated through estrogen receptors.
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PMID:Estrogen induces nitric oxide-mediated vasodilation of human mammary arteries in vitro. 1034 89

Expression of inducible nitric oxide synthase (iNOS) and the resultant increased nitric oxide (NO) production are associated with septic shock, atherosclerosis, and cytokine-induced vascular injury. Estrogen is known to impact vascular injury and vascular tone, in part through regulation of NO production. In the current study, we examined the effect of physiological concentrations of estradiol on interleukin-1beta (IL-1beta)-induced NO production in rat aortic endothelial cells (RAECs). 17Beta-estradiol significantly decreased IL-1beta-induced iNOS protein levels and reduced NO production in RAECs. High glucose (25 mM) elevated the increase in IL-1beta-induced iNOS protein and NO production. Nevertheless, estradiol still inhibited IL-1beta-induced iNOS and NO production even in the presence of high glucose. These data suggest that estradiol may exert its beneficial effects in part by inhibiting induction of endothelial iNOS, a possible mechanism for the protective effect of estradiol against diabetes-associated cardiovascular complications.
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PMID:Interleukin-1beta-induced nitric oxide production in rat aortic endothelial cells: inhibition by estradiol in normal and high glucose cultures. 1040 4

The administration of hormone replacement therapy (HRT) to postmenopausal women (PMW) reportedly has beneficial effects on their levels of lipid and lipoproteins. Estrogen retards the development of atherosclerosis induced by a high-fat diet in animals. Although vascular endothelial growth factor (VEGF) may be involved in the development of atherosclerosis in humans, there is no information on effect of estrogen administration on VEGF level and lipid metabolism. We evaluated 64 healthy normotensive or hypertensive PMW before and during the administration of HRT (0.625 mg conjugated equine estrogen combined with 2.5 mg medroxyprogesterone acetate orally) daily for 6 months. All hypertensive PMW were well-controlled on antihypertensive drug therapy. According to their total cholesterol level at baseline, we divided the PMW with HRT (n=54) into a normocholesterolemic group (NC, total cholesterol <220 mg/dl, n=35) and a hypercholesterolemic group (HC, total cholesterol >/=220 mg/dl, n=19). We evaluated the serum levels of VEGF at baseline, and again at 3 and 6 months after starting HRT. HRT significantly (P<0.01) reduced the mean VEGF level from 31.5+/-4.3 pg/ml at baseline to 18.2+/-2.3 pg/ml after 6 months in the NC group. However, the VEGF levels in the HC group and the control group exhibited no significant change at either 3 or 6 months after starting HRT. In summary, HRT, using a combination of conjugated equine estrogen and medroxyprogesterone acetate, reduced the level of VEGF in normocholesterolemic PMW more effectively than in those with hypercholesterolemia.
Atherosclerosis 2000 Jan
PMID:Serum level of vascular endothelial growth factor is decreased by hormone replacement therapy in postmenopausal women without hypercholesterolemia. 1094 83


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