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

Estradiol is known to exert a protective effect against the development of atherosclerosis, but the mechanism of this hormonal action is unknown. One of the early events in the development of atherosclerosis is the adhesion of macrophages to endothelial cells, and nitric oxide (NO) inhibits this process. We show that basal release of NO is greater with endothelium-intact aortic rings from female rabbits than those from males. Oophorectomy diminishes both circulating estradiol concentration and basal release of NO to levels seen in male rabbits. These data establish that basal NO release from endothelium-intact aortic rings depends on circulating estradiol concentration and offer an explanation for the protective effect of estradiol against the development of atherosclerosis.
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PMID:Basal release of nitric oxide from aortic rings is greater in female rabbits than in male rabbits: implications for atherosclerosis. 145 5

Nitric oxide is an important bioregulatory molecule, being responsible, for example, for activity of endothelium-derived relaxing factor (EDRF). Acute hypertension, diabetes, ischaemia and atherosclerosis are associated with abnormalities of EDRF. Nitric oxide is thought to be a retrograde messenger in the central nervous system. The technology is not yet available for rapid detection of NO released by a single cell in the presence of oxygen and/or nitrite, so the release, distribution and reactivity of endogenous NO in biological systems cannot be analysed. Here we describe a porphyrinic microsensor that we have developed and applied to monitoring NO release in a microsystem. We selectively measured in situ the NO released from a single cell with a response time of less than 10 ms. The microsensor consists of p-type semiconducting polymeric porphyrin and a cationic exchanger (Nafion) deposited on a thermally sharpened carbon fibre with a tip diameter of approximately 0.5 microns. The microsensor, which can be operated in either the amperometric or voltammetric mode, is characterized by a linear response up to 300 microM and a detection limit of 10 nM. Nitric oxide at the level of 10(-20) mols can be detected in a single cell.
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PMID:Nitric oxide release from a single cell measured in situ by a porphyrinic-based microsensor. 137 94

The author reviews findings assembled during the last 20 years on the endothelium-derived relaxing factor (EDRF), and in particular findings assembled the last five years which revealed that EDRF is identical with nitric oxide, NO. The enzyme NO synthetase produces NO from l-arginine with the concurrent formation of citrulline and is present not only in the endothelium of the vascular wall but also in cerebral neurons and other tissues. NO is probably also the effective factor of the vasodilatating action of organic nitrates (nitroglycerol, amyl nitrite, sodium nitroprusside). In recent years these findings are applied also in clinical work. In atherosclerosis of the coronary vessels NO formation is obviously reduced and l-arginine infusion may improve the coronary blood supply in patients with hypercholesterolaemia. Inhalation of NO has been tried in pulmonary hypertension. Antidotes of NO (methylene blue) conversely may prevent hypotension in hepatic failure. Infusion of an antidote of l arginine prevents hypotension in septic shock. This is due to the fact that an excess of NO is formed from macrophages during infections. NO is, however, also mutagenic and there are reports on its participation in the genesis of genetic and neoplastic diseases.
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PMID:[EDRF-NO. The endothelium-derived relaxing factor is nitric oxide]. 150 92

During the past decade, it has become clear that the vascular endothelium critically influences vascular permeability, controls vessel growth, modulates hemostasis, and regulates vasomotion. This latter role of the endothelium is mediated by the liberation of a number of potent vasoactive compounds, including endothelium-derived relaxing factors, one of which is either nitric oxide or a compound that releases nitric oxide, vasoactive prostaglandins, hyperpolarizing factors, and a number of constricting factors. This role of the endothelium is dramatically altered by several diseases, including atherosclerosis, hypertension, and diabetes. Abnormalities of endothelial regulation of vascular tone may contribute to a number of clinical syndromes, including variant angina, unstable angina, syndrome X, and perhaps many others. In this review, several aspects of the endothelium-derived relaxing factor will be considered, including recent concepts regarding its synthesis, its chemical identity, and alterations in atherosclerosis. Finally, its action in the coronary microcirculation as contrasted to that of nitroglycerin will be considered.
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PMID:Normal and pathophysiologic considerations of endothelial regulation of vascular tone and their relevance to nitrate therapy. 152 21

Nitroglycerin and the long-acting nitrates are widely used in all of the anginal syndromes and have proven effectiveness in relieving or preventing myocardial ischemia. Recent developments into nitrate mechanisms of action provide new insights as to the many anti-ischemic effects of these agents. Important concepts relating to coronary arterial endothelial function are germane to nitrate therapy. Endothelial-derived relaxing factor (EDRF) is presently believed to be nitric oxide (NO), which exerts vasodilatory and/or antiplatelet actions by increasing intracellular cyclic guanosine monophosphate as a result of activation of the enzyme guanylate cyclase. In the setting of coronary atherosclerosis, or even hyperlipidemia without histologic vascular disease, endothelial dysfunction may be present, promoting a vasoconstrictor/proplatelet aggregatory milieu. Nitroglycerin and the organic nitrates are NO donors; NO is the final product of nitrate metabolism, and in the vascular smooth muscle NO induces relaxation, resulting in vasodilation of arteries and veins. In the presence of inadequate EDRF production and/or release, it appears that nitroglycerin may partially replenish EDRF-like activity. Nitrates have long been known to have major peripheral circulatory actions resulting in a marked decrease in cardiac work. Venodilation and arterial relaxation result in a decrease in intracardiac chamber size and pressures, with a resultant decrease in myocardial oxygen consumption. In addition, a variety of direct coronary circulatory actions of the nitrates have been documented. These include not only epicardial coronary artery dilation, but the prevention of coronary vasoconstriction, enhanced collateral flow, and coronary stenosis enlargement. Recent work suggests that the nitrates may also act by preventing distal coronary artery or collateral vasoconstriction, which can reduce blood flow downstream from a total coronary obstruction. Thus, there are many anti-ischemic mechanisms of action by which nitroglycerin and the organic nitrates may be beneficial in both acute and chronic ischemic heart disease syndromes. The unique salutory effects of the nitrates in subjects with left ventricular dysfunction or congestive heart failure make these drugs particularly attractive for patients with abnormal systolic function and intermittent myocardial ischemia. Finally, the emergent role of intravenous nitroglycerin in acute myocardial infarction offers new prospects that nitrate therapy may prove to be beneficial in acute myocardial infarction as well as postmyocardial infarction for the reduction of left ventricular remodeling.
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PMID:Mechanisms of action of the organic nitrates in the treatment of myocardial ischemia. 152 24

The endothelium-derived relaxing factor (EDRF) is nitric oxide (NO) or a closely related nitrosothiol derivative. It is formed from the amino acid, L-arginine. NO is rapidly inactivated locally and is instantly destroyed by haemoglobin when released into the blood stream. EDRF-NO as well as NO generated from vasodilator nitrates act by activation of soluble guanylate cyclase, elevating cellular cyclic GMP levels, causing vasodilatation and inhibition of platelet aggregation. Endothelium-dependent vasodilatation is attenuated in hypertension, atherosclerosis and diabetes. This is due to either loss of endothelium or deficient formation of EDRF-NO. In these conditions, therapy with exogenous nitrates may substitute for a failing endogenous mechanism.
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PMID:Endogenous and exogenous nitrates. 155 42

The purpose of this study was to determine whether the generation of a neointima, an early step in the development of atherosclerosis, affects endothelium-dependent or -independent vasodilation. The neointima was induced, within 7 days, by positioning a nonocclusive silicone collar around one carotid artery in rabbits. After 1, 2, 7, or 14 days segments were cut from the collar-surrounded region of this artery as well as from the sham-operated contralateral artery and were used for isometric tension recording or for bioassay of nitric oxide (NO). The acetylcholine-induced release of NO was significantly reduced at 7 days. The tension recordings suggested that this already occurred at the earliest stages of neointima formation. Neither the capacity of the endothelial cells to form NO in response to the calcium ionophore A23187 nor the capacity of the underlying smooth muscle cells to relax in response to sources of exogenous NO (3-morpholinosydnonimine and nitroglycerin) was affected by the neointima. Therefore, the impaired endothelium-dependent relaxations to acetylcholine are presumably due to a defect at the level of the endothelial muscarinic receptors. The presence of a fully developed neointima did not alter the responsiveness to isoproterenol and forskolin but enhanced prostacyclin-mediated responses (assessed by iloprost and 13-hydroxyoctadecadienoic acid). These results illustrate selective alterations of endothelial and smooth muscle cell function in intima generation before fatty streak formation.
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PMID:Neointima formation impairs endothelial muscarinic receptors while enhancing prostacyclin-mediated responses in the rabbit carotid artery. 164 34

The content of 13-hydroxylinoleic acid (13-HODE) and 15-hydroxyarachidonic acid (15-HETE) in the rabbit thoracic aorta was measured using high performance liquid chromatography after chronic exposure to cholesterol and a high dose of molsidomine, a donor of nitric oxide (NO). Cholesterol-induced fatty streak formation was accompanied by a decrease in the amounts of esterified 13-HODE and 15-HETE. The reduction of the esterified 13-HODE content correlated significantly with the severity of the lesions. These results do not support the hypothesis that fatty acid hydroperoxides accumulate in the arterial wall during atherosclerosis. On the other hand, the quantity of esterified 13-HODE and 15-HETE was increased markedly after exposure to molsidomine. The high dose of this agent could have initiated radical reactions (via liberation of NO and production of superoxide anions) thereby leading to a raise of the 13-HODE and 15-HETE content of the vessel.
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PMID:Early atherosclerosis is accompanied by a decreased rather than an increased accumulation of fatty acid hydroxyderivatives. 165 Feb 7

The vasodilator action of organic nitrates is thought to be mediated by an increase in the level of cGMP following stimulation of the cytosolic enzyme guanylate cyclase in the vascular smooth muscle cell. However, direct evidence for the formation of the putative active metabolite, nitric oxide (NO) within the different compartments of the vascular wall is still missing. We here demonstrate for the first time that cultured vascular smooth muscle cells as well as endothelial cells from different species actively metabolize organic nitrates to NO. We furthermore present evidence for an outward transport of cGMP from both cell types following stimulation of soluble guanylate cyclase. The rate of NO release closely correlated with the rate of cGMP egression. Biotransformation of organic nitrates to NO appeared to comprise at least two different components, a heat-sensitive enzymatic pathway which is short-lived and prone to rapid desensitization and a second non-enzymatic component which is apparently unsaturable and longer lasting. The marked decrease in the release of NO and cGMP upon the repeated administration of organic nitrates suggests that the phenomenon of "nitrate tolerance" is mainly due to an impaired biotransformation. We propose that the metabolism of nitrates to NO may have important implications for the prevention of atherosclerosis and the therapeutic modulation of blood cell function.
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PMID:Biotransformation of organic nitrates to nitric oxide by vascular smooth muscle and endothelial cells. 165 70

A diet containing 0.3% cholesterol was given to male New Zealand rabbits for 16 weeks; this produced atherosclerotic lesions (fatty streaks) on 80% of the intimal surface of the thoracic aorta and on 45% of the intimal surface of the abdominal aorta. The endothelium-dependent relaxations induced by acetylcholine, substance P and ionophore A23187 were inhibited in the atherosclerotic aortas. Besides the endothelium-independent relaxations induced by nitroglycerine, the relaxations induced by atrial natriuretic peptide (ANF) were also significantly reduced in the more atherosclerotic thoracic aorta. In bioassay experiments it was found that acetylcholine and substance P caused a smaller release of endothelium-derived relaxing factor (EDRF) from atherosclerotic thoracic aortas than from control thoracic aortas: the EDRF released by the vasodilators evoked less relaxation in atherosclerotic detector abdominal aortas than in control detector abdominal aortas. Nitric oxide evoked significantly less transient relaxation in the atherosclerotic thoracic and abdominal aortas than in the respective control tissues. The data indicate that as experimental atherosclerosis in the rabbit progresses, both vascular activity and EDRF release become affected; this leads to a complete loss of endothelium-dependent relaxation in the more atherosclerotic blood vessels.
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PMID:Release and vascular activity of endothelium-derived relaxing factor in atherosclerotic rabbit aorta. 170 15


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