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:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen induces the generation of nitric oxide (NO) and produces coronary vasodilation by opening the Ca2+-activated K+ (K[Ca]) channels. The hypothesis that 17beta-estradiol produces NO and activates K(Ca) channels during coronary hypoperfusion was investigated. In open-chest dogs, the left anterior descending coronary artery was perfused through an extracorporeal bypass tube from the left carotid artery. 17beta-Estradiol was infused into the bypass tube for 20 min after coronary blood flow was reduced by partial occlusion of the bypass tube. 17beta-Estradiol increased the difference in NO concentrations between the coronary venous and arterial blood as well as coronary blood flow. The lactate extraction ratio and pH of coronary venous blood were both also increased by 17beta-estradiol, indicating a reduction in myocardial anaerobic metabolism. Whereas the increase in the coronary arteriovenous difference in NO concentration was completely attenuated by N(G)-nitro-L-arginine methyl ester (L-NAME, an inhibitor of NO synthase), the increase in coronary blood flow induced by 17beta-estradiol was only partially attenuated by L-NAME. The combination of L-NAME and iberiotoxin (a blocker of high-conductance K(Ca) channels) completely abolished the coronary vasodilatory effect of 17beta-estradiol. The data indicate that during coronary hypoperfusion in canine hearts, 17beta-estradiol increases coronary blood flow and improves metabolic dysfunction by increasing NO release and opening K(Ca) channels.
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PMID:Roles of NO and Ca2+-activated K+ channels in coronary vasodilation induced by 17beta-estradiol in ischemic heart failure. 927 64

Gender differences in the incidence of stroke and migraine appear to be related to circulating levels of estrogen; however, the underlying mechanisms are not yet understood. Using resistance-sized arteries pressurized in vitro, we have found that myogenic tone of rat cerebral arteries differs between males and females. This difference appears to result from estrogen enhancement of endothelial nitric oxide (NO) production. Luminal diameter was measured in middle cerebral artery segments from males and from females that were either untreated, ovariectomized (Ovx), or ovariectomized with estrogen replacement (Ovx + Est). The maximal passive diameters (0 Ca2+ + 1 mM EDTA) of arteries from all four groups were identical. In response to a series of 10-mmHg step increases in transmural pressure (20-80 mmHg), myogenic tone was greater and vascular distensibility less in arteries from males and Ovx females compared with arteries from either untreated or Ovx + Est females. In the presence of NG-nitro-L-arginine methyl ester (L-NAME; 1 microM), an NO synthase inhibitor, myogenic tone was increased in all arteries, but the differences among arteries from the various groups were abolished. Addition of L-arginine (1 mM) in the presence of L-NAME restored the differences in myogenic tone, suggesting that estrogen works through an NO-dependent mechanism in cerebral arteries. To determine the target of NO-dependent modulation of myogenic tone, we used tetraethylammonium (TEA; 1 mM) to inhibit large-conductance, calcium-activated K+ (BKCa) channels. In the presence of TEA, the myogenic tone of arteries from all groups increased significantly; however, myogenic tone in arteries from males and Ovx females remained significantly greater than in arteries from either untreated or Ovx + Est females. This suggests that activity of BKCa channels influences myogenic tone but does not directly mediate the effects of estrogen. Estrogen appears to alter myogenic tone by increasing cerebrovascular NO production and/or action.
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PMID:Estrogen reduces myogenic tone through a nitric oxide-dependent mechanism in rat cerebral arteries. 968 26

1. The effects of oestrogens on action potential and membrane currents were examined in single guinea-pig atrial myocytes. 2. 17Beta-estradiol (3-10 microM) shortened the action potential duration without significant changes in the resting membrane potential. E-4031 (1 microM) markedly prolonged the action potential duration and induced early afterdepolarization, and 17beta-estradiol (10 microM) abolished it. 3. When cells were perfused in isoproterenol-containing solution, action potentials due to abnormal automaticity caused by membrane depolarization developed, and were also inhibited by 17beta-estradiol. 4. Under voltage clamp conditions, the voltage-dependent Ca2+ currents consisted of both T-(I(Ca,T)) and L-type (I(Ca,L)). 17Beta-estradiol reduced I(Ca,L) concentration-dependently, while it (10 microM) suppressed I(Ca,T) only by approximately 10%. 17Beta-estradiol did not affect time courses of I(Ca,L) inactivation, but it shifted the steady-state inactivation curve to more negative potentials. 5. 17Beta-estradiol (10 microM) did not affect the time-dependent K+ current (I(K)), referred to as I(Kr) and I(Ks) and inwardly rectifying K+ current. However, 17beta-estradiol (30 microM) or diethylstilbestrol (10 microM) inhibited K+ currents. 6. DES and ethinylestradiol (EES) also suppressed I(Ca,L), but testosterone and progesterone failed to inhibit I(Ca,L) The potency of the inhibitory effect on I(Ca,L) was DES> EES> 17beta-estradiol. 7. 17Beta-estradiol and DES also inhibited the cyclic AMP-enhanced I(Ca,L), but cyclic GMP in the pipette or pretreatment of L-NAME could not block the effects of oestrogen on I(Ca,L). 8 These results suggest that oestrogen specifically has antiarrhythmic effects, possibly by acting the L-type Ca2+ channels. The antiarrhythmic effects of oestrogens may contribute to the cardioprotective actions of oestrogens.
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PMID:Antiarrhythmic effect and its underlying ionic mechanism of 17beta-estradiol in cardiac myocytes. 1038 43

The nuclear orphan receptor CAR (constitutively active receptor or constitutive androstane receptor) can be activated in response to xenochemical exposure, such as activation by phenobarbital of a response element called NR1 found in the CYP2B gene. Here various steroids were screened for potential endogenous chemicals that may activate CAR, using the NR1 enhancer and Cyp2b10 induction in transfected HepG2 cell and/or in mouse primary hepatocytes as the experimental criteria. 17beta-Estradiol and estrone activated NR1, whereas estriol, estetrol, estradiol sulfate, and the synthetic estrogen diethylstilbestrol did not. On the other hand, progesterone and androgens repressed NR1 activity in HepG2 cells, and the repressed NR1 activity was fully restored by estradiol. Moreover, estrogen treatment elicited nuclear accumulation of CAR in the mouse livers, as well as primary hepatocytes, and induced the endogenous Cyp2b10 gene. Ovariectomy did not affect either the basal or induced level of CAR in the nucleus of the female livers, while castration slightly increased the basal and greatly increased the induced levels in the liver nucleus of male mice. Thus, endogenous estrogen appears not to regulate CAR in female mice, whereas endogenous androgen may be the repressive factor in male mice. Estrogen at pharmacological levels is an effective activator of CAR in both female and male mice, suggesting a biological and/or toxicological role of this receptor in estrogen metabolism. In addition to mouse CAR, estrogens activated rat CAR, whereas human CAR did not respond well to the estrogens under the experimental conditions.
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PMID:Estrogen activation of the nuclear orphan receptor CAR (constitutive active receptor) in induction of the mouse Cyp2b10 gene. 1107 20

This study reports that Cyp3a41 gene contains 13 exons and is localized on the chromosome 5. CYP3A41 is a female-specific isoform that is predominantly expressed in the liver. Estrogen signaling is not responsible for its female specificity. CYP3A41 expression in kidney and brain is observed only in 50% of mice examined. PXR mediates dexamethasone-dependent suppression of CYP3A41. In contrast to CYP3A11, CYP3A41 expression is not induced by pregnenolone-16alpha-carbonitrile (PCN) in wild-type mice, but is significantly suppressed by PCN in PXR(-/-) mice. Phenobarbital and TCPOBOP induce CYP3A11 expression only in the presence of CAR, but have no effect on CYP3A41 expression. Immunoblot and erythromycin demethylase activity analysis reveal robust CYP3A induction after PCN treatment, which is poorly correlated to CYP3A41. These findings suggest a differential role for CAR/PXR in regulating individual CYP3A isoforms by previously characterized CYP3A inducers.
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PMID:CAR/PXR provide directives for Cyp3a41 gene regulation differently from Cyp3a11. 1477 Jan 74

Chronic estrogen treatment increases endothelial vasodilator function in cerebral arteries. Endothelial nitric oxide (NO) synthase (eNOS) is a primary target of the hormone, but other endothelial factors may be modulated as well. In light of possible interactions between NO and prostaglandins, we tested the hypothesis that estrogen treatment increases prostanoid-mediated dilation using NOS-deficient female mouse models, i.e., mice treated with a NOS inhibitor [N(G)-nitro-l-arginine methyl ester (l-NAME)] for 21 days or transgenic mice with the eNOS gene disrupted (eNOS(-/-)). All mice were ovariectomized; some in each group were treated chronically with estrogen. Cerebral blood vessels then were isolated for biochemical and functional analyses. In vessels from control mice, estrogen increased protein levels of eNOS but had no significant effect on cyclooxygenase (COX)-1 protein, prostacyclin production, or constriction of pressurized, middle cerebral arteries to indomethacin, a COX inhibitor. In l-NAME-treated mice, however, cerebrovascular COX-1 levels, prostacyclin production, and constriction to indomethacin, as well as eNOS protein, were all greater in estrogen-treated animals. In vessels from eNOS(-/-) mice, estrogen treatment also increased levels of COX-1 protein and constriction to indomethacin, but no effect on prostacyclin production was detected. Thus cerebral blood vessels of control mice did not exhibit effects of estrogen on the prostacyclin pathway. However, when NO production was dysfunctional, the impact of estrogen on a COX-sensitive vasodilator was revealed. Estrogen has multiple endothelial targets; estrogen effects may be modified by interactions among these factors.
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PMID:Effect of estrogen on cerebrovascular prostaglandins is amplified in mice with dysfunctional NOS. 1527 99

Sphingosine 1-phosphate (S1P), a bioactive lipid, signals through cell surface receptors to induce vasoconstriction and activate endothelial nitric oxide synthase (eNOS), suggesting a role for S1P in vascular tone modulation. Using a model of aging in female rats, we investigated the vasoactivity of S1P and the roles of eNOS and estrogen replacement in modulation of that vasoactivity. Mesenteric arteries from aged female rats were significantly more sensitive to S1P-induced vasoconstriction than arteries from young female rats, and reached greater maximum constriction (58.2+/-2.98 vs 34.8+/-4.44%; P<0.005). Modulation of this vasoconstriction by pretreating vessels with the NOS inhibitor l-NAME occurred only in young vessels. Ovariectomy reduced the maximum S1P-induced vasoconstriction observed in intact aged rats. Estrogen replacement did not appear to have an independent beneficial effect. However, estrogen replacement did restore nitric oxide modulation of S1P-induced vasoconstriction. Expression of the S1P(1) receptor, through which eNOS can be activated, was reduced in vessels from aged rats. S1P(1) receptor expression was restored in vessels from the estrogen-replaced group. S1P is a novel mediator of vascular tone through induction of both vasoconstriction and vasodilation. Reduced S1P(1) receptor expression on aging vessels may explain reduced eNOS activity, which results in greater sensitivity to S1P-induced vasoconstriction. Estrogen replacement in aging female rats restores both S1P(1) receptor expression and NOS activity, suggesting an important role for estrogen in this novel pathway of vascular tone modulation.
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PMID:Sphingosine 1-phosphate-induced vasoconstriction is elevated in mesenteric resistance arteries from aged female rats. 1532 35

This is an overview of recent findings, mainly from our laboratory, describing the cardiovascular functional phenotypes and pharmacological responses in mice genetically deficient in apolipoprotein E (apoE-KO). ApoE-KO mice are hyperlipidemic and spontaneously develop atherosclerosis. We have detected several new cardiovascular functional phenotypes in apoE-KO mice: hyperglycemia, age-dependent aortic stiffening, cardiac hypertrophy and increased cardiac output. Angiotensin II (Ang II) promoted vascular inflammation and atherosclerosis, increased vascular stiffness, and induced abdominal aortic aneurysm (AAA) in apoE-KO mice, in which activation of NF-kappaB mediated pro-inflammatory genes plays an important role. Inhibition of nitric oxide (NO) synthesis with N(omega)-nitro-L-arginine methyl ester (L-NAME) significantly inhibited NO-mediated vascular responses and accelerated atherosclerosis in apoE-KO mice, supporting a protective role of NO against atherosclerosis. Estrogen attenuated atherosclerosis in apoE-KO mice, even in those with atherosclerosis being accelerated by Ang II, hyperglycemia, or L-NAME, demonstrating an anti-atherosclerotic effect of estrogen. Simvastatin paradoxically increased lipid and atherosclerosis in apoE-KO mice, but it decreased lipid and atherosclerosis in LDLR-KO mice, indicating that anti-atherosclerotic effect of simvastatin requires the presence of an intact apoE.
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PMID:Cardiovascular functional phenotypes and pharmacological responses in apolipoprotein E deficient mice. 1563 8

Estrogen (17beta-estradiol, or E2) reduces systolic blood pressure (SBP) increment and increases aortic cyclic guanosine monophosphate (cGMP) in male spontaneously hypertensive rats (SHRs). It is unknown, however, whether the E2-enhanced aortic cGMP is essential for the BP-lowering effect or not. Nomega-nitro-L-arginine-methyl ester (L-NAME), an L-arginine analogue and nitric oxide (NO) synthase inhibitor, significantly increases SBP and decreases aortic cGMP in male SHRs. We thus treated male SHRs with vehicle (corn oil) or E2 (s.c, 2 mg/kg/week) with or without L-NAME (20 mg/dl in the drinking water). SBP was measured weekly. Plasma nitrate/nitrite (NOx) concentrations and aortic cGMP levels were all measured at the end of the study. We found that SBP increment was significantly higher in L-NAME group, compared with the controls, and that E2 treatment reduced this L-NAME effect. Plasma 4NOx concentrations were not significantly different among different groups. Basal and acetylcholine-induced aortic cGMP, but not sodium nitroprusside-induced cGMP, were significantly lower in L-NAME group, compared with the controls. E2 co-administration did not modify L-NAME-induced aortic cGMP decrease. These data indicate that E2-induced BP-lowering effect in L-NAME treated male SHRs is not closely associated with the enhancement of vascular cGMP.
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PMID:Estrogen ameliorates Nomega-nitro-L-arginine methyl ester-induced blood pressure increment in male spontaneously hypertensive rats: the role of cGMP. 1580 51

In order to nvestigate the vascular and osseus effects of an isoflavone rich commercially available product (Phytosoya), Arkochim, two types of experiments have been carried out. A. Fifty rats of the Wistar strain and 250 gr/weight were ovariectomized and fed a low calcium diet over 8 weeks. From these animal, two groups of 10 rats each received Phytosoya at 62,5 and 321,5 mg/Kg/day. Another group (n = 10) was treated with 150 microg estradiol valerianate weekly, 10 more animals did not received any treatment and a final group of 10 was fed a standard rat chow. At the end of 8 weeks of treatment animals were decapitated, the right tibia were submitted to densiometry and the uterus was dissected and weighted, Hypocalcic diet induced a marked reduction in bone mineral density as compared to controls. Estrogen treatment totally prevented bone mineral loss whereas Phytosoya was able to partially prevent this reduction. However, estrogen treatment reduced tibia lenght significantly whereas no effect was exerted by Phytosoya on this parameter. B. Thirty-eight New Zealand rabbits were ovariectomized and fed a standard rabbit chow (n = 6) or another diet rich in cholesterol and saturated fats (n = 32) (CHO). The CHO fed animals were divided into 5 different groups: a) Treated with estradiol valerianate (200 microg/week/,n = 7); b) Treated with Phytosoya 31,5 (n = 6), 62,5 (n = 7) and 315,5 mg/kg (n = 6) or c) not treated (n = 6). After 10 weeks animals were sacrificed to study their aortas. All CHO fed rabbits showed very high cholesterol levels (2100 +/- 93 mg/100 ml) as compared with standard chow fed (64 +/- 19 mg/100 ml), and treatments were not able to significantly modify these values. Maximal vasodilatation to acetilcholine of the rabbits fed the standard chow, was 86% of phenilephrine precontraction whereas hupercholesterolemic animals showed only a 28% vasodilatation. Estrogen treatment restaured dilatation to 82%, together with a uterine increase also vasodilatation to 61% in the two highest dosages and to 50% at the lowest dose without affecting uterine weight. Pertreatment with L-NAME induced a vasoconstrictory response to acetilcholine that was maximal in the hypercholesterolemic rabbits (20 +/- 4,5%) as compared to standard chow (,6%). Estrogen treatment reduced constriction to 13 +/- 2% and phytosoya to 15 +/- 6%. Thirty tree percent of animals fed a standard diet showed ateroesclerotic plaque whereas it was a present in 100% of the cholesterol rich diet. Estrogens reduced the number to 16% and Phytosoya to 71% of the animals.
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PMID:[Experimental studies with Phytosoya]. 1677 5


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