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)

Several antioxidant enzymes, including copper, zinc-superoxide dismutase (Cu, Zn-SOD) and catalase, have been suggested to be protective against the proliferation of vascular smooth muscle cells exposed to oxidative stress. In the present study, we investigated effects of Cu, Zn-SOD and/or catalase on oxLDL-induced proliferation of, and intracellular signaling in, human aortic smooth muscle cells (HASMCs). HASMCs were transfected with adenovirus carrying the human Cu, Zn-SOD gene and/or the human catalase gene. This resulted in a high level of Cu, Zn-SOD and/or catalase overexpression and decreased oxLDL-induced proliferation. Cu, Zn-SOD and/or catalase also arrested cell cycle progression, which was associated with decreased expression of cyclin D1, cyclin E, CDK2, and CDK4 and upregulation of p21(Cip1) and p27(Kip1). Phosphorylation studies on ERK1/2, JNK, and p38, three major subgroups of mitogen activator protein kinases, demonstrated that Cu, Zn-SOD and/or catalase overexpression suppressed ERK1/2 and JNK phosphorylation. Gel-mobility shift analysis showed that oxLDL caused an increase in the DNA binding activity of activator protein-1 (AP-1) and nuclear factor kappaB (NF-kappaB), which was inhibited by Cu, Zn-SOD and/or catalase overexpression. These results provide the first evidence that overexpression of Cu, Zn-SOD and/or catalase in HASMCs attenuates the cell proliferation caused by oxLDL stimulation and that this inhibitory effect is mediated via downregulation of ERK1/2 and JNK phosphorylation and AP-1 and NF-kappaB inactivation. These observations support the feasibility of the increase of Cu, Zn-SOD and/or catalase expression in human smooth muscle cells as a means of protection against oxidant injury.
Atherosclerosis 2007 Jan
PMID:Superoxide dismutase and catalase inhibit oxidized low-density lipoprotein-induced human aortic smooth muscle cell proliferation: role of cell-cycle regulation, mitogen-activated protein kinases, and transcription factors. 1660 Feb 49

Exercise significantly influences the progression of atherosclerosis. Oxidized LDL (ox-LDL), as a stimulator of oxidative stress, facilitates monocyte-related atherogenesis. This study investigates how exercise intensity impacts ox-LDL-mediated redox status of monocytes. Twenty-five sedentary healthy men exercised mildly, moderately, and heavily (i.e., 40, 60, and 80% maximal oxygen consumption, respectively) on a bicycle ergometer. Reactive oxygen species (ROS) production, cytosolic and mitochondrial superoxide dismutase (c-SOD and m-SOD, respectively) activities, and total and reduced-form gamma-glutamylcysteinyl glycine (t-GSH and r-GSH, respectively) contents in monocytes mediated by ox-LDL were measured. This experiment obtained the following findings: 1) ox-LDL increased monocyte ROS production and was accompanied by decreased c-SOD and m-SOD activities, as well as t-GSH and r-GSH contents, whereas treating monocytes with diphenyleneiodonium (DPI) (a NADPH oxidase inhibitor) or rotenone/2-thenoyltrifluoroacetone (TTFA) (mitochondrial complex I/II inhibitors) hindered ox-LDL-induced monocyte ROS production; 2) production of ROS and reduction of m-SOD activity and r-GSH content in monocyte by ox-LDL were enhanced by heavy exercise and depressed by mild and moderate exercise; and 3) heavy exercise augmented the inhibition of ox-LDL-induced monocyte ROS production by DPI and rotenone/TTFA, whereas these DPI- and rotenone/TTFA-mediated monocyte ROS productions were unchanged in response to mild and moderate exercise. We conclude that heavy exercise increases ox-LDL-induced monocyte ROS production, possibly by decreasing m-SOD activity and r-GSH content in monocytes. However, mild and moderate exercise likely protects individuals against suppression of anti-oxidative capacity of monocyte by ox-LDL.
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PMID:Role of exercise intensities in oxidized low-density lipoprotein-mediated redox status of monocyte in men. 1672 23

The potential exists for zinc to influence numerous metabolic functions and to impact a range of diseases. In the present review we examine the reported relationships between zinc and plasma lipids, haemostasis and other factors postulated to play a role in atherogenesis. Ecological studies that investigated zinc intake or status, and incidence of coronary heart disease (CHD) reveal no consistent pattern. The conflicting observations may be explained by differences in the extent of CHD, site of atherosclerosis, or confounding factors. In most studies the diurnal variation in serum zinc concentrations, and the lifestyle factors that affect cholesterol metabolism were not explicitly considered. Results of randomised controlled trials show that low-density lipoprotein (LDL) oxidation and the concentrations of LDL-cholesterol (c), total cholesterol and triglycerides in plasma are unaffected by supplementation with up to 150 mg Zn/d. In contrast, plasma high-density lipoprotein (HDL)-c concentrations decline when zinc supplements provide a dose >50 mg/d. Limited data suggest that sustained hyperzincaemia predisposes individuals to thrombogenesis, whereas acute zinc depletion impairs platelet aggregation and prolongs bleeding time. In addition, Zinc supplements have been shown in some studies to decrease Cu/Zn-superoxide dismutase activity, primarily due to the antagonistic relationship between high zinc intakes and copper absorption. Besides the demonstrated adverse effect of zinc supplementation on plasma HDL-c concentrations in apparently healthy men, there is insufficient evidence to determine the role of zinc supplementation in influencing other risk factors for CHD such as antioxidant status and thrombogenesis.
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PMID:The effect of zinc supplementation in humans on plasma lipids, antioxidant status and thrombogenesis. 1694 49

Cytosolic CuZn-SOD (SOD1) is a dimeric, carbohydrate-free enzyme with a molecular weight of about 32 kDa and also circulates in human blood plasma. Due to its molecular mass it has been believed that the enzyme cannot penetrate the cell membrane. Here we report that rapid endocytosis of FITC-CuZn-SOD into human endothelial cells occurs within 5 min. Moreover, relaxation of rat aortic rings in response to CuZn-SOD is associated with a lag time of 45-60 s and only observed in the presence of intact endothelial cells. The results indicate acute and rapid endothelial cell endocytosis of CuZn-SOD, possibly via activation of a receptor-mediated pathway. Intracellular uptake via endocytosis may contribute to the vascular effects of CuZn-SOD, including vasodilation, and is likely to play a role in regulation of vascular tone and diseases such as atherosclerosis.
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PMID:Rapid endocytosis of copper-zinc superoxide dismutase into human endothelial cells: role for its vascular activity. 1707 46

Peroxynitrite (ONOO-), formed from a reaction of superoxide and nitric oxide, is one of the most potent cytotoxic species known to oxidize cellular constituents including essential proteins, lipids, and DNA. ONOO- induces cellular and tissue injury, resulting in several human diseases such as Alzheimer's disease, atherosclerosis, and stroke. Due to the lack of endogenous enzymes responsible for ONOO- scavenging activity, finding a specific ONOO- scavenger is of considerable importance. In this study, the ability of trypsin inhibitor (TI), isolated from sweet potato storage roots (SPTI), to scavenge *ON and ONOO- was investigated. The data obtained show that TI generated a dose-dependent inhibition on production of nitrite and superoxide radicals. The IC50 value of TI on superoxide radical was 143.2 +/- 4.29 microg/mL. SOD activity staining was used to confirm SOD activity of SPTI. SPTI also caused a dose-dependent inhibition of the oxidation of dihydrorhodamine 123 (DHR) by peroxynitrite. A calculated IC50 value of 809.1 +/- 32.36 microg/mL was obtained on the inhibition of peroxynitrite radical. Spectrophotometric analyses revealed that TI suppressed the formation of ONOO--mediated tyrosine nitration through an electron donation mechanism. In further studies, TI also showed a significant ability to inhibit nitration of bovine serum albumin (BSA) in a dose-dependent manner. In vivo TI inhibited lipopolysaccharide-induced nitrite production in macrophages in a concentration-dependent manner with an IC50 value of 932.8 +/- 29.85 microg/mL. The present study suggested that TI had an efficient reactive nitrogen species scavenging ability. TI might be a potential effective NO and ONOO- scavenger useful for the prevention of NO- and ONOO--involved diseases.
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PMID:Inhibition of reactive nitrogen species in vitro and ex vivo by trypsin inhibitor from sweet potato 'Tainong 57' storage roots. 1760 66

The work was aimed at elucidating the role of the indices of the antioxidant system (AOS) of the blood and nitrogen oxide content in differential diagnosis of atherosclerosis obiiterans (AO) and thromboangiitis obiiterans (TO) of the lower extremities. Presented herein are the findings of examining a total of one hundred and thirteen 30-to-45-year-old patients (of these, 60 had TO and 53 had AO) with various level of occlusion (from the femoropoplietal segment to the aortoiliac zone) and the stage of chronic arterial insufficiency (CAI IIA-IV). The control group was composed of 30 apparently healthy age-matched male subjects. Besides the clinical, laboratory and special instrumental methods of study, we determined the parameters of the AOS of blood and the content of nitrogen oxide degradation products. It was determined that the directedness and pronouncedness of deviations in the parameters of the AOS and nitrogen oxide from the physiological norm depended on not only the aetiology of the disease involved, but on the degree of tissue hypoxia predetermined by the stage of CAI of the lower limbs. For differential diagnosis between AO and TO, the most informative should be considered the coefficient: SOD activity/catalase activity, index of peroxide-luminol-dependent chemiluminescence and the content of nitrogen oxide degradation products.
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PMID:[Indices of antioxidant system of blood in differential diagnosis of obliterating atherosclerosis and obliterating thromboangiitis of the lower limbs]. 1767 72

Oxidatively modified LDL is generally accepted to be an important elicitor of pro-mitotic, pro-inflammatory, and atherogenic effects in vascular cells. The uptake of oxLDL and concomitant activation of the O(2)*-producing NAD(P)H oxidase and/or oxLDL as a self-contained emitter of O(2)* are believed to trigger these malfunctions. The following observations allowed reinvestigating the mode of oxLDL-induced stress: (1) we observed that artery smooth muscle primary cells internalize fluorescently labelled oxidized or acetylated LDL considerably less efficient than endothelial cells. (2) Both types of cells, however, displayed an oxLDL concentration dependent level of oxidative stress as monitored by the oxidation of carboxy-H2DCFDA to fluorescent carboxy-DCF. A dose dependent decrease of dihydroethidine oxidation to oxyethidine implied an oxLDL-induced depletion of the cellular energy pool. The release of O(2)* by exogenous oxLDL, as postulated above, did not sufficiently explain intracellular stress because the fluorescence was only marginally blocked by antioxidative enzymes (SOD, catalase) or substances (L-NAME, DMSO, DMHP, DMTU). We were able to reveal a third mode of oxLDL-induced stress by showing with the help of a fluorescent, oxidizable lipid analogue (BODIPY 581/591 C(11)) that oxLDL-derived lipid peroxides and radicals migrate into cellular membranes giving rise to a chronic inoculation of the vascular cells with oxidative chain reactions. The novel data may help to design adequate therapeutic strategies against oxLDL-induced cardiovascular diseases.
Atherosclerosis 2008 Apr
PMID:Transmission of oxLDL-derived lipid peroxide radicals into membranes of vascular cells is the main inducer of oxLDL-mediated oxidative stress. 1795 Feb 98

Insulin Resistance along with endothelial dysfunction give rise to a constellation of syndromes designated as IRS/MBS metabolic syndrome. Endothelial dysfunction starts early in life much before the development of structural atherosclerosis. Recent insights into vascular biology enable us to understand the molecular mechanisms underlying endothelial dysfunction, and the scope and need for prevention of "pre-clinical" coronary atherosclerosis through lifestyle modification; diet, exercise and stress management. Diminished production of nitric oxide (NO) and/or increased inactivation of NO through oxidative stress (reactive oxygen species ROS and reactive nitrogen species (RNS) are the basis of endothelial dysfunction hence increasing the bioavailability of NO and decreasing its inactivation is the aim of prevention and reversal of endothelial dysfunction. Insulin regulates constitutive NOS gene expression in endothelial cells in vivo; vasodilation is an important component of Insulin-stimulated whole body glucose uptake. Successful strategies are: PPAR alpha and gamma agonists which increase NO production in endothelium; anti-oxidants such as vit. E and C; supplementation with L-arginine, tetrahydrobiopterin-BH4 or sepiapterin (precursor of BH4), SOD mimetic tempol, statins which apart from lowering cholesterol improve NO production, selective beta1 adrenoreceptor antagonists such as nebivolol; suppression of angiotensin-mediated endothelin production by ACE inhibitors and ATR blockers; CB1 receptor blockers, PKCb inhibitors, nitric oxide donors (glyceryl trinitrate and isosorbide dinitrate), dietary supplements of EPA/DHA and regular physical exercise and control of mental stress.
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PMID:Causation, prevention and reversal of vascular endothelial dysfunction. 1805 38

Extracellular superoxide dismutase (EC-SOD) is the main SOD isoform in the arterial wall contributing to cardiovascular defense against oxidative stress by removing the superoxide anion. In our study, the Thr40Ala and Arg213Gly polymorphic variants of the EC-SOD gene (SOD ( 3 )) were investigated for associations with atherosclerosis and other related factors in 144 subjects with significant atheroma (having one, two, or three major coronary arteries with >50% obstruction, and/or peripheral artery lesions, and/or carotid artery stenosis demonstrated by angiography and echography) and in 150 subjects with no significant atheroma. For the Arg213Gly polymorphism, only five heterozygous subjects were found. Although the difference in the genotype distribution for the Thr40Ala polymorphism was not statistically significant between patients with atheroma (AA 49.3%, AG 34.7%, GG 16.0%) and those without significant atheroma (AA 41.3%, AG 43.3%, GG 15.3%), there was an association of the Thr40 allele with diabetes (P = 0.03) and hypertension (P = 0.04).
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PMID:Polymorphic variants of extracellular superoxide dismutase gene in a Romanian population with atheroma. 1872 85

Epidemiological studies have reported an inverse association between dietary flavonoid intake and mortality for ischemic heart disease. Quercetin reduces blood pressure and restores endothelial dysfunction in hypertensive animals. However, quercetin (aglycone) is usually not present in plasma, but it is rapidly metabolized during absorption by methylation, glucuronidation and sulfation. We have analyzed the vasorelaxant effects and the role on NO bioavailability and endothelial function of quercetin and its conjugated metabolites (quercetin-3-glucuronide, isorhamnetin-3-glucuronide and quercetin-3'-sulfate) in rat aorta. Thoracic aortic rings isolated from Wistar rats were mounted for isometric force recording and endothelial function was tested by measuring the vasorelaxant response to acetylcholine. NADPH-enhanced O(2)(-) release was quantified in homogenates from cultured aortic smooth muscle cells using lucigenin chemiluminescence. Unlike quercetin, the conjugated metabolites had no direct vasorelaxant effect, and did not modify endothelial function or the biological activity of NO. However, all metabolites (at 10 micromol/L) prevented, at least partially, the impairment of endothelial-derived NO response under conditions of high oxidative stress induced by the SOD inhibitor DETCA. Furthermore, they protected the biological activity of exogenous NO when impaired by DETCA. Quercetin and quercetin-3'-sulfate (>or=10 micromol/L) or quercetin-3-glucuronide (100 micromol/L) inhibited NADPH oxidase-derived O(2)(-) release. Quercetin and quercetin-3-glucuronide (1 micromol/L) prevented the endothelial dysfunction induced by incubation with ET-1. These data indicate, for the first time, that the conjugated metabolites could be responsible for the in vivo protective activity of quercetin on endothelial dysfunction.
Atherosclerosis 2009 May
PMID:Glucuronidated and sulfated metabolites of the flavonoid quercetin prevent endothelial dysfunction but lack direct vasorelaxant effects in rat aorta. 1880 86

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