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)

The small G protein Rac has been implicated in multiple cardiovascular processes. Rac has two major functions: 1) it regulates the organization of the actin cytoskeleton, and 2) it controls the activity of the key enzyme complex NADPH oxidase to control superoxide production in both phagocytes and nonphagocytic cells. In phagocytes, superoxide derived from NADPH has a bactericidal function, whereas Rac-derived superoxide in the cardiovascular system has a diverse array of functions that have recently been a subject of intense interest. Rac is differentially activated by cellular receptors coupled to distinct Rac-activating adapter molecules, with each leading to pathway-specific arrays of downstream effects. Thus it may be important to investigate not just whether Rac is activated but also where, how, and for what effector. An understanding of the biochemical functions of Rac and its effectors lays the groundwork for a dissection of the exact array of effects produced by Rac in common cardiovascular processes, including cardiac and vascular hypertrophy, hypertension, leukocyte migration, platelet biology, and atherosclerosis. In addition, investigation of the spatiotemporal regulation of both Rac activation and consequent superoxide generation may produce new insights into the development of targeted antioxidant therapies for cardiovascular disease and enhance our understanding of important cardiovascular drugs, including angiotensin II antagonists and statins, that may depend on Rac modulation for their effect.
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PMID:Rac regulates cardiovascular superoxide through diverse molecular interactions: more than a binary GTP switch. 1295 25

Although hypertension is a major risk factor for atherosclerosis, its underlying mechanisms remain to be delineated. We have recently reported that both endothelin-1 (ET-1) and vascular cellular adhesion molecule-1 (VCAM-1) levels, key early markers of atherosclerosis, are significantly elevated in carotid arteries of deoxycorticosterone acetate (DOCA)-salt hypertensive rats, a model known for its suppressed plasma renin levels. This study tested the hypothesis that ET-1 augments arterial VCAM-1 expression through NADPH oxidase-derived superoxide (O2-). Carotid arteries of DOCA-salt or sham-operated rats were transduced ex vivo with extracellular superoxide dismutase (EC-SOD), dominant negative HA-tagged N17Rac1 that inhibits Rac1, the small GTPase component of NADPH oxidase, or beta-galactosidase (beta-gal) reporter gene (5x10(10) plaque formation units [pfu]/mL), and the effect of transgene expression on O2- and VCAM-1 levels was assayed 24 hours afterward. The arterial activity of NADPH oxidase but not xanthine oxidase was significantly higher in DOCA-salt than in sham rats, which was abolished by the selective ETA receptor antagonist ABT-627 (3x10(-8) mol/L), NADPH oxidase inhibitor apocynin (10(-4) mol/L), or dominant negative Rac1 gene transfer. The levels of O2- and VCAM-1 were significantly increased in arteries of DOCA-salt rats, an effect that was ameliorated after EC-SOD or dominant negative Rac1 but not beta-gal reporter gene transfer. ABT-627 and apocynin also significantly reduced elevated VCAM-1 levels in ET-1-treated arteries of normal rats and arteries of DOCA-salt rats. The results of this study indicate that ET-1 stimulates arterial VCAM-1 expression by producing O2- from an ETA receptor/NADPH oxidase pathway in low-renin mineralocorticoid hypertension.
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PMID:Endothelin-1 stimulates arterial VCAM-1 expression via NADPH oxidase-derived superoxide in mineralocorticoid hypertension. 1451 26

Many harmful effects of nitric oxide are caused by the reaction of NO with superoxide anion. The present study was carried out to find out the concomitant production of superoxide and to investigate a suitable inhibitor of NO, which is produced by iNOS. THP-1 cells were differentiated into macrophages by PMA and cytokine. Addition of L-NAME showed decrement in superoxide production. Addition of apocynin, aminoguanidine or ONO 1714 brought about a significant reduction in superoxide production. The expressions of p67 and p47(phox) were reduced by the addition of apocynin, aminoguanidine or ONO 1714 whereas xanthine oxidase and cyclooxygenase did not have a major role in superoxide production. The results of the present study show that iNOS and NADPH oxidase play an important role in superoxide release. It suggests that addition of iNOS inhibitor together with apocynin may be more effective in case of therapeutic application in disease conditions like atherosclerosis.
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PMID:Concomitant production of nitric oxide and superoxide in human macrophages. 1452 19

Monocyte extravasation into the vessel wall has been shown to be a critical step in the development of atherosclerosis. Upon activation, monocytes produce a burst of superoxide anion due to activation of the NADPH oxidase enzyme complex. Monocyte-derived superoxide anion contributes to oxidant stress in inflammatory sites, is required for monocyte-mediated LDL oxidation, and alters basic cell functions such as adhesion and proliferation. We hypothesize that monocyte-derived superoxide anion production contributes to atherosclerotic lesion formation. In this brief review, we summarize our current understanding of the signal transduction pathways regulating NADPH oxidase activation and related superoxide anion production in activated human monocytes. Novel pathways are identified that may serve as future targets for therapeutic intervention in this pathogenic process. The contributions of superoxide anion and NADPH oxidase to atherogenesis are discussed. Future experiments are needed to clarify the exact role of NADPH oxidase-derived superoxide anion in atherogenesis, particularly that derived from monocytes.
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PMID:Regulation of superoxide anion production by NADPH oxidase in monocytes/macrophages: contributions to atherosclerosis. 1452 94

VCAM-1 (vascular cell adhesion molecule-1) plays an important role in the regulation of inflammation in atherosclerosis, asthma, inflammatory bowel disease and transplantation. VCAM-1 activates endothelial cell NADPH oxidase, and this oxidase activity is required for VCAM-1-dependent lymphocyte migration. We reported previously that a mouse microvascular endothelial cell line promotes lymphocyte migration that is dependent on VCAM-1, but not on other known adhesion molecules. Here we have investigated the signalling mechanisms underlying VCAM-1 function. Lymphocyte binding to VCAM-1 on the endothelial cell surface activated an endothelial cell calcium flux that could be inhibited with anti-alpha4-integrin and mimicked by anti-VCAM-1-coated beads. VCAM-1 stimulation of calcium responses could be blocked by an inhibitor of intracellular calcium mobilization, a calcium channel inhibitor or a calcium chelator, resulting in the inhibition of NADPH oxidase activity. Addition of ionomycin overcame the calcium channel blocker suppression of VCAM-1-stimulated NADPH oxidase activity, but could not reverse the inhibitory effect imposed by intracellular calcium blockage, indicating that both intracellular and extracellular calcium mobilization are required for VCAM-1-mediated activation of NADPH oxidase. Furthermore, VCAM-1 specifically activated the Rho-family GTPase Rac1, and VCAM-1 activation of NADPH oxidase was blocked by a dominant negative Rac1. Thus VCAM-1 stimulates the mobilization of intracellular and extracellular calcium and Rac1 activity that are required for the activation of NADPH oxidase.
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PMID:Calcium mobilization and Rac1 activation are required for VCAM-1 (vascular cell adhesion molecule-1) stimulation of NADPH oxidase activity. 1459 51

Clinical and experimental evidence suggests that the pathways by which hypertension and dyslipidemia lead to vascular disease may overlap and that angiotensin II (Ang II) is involved in restructuring of the arterial wall in both atherosclerosis and hypertension. Ang II represents a potent proinflammatory agent promoting recruitment of monocytes into the vascular intima. Ang II also indirectly facilitates transformation of macrophages and smooth muscle cells into foam cells by promoting superoxide radical formation (via NADP/NADPH oxidase stimulation). The oxidative stress produced by Ang II leads to enhanced low-density lipoprotein oxidation and degradation of nitric oxide, an important vascular protective molecule capable of retarding atherosclerosis progression. The importance of the renin-angiotensin system (RAS) in atherogenesis is highlighted by studies in animal models as well as human beings indicating that inhibition of angiotensin-converting enzyme or blockade of type 1 Ang II receptors retards the development of atherosclerotic lesions. In light of a causal and central role of Ang II in atherogenesis, blockade of the RAS represents an important therapeutic consideration in the prevention and treatment of atherosclerotic disease.
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PMID:Renin-angiotensin system as a therapeutic target in managing atherosclerosis. 1470 95

A substantial proportion of individuals with coronary artery disease (CAD) has concomitant hypercholesterolemia. A large-scale association study was performed to identify separately genes that confer susceptibility to CAD in the absence or presence of nonfamilial hypercholesterolemia. The study population comprised 5248 unrelated Japanese individuals, including 3085 subjects with CAD (2350 men, 735 women) and 2163 controls (1329 men, 834 women). Among all study subjects, 2541 individuals (1688 men, 853 women) had nonfamilial hypercholesterolemia, and 2707 individuals (1991 men, 716 women) did not have this condition. The genotypes for 33 polymorphisms of 27 candidate genes were determined with a fluorescence- or colorimetry-based allele-specific DNA primer-probe assay system. Multivariate logistic regression analysis with adjustment for age, body mass index, and the prevalence of smoking, hypertension, diabetes mellitus, and hyperuricemia revealed that three polymorphisms [994G --> T (Val279Phe) in the platelet-activating factor acetylhydrolase gene, 242C --> T (His72Tyr) in the NADH/NADPH oxidase p22 phox gene, and 1100C --> T in the apolipoprotein C-III gene] were significantly associated with CAD in men with hypercholesterolemia. Genotyping of these three polymorphisms may prove informative for prediction of the genetic risk for CAD in men with nonfamilial hypercholesterolemia.
Atherosclerosis 2004 Jan
PMID:Association of gene polymorphisms with coronary artery disease in individuals with or without nonfamilial hypercholesterolemia. 1470 72

Hypertension is a risk factor for cardiovascular and cerebrovascular outcome. Hypertension is associated with oxidative stress. Alteration in endothelial function is an initial step in the pathogenesis of atherosclerosis. A balance between ambient levels of super oxide and released nitric oxide(NO) plays an important role in the maintenance of endothelial function. It is well known that reactive oxygen species, including hydroxy radicals, directly scavenge NO and produce toxic peroxynitrite. Angiotensin II and mechanical stress generate the reactive oxygen species through the activation of NADH/NADPH oxidase in hypertension. Several investigators have shown that oxidative stress is involved in enhanced vascular growth, vascular inflammation, and impaired endothelium-dependent in hypertension. In this review, we would like to explain the role of oxidative stress in hypertensive organ damages.
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PMID:[Oxidative stress, reactive oxygen species]. 1473 35

Accumulating evidence indicates that vascular dysfunction in atherosclerosis, hypertension, and diabetes is either caused by or accompanied by oxidative stress in the vessel wall. In particular, the role of redox processes as mediators of vascular repair and contributors to post-angioplasty restenosis is increasingly evident. Yet the pathophysiology of such complex phenomena is still unclear. After vascular injury, activation of enzymes such as NADPH oxidase leads to a marked increase in superoxide generation, proportional to the degree of injury, which rapidly subsides. Such early superoxide production is significantly greater after stent deployment, as compared to balloon injury. Recent data suggest the persistence of low levels of oxidant stress during the vascular repair reaction in neointimal and medial layers. Despite the compensatory increase in expression of iNOS and nNOS, nitric oxide bioavailability is reduced because of increased reaction rates with superoxide, yielding as by-products reactive nitrogen/oxygen species that induce protein nitration. Concurrently, the activity of vascular superoxide dismutases exhibits a sustained decrease following injury. This decreased activity appears to be a key contributor to vasoconstrictive remodeling and a major determinant of the occurrence of nitrative/oxidative stress. Replenishment of superoxide dismutase (SOD), as well as treatment with vitamins C and E or the lipid-lowering drug probucol and its analogs, led to decrease in constrictive remodeling and improved vessel caliber. Better understanding of the redox pathophysiology of vascular repair should help clarify the pathogenesis of many other vascular conditions and may provide novel therapeutic strategies to prevent vascular lumen loss.
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PMID:Redox processes underlying the vascular repair reaction. 1496 Nov 89

Until recently elevated blood pressure was considered as a hemodynamic entity representing an increase in workload for the heart and the arterial tree. Control of hypertension meant hemodynamic unloading, through inhibition of vasoconstrictor pathways, principally renin-angiotensin system and sympathetic system. In recent years however a new pharmacological approach has evolved as a result of (i) the dissociation of endothelial dysfunction and vascular pathology from increased blood pressure; (ii) the recognition that endothelial dysfunction regards not only the vascular reactivity, but also promotes atherosclerosis and thrombosis; and (iii) an improved understanding of the complexity of local-tissue renin angiotensin system and of the vasodilatory and cytoprotective role of natriuretic peptides. This has led to a reconsideration of existing medicines in terms of specification on endothelial function, more rationalized application of drugs and search for new compounds targeting both vasodilatory and anti-proliferative pathways. Examples include beta1-adrenergic antagonists, such as Nebivolol and Carvedilol, and vasopeptidase inhibitors, such as Omapatrilat, that inhibit simultaneously the angiotensin converting enzyme and neutral endopeptidase. Furthermore the identification of genetic polymorphisms in the effectors involved in the pathophysiology of hypertension or in the response to anti-hypertensive drugs, such as the p22phox subunit of NADPH oxidase, alpha-adducin or adrenergic receptors, has promoted the prospective of both better understanding of hypertension and individualized strategies for its treatment.
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PMID:The shift in the "paradigm" of the pharmacology of hypertension. 1496 15


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