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)

Obesity and insulin resistance are strongly associated with an increased risk of vascular disease. Vasomotion is the cyclic variation in the diameter of arteries and is a general feature of the vasculature that may have important physiological consequences. We tested the hypothesis that obesity - insulin resistance is associated with abnormal vasomotion by comparing obese, insulin-resistant JCR:LA-cp rats, known to develop vasculopathy, atherosclerosis, and ischemic lesions of the heart, with lean insulin-sensitive animals from the same strain. Vasomotion was assessed using isolated mesenteric arteries on a myograph system after preconstriction to 50% of maximal constriction with norepinephrine. The amplitude of vasomotion was enhanced by the presence of meclofenamate, a prostaglandin H synthase inhibitor, and was diminished by N(G)-nitro-L-arginine methyl ester (L-NAME), a nitric oxide synthase inhibitor. Removal of the endothelium essentially abolished vasomotion, and meclofenamate had no effect on de-endothelialized arteries. Frequency was not altered by either L-NAME or meclofenamate. Although pharmacological inhibition of nitric oxide and eicosanoid production clearly altered vasomotion, there was no difference in the amplitude or frequency of vasomotion in arteries from obese rats compared with lean rats. These results indicate that the endothelium plays a central role in modulating vasomotion, involving both enhancing and inhibiting effects, and that vasomotion is similar between obese, insulin-resistant and lean, insulin-sensitive rats.
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PMID:Modulation of vasomotion in resistance arteries of JCR:LA-cp rats: a model of insulin resistance. 1053 69

Reactive oxygen species (ROS) play an important role in signaling pathways stimulated by growth factors in vascular cells. We investigated whether vascular endothelial growth factor (VEGF), which is upregulated in diabetic retinopathy and atherosclerosis, is able to enhance production of ROS, and if so, whether ROS modulate endothelial permeability. ROS levels in bovine retinal microvascular endothelial cells (BMEC) were measured by the oxidation of 2', 7'-dichlorodihydrofluorescein (DCHF), and permeability was examined by monitoring the passage of albumin through BMEC monolayers. VEGF stimulated oxidation of DCHF in BMEC, an effect which was inhibited by superoxide dismutase (SOD) and the nitric oxide (NO) synthase inhibitor, N(G)-nitro-L-arginine methyl ester (L-NAME), but not by D-NAME. Urate, a scavenger of peroxynitrite, attenuated the VEGF-induced oxidation of DCHF. VEGF elicited a significant increase in the macromolecule permeability of BMEC monolayers within 30 min. SOD did not modify the basal or the VEGF-stimulated hyperpermeability, but the combination of SOD and VEGF induced a transient reduction in permeability after 10 min. L-NAME, but not D-NAME, enhanced VEGF-induced hyperpermeability without affecting basal values. Urate did not modify the VEGF-induced changes in permeability. In conclusion, VEGF stimulates oxidation of DCHF, which most likely represents peroxynitrite formation, and induces an increase in permeability of BMEC monolayers. Activation of NO synthase seems to counteract this stimulatory effect of VEGF on endothelial permeability.
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PMID:Significance of nitric oxide and peroxynitrite in permeability changes of the retinal microvascular endothelial cell monolayer induced by vascular endothelial growth factor. 1062 27

This study investigated the role of endogenous nitric oxide (NO) in the progression of atherosclerosis in apolipoprotein E-deficient [apoE-knockout (KO)] mice. Mice were treated with N(omega)-nitro-L-arginine methyl ester (L-NAME) an inhibitor of nitric oxide synthase (NOS) or with the NOS substrate L-arginine for 8 wk. L-NAME treatment resulted in a significant inhibition of NO-mediated vascular responses and a significant increase in the atherosclerotic plaque/surface area in the aorta of apoE-KO mice. L-arginine treatment had no influence on endothelial function and did not alter lesion size. Mean arterial blood pressure and serum lipid levels were not altered by the treatments. At the beginning of the study impairment in endothelial function was only apparent in the case of N(G)-nitro-L-arginine-induced, NO-mediated contraction, whereas ACh-induced, NO-mediated relaxation was not different between age-matched apoE-KO and C57Bl/6J mice. After the 8-wk treatment with the NOS inhibitor, both NO-mediated responses were significantly inhibited. The acceleration in lesion size concomitant to the severely impaired NO-mediated responses indicates that lack of endogenous NO is an important progression factor of atherosclerosis in the apoE-KO mouse.
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PMID:Role of endogenous nitric oxide in progression of atherosclerosis in apolipoprotein E-deficient mice. 1077 49

Hemodynamic forces have profound effects on vasculature. Laminar shear stress upregulates superoxide dismutase (SOD) expression in endothelial cells. SOD converts superoxide anion to H(2)O(2), which, however, promotes atherosclerosis. Therefore, defense against H(2)O(2) may be crucial in reducing oxidative stress. Since glutathione peroxidase (GPx-1) reduces H(2)O(2) to H(2)O, the regulation of GPx-1 expression by mechanical stress was examined. Cultured bovine aortic endothelial cells (BAECs) were subjected to laminar shear stress and stretch force. Shear stress upregulated GPx-1 mRNA expression in a time- and force-dependent manner in BAECs, whereas stretch force was without effect. Furthermore, shear stress increased GPx activity. L-NAME, an inhibitor of nitric oxide synthase, did not affect shear stress-induced GPx-1 mRNA expression. The ability of laminar shear stress to induce GPx-1 expression in endothelial cells may be an important mechanism whereby shear stress protects vascular cells against oxidative stress.
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PMID:Shear stress enhances glutathione peroxidase expression in endothelial cells. 1087 65

Modulation of the biosynthesis of the vasoconstrictor peptide endothelin-1 by oxygen-derived free radicals generated by xanthine oxidase or hydrogen peroxide was studied in cultured endothelial cells. Endothelin-1 metabolism was investigated at the level of endothelin-1 promoter, preproendothelin-1 mRNA and intracellular big endothelin-1. Endothelin-1 mRNA, as characterized by Northern blotting, was increased both time- and dose-dependently by xanthine oxidase to up to 500% above baseline. Analysis of endothelin-1 promoter activity using a construct containing 1329 bp of the endothelin-1 promoter revealed that promoter activity was increased up to eight-fold by incubation with xanthine oxidase. Specificity was ascertained by co-incubation with superoxide dismutase and catalase leading to inhibition of the effect of xanthine oxidase. A significant contribution of nitric oxide was ruled out, since NOS III-mRNA transcription remained unchanged and l -NAME did not significantly alter endothelin-1 promoter activity. Synthesis of intracellular big endothelin-1 protein was increased dose-dependently by xanthine oxidase. Our results indicate that oxidative stress leads to increased endothelial synthesis of big endothelin-1, which is a previously unknown mechanism and may help to understand the detrimental association of increased oxidative stress and elevated endothelin-1 levels in pathophysiological conditions promoting atherosclerosis.
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PMID:Oxidative stress increases synthesis of big endothelin-1 by activation of the endothelin-1 promoter. 1090 Jan 69

Clotrimazole (CLT) is a drug known to interfere with cellular calcium homeostasis, which in turn is reported to intervene in cell proliferation and in the reactivity of small blood vessels. Experiments were designed to test the influence of CLT on the proliferative and vasorelaxant effect of bradykinin (BK) and on calcium homeostasis in smooth muscle cells (SMC). To this purpose two model systems were employed: (i) cultured human smooth muscle cells (HSMC), and (ii) isolated resistance arteries maintained in an organ bath. The effect of various concentrations of CLT (2-15 microM) on BK-induced proliferation of HSMC was quantitated by spectrometry following [3H]-thymidine incorporation, and intracellular calcium [Ca+]i was determined by spectrofluorimetry using Fura 2-AM assay. In other experiments the roles of BK receptor (AB2) and of thapsigargin were assessed. The reactivity of the resistance arteries was measured by the myograph technique, and the effects of BK, CLT, and NO synthase blocker, L-NAME were evaluated. The results showed that 10 microM CLT: (i) inhibits the BK-induced proliferation of HSMC by 45-50%: (ii) prevents the rise of [Ca2+]i induced by BK (120.8 +/- 12.4 nM vs. 235.8 +/- 34.1 nM), an cffect similar to that of "classic" L-type calcium channels blockers: (iii) reduces the release of Ca2+ entry induced by thapsigargin suggesting a possible inhibition of the capacitative Ca2+ entry. Organ bath assays showed that CLT enhanced the BK-induced relaxation of the resistance arteries by an endothelium NO-independent pathway. Together, these data suggest that the mechanism of action of CLT on SMC implies mainly a modification of intracellular calcium homeostasis, with a minor contribution of BK B2 receptors. These new distinctive features of CLT effects suggest the potential use of this drug in the therapy of cardiovascular diseases associated with SMC increased proliferation and impeded relaxation in small arteries, such as atherosclerosis and restenosis.
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PMID:Clotrimazole inhibits smooth muscle cell proliferation and has a vasodilator effect on resistance arteries. 1112 88

1. Chronic inhibition of nitric oxide synthase (NOS) provokes a hypertensive state which has been shown to be angiotensin II (Ang-II) dependent. In addition to raising blood pressure, NOS inhibition also causes leukocyte adhesion. The present study was designed to define the role of Ang-II in hypertension and in the leukocyte-endothelial cell interactions induced by acute NOS or cyclo-oxygenase (COX) inhibition using intravital microscopy within the rat mesenteric microcirculation. 2. While pretreatment with an Ang-II AT(1) receptor antagonist (losartan) reversed the prompt increase in mean arterial blood pressure (MABP) caused by indomethacin, it had no effect on the increase evoked by systemic L-NAME administration. 3. Pretreatment with losartan inhibited the leukocyte rolling flux, adhesion and emigration which occurs after 60 min NOS inhibition by 83, 80 and 70% respectively, and returned leukocyte rolling velocity to basal levels. 4. Losartan significantly reduced the leukocyte-endothelial cell interaction elicited by COX inhibition. In contrast, leukocyte recruitment induced by acute mast cell activation was not inhibited by losartan. 5. AT(1) receptor blockade also prevented the drop in haemodynamic parameters such as mean red blood cell velocity (V(mean)) and shear rate caused by NOS and COX inhibition. 6. In this study, we have demonstrated a clear role for Ang-II in the leukocyte-endothelial cell interactions and haemodynamic changes which arise in the absence of NO or prostacyclin (PGI(2)). This is of interest since leukocyte recruitment, which culminates in the vascular lesions that occur in hypertension, atherosclerosis and myocardial ischemia-reperfusion injury, might be prevented using AT(1) Ang-II receptor antagonists.
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PMID:Angiotensin II is involved in nitric oxide synthase and cyclo-oxygenase inhibition-induced leukocyte-endothelial cell interactions in vivo. 1115 20

In this study the synergistic role of the two haemodynamic parameters, pressure and wall shear stress, in macromolecular transport has been examined across the wall of the rabbit thoracic aorta. Arteries were subjected to 70 and 150 cm water pressure in the presence of fluid flow imposed shear stress. The flux of FITC labelled bovine serum albumin was found to be 3.36+/-1.34 x 10(-6) and 1.99+/-0.77 x 10(-6) cm/s (mean+/-S.D.) after 90 min incubation at 70 and 150 cm water, respectively. The mean relative tissue concentrations were 0.0039+/-0.0025 and 0.012+/-0.007 at 70 and 150 cm water, respectively. Under low values of steady wall shear stress, efflux of BSA is retarded at 150 cm since its tissue concentration is found to be higher than at 70 cm. The net outcome arises as a result of the interaction of increased permeability of endothelial cells exposed to shear stress, the pressure induced distension of the wall matrix and the differential effect of EDRF/NO at the two pressures on medial hydraulic conductivity. In the presence of the EDRF/NO inhibitor L-NAME, reduction in flux of albumin was observed at both the pressures, the decrease being greater at 150 cm water. In the absence of EDRF, the NO synthase independent vasodilator EDHF may be released, which maintains the tone of the medial smooth muscle low. Action of EDHF may be more marked at 150 cm water because NO synthesis is attenuated by higher transmural pressure and the presence of L-NAME eliminates shear stress stimulated NO release. Consequently the dilated vessel will have decreased porosity and less albumin space. The BSA flux across the aorta is, therefore, influenced by both endothelial permeability and permeability of the medial matrix, which are in turn modulated by an interplay of transmural pressure and fluid flow generated shear stress.
Atherosclerosis 2001 Jun
PMID:Interaction of transmural pressure and shear stress in the transport of albumin across the rabbit aortic wall. 1139 28

Pravastatin is useful in restoring endothelium-dependent relaxation in hypercholesterolemic animals. A single intravenous bolus injection of N(omega)-nitro-L-arginine methyl ester (L-NAME), a non-specific inhibitor of NO synthase, causes myocardial necrosis and reduces coronary flow in rats. Since rats do not develop hypercholesterolemia and atherosclerosis, we have tested the hypothesis that pravastatin protects the heart from myocardial lesions induced by L-NAME in the absence of alterations in cholesterol levels and plaque formation. Male Wistar rats fed standard chow were divided into four groups: CONTROL (n=14) - rats that received tap water alone for 18 days; L-NAME (n=14) -- rats that received L-NAME (15 mg/kg, i.v.) on the 14th day of the study; PRAVASTATIN (n=11) -- rats that received pravastatin (6 mg/kg/day) in their drinking water for 18 days; PRAVASTATIN+L-NAME (n=12) -- rats that received pravastatin (6 mg/kg/day) and L-NAME (15 mg/kg, i.v.) as indicated in the preceding groups. At the end of 18 days, the rats were sacrificed and the hearts removed for stereological analysis by light microscopy. Plasma nitrate/nitrite and thromboxane B(2) concentrations were determined immediately before and after L-NAME administration. Pravastatin prevented the ischemic lesions induced by the acute inhibition of NO biosynthesis (the area of myocardial lesions in the L-NAME group was greater than in the Pravastatin+L-NAME group: 101.6 microm(2) vs. 1.2 microm(2), respectively; P<0.0001) and markedly increased the plasma nitrate/nitrate concentrations, even before L-NAME administration. There were no significant changes in the plasma thromboxane B(2) concentrations.
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PMID:Pravastatin reduces myocardial lesions induced by acute inhibition of nitric oxide biosynthesis in normocholesterolemic rats. 1146 44

Nitric oxide (NO) may play an essential role for maintenance of cardiac function and perfusion, while endothelial dysfunction of atherosclerotic vessels may aggravate ischaemia/reperfusion injury. This paper investigates the role of nitric oxide in ischaemia/reperfusion injury in hearts with coronary atherosclerosis. Hearts of apolipoprotein E/LDL receptor double knockout (ApoE/LDLr KO) mice fed an atherogenic diet for 7-9 months were isolated and Langendorff-perfused with 40 minutes of global ischaemia and 60 minutes reperfusion, and funtion and infarction compared with hearts of C57BL/6 controls in the prescence or abscence of the NO-donor SNAP or the NOS inhibitor L-NAME. Hearts of animals with atherosclerosis were more susceptible to ischaemia/reperfusion injury than hearts of animals with healthy vessels, evident as more impaired left ventricular performance. SNAP protected function and reduced infarct size in atherosclerotic hearts, but the same concentration of SNAP was detrimental in normal hearts, perhaps due to NO-overproduction and peroxynitrite formation demonstrated immunohistochemically as increased formation of nitrosylated tyrosine. A low concentration of SNAP protected against ischaemia/reperfusion dysfunction in normal hearts. L-NAME decreased left ventricular performance in atherosclerotic hearts. These findings suggest that impaired endothelium dependent function contributes to reperfusion injury in coronary atherosclerosis.
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PMID:The role of nitric oxide in ischaemia/reperfusion injury of isolated hearts from severely atherosclerotic mice. 1158 21

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