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)

Plasma lipids play a key role in the development of atherosclerosis. Recent trial data support early identification of asymptomatic adults with high-risk lipid profiles for primary prevention of coronary heart disease. 3-Hydroxy-3-methylglutaryl coenzyme A reductase inhibitors have been shown to reduce coronary events in both asymptomatic adults and those with known coronary heart disease. The optimal plasma low-density lipoprotein cholesterol for secondary coronary prevention remains controversial. The Second Report of the Expert Panel on Detection, Evaluation and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel II), published in 1993 by the National Cholesterol Education Program, recommends guidelines for evaluation and diagnosis of lipids. Subsequently, several clinical trials have identified populations benefiting from pharmacologic intervention and new approaches to the management of lipid disorders. Consequently, these guidelines should be applied with the interval evidence in mind.
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PMID:Evaluation and management of lipid disorders. 1044 9

The effects of the administration of coenzyme Q10 (3 mg/kg per day) (group A, n=10) and placebo (aluminum hydroxide, 3 mg/kg per day) (group B, n=10) were compared over 24 weeks in a randomized, single-blind, controlled trial. There were two groups of rabbits receiving a trans fatty acid (TFA)-rich diet (5-8 g/day) for 36 weeks. Oxidized rabbit chow with vitamin C plus ferric chloride was administered for 4 weeks in all rabbits. Intervention with coenzyme Q10 after feeding of TFA-rich diet was associated with a significant decline in thiobarbituric acid reactive substances (TBARS), diene conjugates and malondialdehyde, and an increase in plasma levels of vitamin E in the coenzyme Q group compared to placebo group. These changes, which were indicators of a decrease in oxidative damage, were independent of lipid lowering. The aortic and coronary artery plaque sizes, coronary atherosclerosis index, aortic and coronary atherosclerosis scores were significantly lower in the coenzyme Q group than placebo group. Aortic and coronary plaque frequencies, as well as frequencies of ulceration, thrombosis or hemorrhage, and cracks and fissures, were also significantly lower in the coenzyme Q group, indicating a better quality of atheroma compared to those in the control group. Aortic cholesterol, triglycerides and sudanophilia were significantly lower and vitamin E significantly higher in the coenzyme Q group in comparison to the placebo group indicating that coenzyme Q10 can have beneficial effect on the chemical composition of atheroma. The findings suggest that antioxidant therapy with coenzyme Q10 may be used as an adjunct to lipid lowering for additional beneficial effects related to chemical composition and quality of atheroma independent of hypolipidemic agents.
Atherosclerosis 2000 Feb
PMID:Effect of coenzyme Q10 on experimental atherosclerosis and chemical composition and quality of atheroma in rabbits. 1065 62

Oxidative modification of low-density lipoprotein (LDL) is thought to play a key role in the etiology of atherosclerosis. Oxidized LDL that accumulates in atherosclerotic plaques is known to exhibit a characteristic fluorescence with excitation and emission near 360 and 430 nm, respectively. (E)-4-Hydroxy-2-nonenal (HNE), formed during LDL oxidation, is capable of modifying LDL to generate the same fluorescent signature. The HNE-derived fluorophore was shown by us to possess a 2-hydroxy-2-pentyl-1,2-dihydropyrrol-3-one iminium (HPDPI) structure. We herein report the synthesis of the HPDPI-derived lysine-lysine cross-link needed as a standard reference for HPLC quantitation of the cross-link in protein hydrolysates. The main focus of the current work, however, is the design and development of two polyclonal antibodies against the HPDPI epitope. Utilizing these antibodies, levels of the HPDPI epitope were estimated in HNE-treated bovine serum albumin and in copper-oxidized LDL by an enzyme-linked immunosorbent assay. Our results are consistent with the premise that the fluorescent HPDPI cross-link is a key contributor to the fluorescence exhibited by atherosclerotic lesions.
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PMID:Polyclonal antibodies to a fluorescent 4-hydroxy-2-nonenal (HNE)-derived lysine-lysine cross-link: characterization and application to HNE-treated protein and in vitro oxidized low-density lipoprotein. 1081 58

Central nervous system damage in diabetes is caused by both cerebral atherosclerosis and the detrimental effect of chronic hyperglycaemia on nervous tissue. Hyperglycaemia is the primer of a series of cascade reactions causing overproduction of free radicals. There is increasing evidence that these reactive molecules contribute to neuronal tissue damage. Dehydroepiandrosterone (DHEA) has been reported to possess antioxidant properties. This study evaluates the oxidative status in the synaptosomal fraction isolated from the brain of streptozotocin-treated rats and the antioxidant effect of DHEA treatment on diabetic rats. Hydroxyl radical generation, hydrogen peroxide content, and the level of the reactive oxygen species was increased (P<0.05) in synaptosomes isolated from streptozotocin-treated rats. The derangement of the oxidative status was confirmed by a low level of reduced glutathione and alpha-tocopherol. DHEA treatment (4 mg per day for 3 weeks, per os) protected the synaptosomes against oxidative damage: synaptosomes from diabetic DHEA-treated rats showed a significant decrease in reactive species (P<0.05) and in the formation of end products of lipid peroxidation, evaluated in terms of fluorescent chromolipid (P<0.01). Moreover, DHEA treatment restored the unsaturated fatty acid content of the membrane and the reduced glutathione and alpha-tocopherol levels to normal levels and restored membrane NaK-ATPase activity close to control levels. The results demonstrate that DHEA supplementation greatly reduces oxidative damage in synaptosomes isolated from diabetic rats and suggest that this neurosteroid may participate in protecting the integrity of synaptic membranes against hyperglycaemia-induced damage.
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PMID:Oxidative derangement in rat synaptosomes induced by hyperglycaemia: restorative effect of dehydroepiandrosterone treatment. 1085 34

The aim of this work was to study the cholesterol-lowering mechanisms induced by dietary soybean lecithin in hypercholesterolemic rabbits. Male New Zealand white rabbits (n = 6 in each group) were fed for 10 weeks either a low-fat control C diet, containing 27 g fat/kg, or high-fat diets enriched with 2 g cholesterol/kg and 77 g fat/kg. The high-fat diets contained 50 g lard (L), 50 g soybean triacylglycerol (SO), or 50 g pure soybean phosphatidylcholine (PLE). PLE diet decreased by 30% beta-VLDL-cholesterol, compared with SO diet. HDL2-, HDL3- and LDL-lipid contents were unchanged in the L, SO and PLE groups. In gallbladder bile, amounts of phospholipids, bile salts and cholesterol were significantly increased in PLE group by respectively 45%, 11% and 44%, in comparison with SO group. Intestinal and hepatic Hydroxy Methyl Glutaryl Coenzyme A reductase activities were not increased by PLE diet. Triacylglycerol hepatic content was lower in PLE group than in L or SO groups. Compared with triacylglycerol enriched diet, phosphatidylcholine enriched diet developed significant higher cholesterol- and triacylglycerol-lowering effects by a two-step mechanism: i) by reducing the beta-VLDLs, ii) by enhancing the secretion of bile cholesterol. Such results constitute promising effects of soybean phosphatidylcholine at the hepato-biliary level, in the treatment or prevention of hyperlipidemia and related atherosclerosis.
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PMID:Dietary polyenylphosphatidylcholine decreases cholesterolemia in hypercholesterolemic rabbits: role of the hepato-biliary axis. 1110 58

ADVERSE EFFECTS OF OXYGEN: Adverse effect of oxygen on anaerobes implies oxidation of the basic cell constituents NAD(P)H, thiols, iron-sulphur proteins, pteridines and others) and inactivation of the essential components of the active site of enzymes. Oxygen can also adversely affect the aerobes, especially if long-term influence is taken into consideration, while exposition to high-pressure oxygen causes considerable damages. Direct influence of oxygen on aerobes due to slow and limited enzyme inactivation (for example glutamate decarboxylase) and small number of affected "targets" is not responsible for total adverse effects of oxygen. Even in 1954 it was supposed that oxygen free radicals are the most responsible for the adverse effects of oxygen. ATMOSPHERIC (TRIPLET) OXYGEN: Electron configuration of triplet oxygen explains its reactivity since it is a biradical. The reactions of oxygen with non-radicals are possible with participation of transition metals (except zinc), while its reactivity is much more expressed in case of reactions with other radical species. ACTIVE OXYGEN: More reactive forms of oxygen, known as singlet oxygen, can be generated by an input of energy to triplet oxygen. Singlet-oxygen is obtained mainly by photoexcitation in the presence of initiators (methylene blue, chlorophyll etc.) and as a product of reactions of ozone with certain biomolecules. REDUCED FORMS OF OXYGEN: If a single electron is added to the triplet oxygen, it must enter one of the antibonding molecular orbitals and produce the superoxide radical--(O2.-). Addition of one more electron produces peroxide ion--O2(2-), which forms hydro peroxide in presence of H+, the most common two-electron reduction product of oxygen in biological systems. The four-reduction product of oxygen in biological systems is water. SUPEROXIDE RADICAL: The in vivo production of superoxide radical is possible in many different ways mentioned in this paper. This radical species is unstable in water solutions because of dismutation reaction leading to non-enzymic generation of hydroperoxide. The most reactive radical species--hydroxyl radical is produced from hydro peroxide by Fenton or Haber-Weiss reactions in the presence of catalytic transition metals (iron or copper). HYDROXYL RADICAL: Hydroxyl radicals are the most reactive radical species. The way of their generation has been shown in detail in this paper with special emphasis given to Fenton and Haber-Weiss reactions, that is, transition metals (iron and copper) as catalizators for these reactions. The reactivity of hydroxyl radical can be recognized by monitoring the second-order rate constants for reactions of the hydroxyl radical with some organic compounds in aqueous solution presented in this paper. Although the number of compounds that can be affected and damaged by hydroxyl radicals is great, until now, attention has been paid mostly to investigation of attacks of these radical species on lipids, proteins and DNA. LIPID PEROXIDATION: Radicals react with lipids and cause oxidative destruction of unsaturated, that is, polyunsaturated fatty acids, known as lipid peroxidation. Both lipids in biological systems and lipids as food constituents are submitted to this process. Lipid peroxidation is a chain reaction and its mechanism has been shown in detail in this paper. Lipid peroxidation in cells leads to direct damage of cell membranes with indirect damages of other cell constituents, caused by reactivity of secondary products of this reaction, aldehydes. This complex reaction is responsible for damages of many tissues and progress of some diseases (atherosclerosis). OXIDATIVE STRESS: Protection of an organism from oxygen free radicals implies activity of enzymatic (catalase, SOD, glutathione peroxidase, glutathione reductase etc.) and nonenzymatic (vitamin E. vitamin C. glutathione, uric acid etc.) systems of protection. Disturbance of the balance between production of oxygen free radicals (or some other radical species) and activity of antioxidative system of protection causes the so called oxidative stress. An organism can tolerate a mild oxidative stress but a higher disturbance between the production of free radicals and the activity of the antioxidative protection results in lipid protein and DNA as well as numerous diseases.
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PMID:[Free oxygen radiacals and kidney diseases--part I]. 1132 Jul 27

1. 3-Hydroxy-3-methylglutaryl co-enzyme A reductase inhibitors (statins) prevent the progression of atherosclerosis by lowering cholesterol. However, the effect of statins on the synthesis of pro-inflammatory cytokines from endothelial cells has not yet been fully investigated. Here, we examined the effect of pravastatin, one of the statins, on IL-8 synthesis induced by thrombin in human aortic endothelial cells (AoEC) cultured with high glucose concentrations. 2. Pravastatin significantly decreased the IL-8 synthesis induced by thrombin. 3. Pravastatin inhibited the p44/42 MAP kinase activity induced by thrombin, but did not inhibit the p38 MAP kinase activity. 4. Translocation of ras protein from the cytosol to plasma membrane was inhibited by pravastatin. 5. Pravastatin inhibit the activator protein-1 activity, but did not inhibit the activation of IkappaB-alpha. 6. Dominant negative ras inhibited the p44/42 MAP kinase activity induced by PMA. 7. Our results suggest that pravastatin inhibits IL-8 synthesis by blocking the ras-MAP (p44/42) kinase pathway rather than nuclear factor-kappaB. Pravastatin may prevent atherosclerosis not only by lowering cholesterol levels, but also by suppressing IL-8 synthesis in AoEC through the inhibition of p44/42 MAP kinase, and this may be more beneficial in diabetic patients than in non-diabetics.
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PMID:Pravastatin suppresses the interleukin-8 production induced by thrombin in human aortic endothelial cells cultured with high glucose by inhibiting the p44/42 mitogen activated protein kinase. 1160 15

3-Hydroxy-3-methylglutaryl (HMG)-coenzyme A reductase inhibitors or statins exert direct beneficial effects on the endothelium in part through an increase in nitric oxide (NO) production. Here, we examined whether posttranslational modifications of the endothelial NO synthase (eNOS) could account for the proangiogenic effects of statins. We used endothelial cells (ECs) isolated from cardiac microvasculature, aorta, and umbilical veins, as well as dissected microvessels and aortic rings, that were cultured on reconstituted basement membrane matrix (Matrigel). Tube or precapillary formation was evaluated after statin treatment, in parallel with immunoblotting and immunoprecipitation experiments. Atorvastatin stimulated NO-dependent angiogenesis from both isolated and outgrowing (vessel-derived) ECs, independently of changes in eNOS expression. We found that in macro- but not microvascular ECs, atorvastatin stabilized tube formation through a decrease in caveolin abundance and its inhibitory interaction with eNOS. We also identified the chaperone protein hsp90 as a key target for the proangiogenic effects of statins. Using geldanamycin, an inhibitor of hsp90 function, and overexpression of recombinant hsp90, we documented that the statin-induced phosphorylation of eNOS on Ser1177 was directly dependent on the ability of hsp90 to recruit Akt in the eNOS complex. Finally, we showed that statin promoted the tyrosine phosphorylation of hsp90 and the direct interaction of hsp90 with Akt, which further potentiated the NO-dependent angiogenic processes. Our study provides new mechanistic insights into the NO-mediated angiogenic effects of statins and underscores the potential of these drugs and other modulators of hsp90 and caveolin abundance to promote neovascularization in disease states associated or not with atherosclerosis.
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PMID:Hsp90 and caveolin are key targets for the proangiogenic nitric oxide-mediated effects of statins. 1170 13

Monocytes and macrophages synthesize tissue factor (TF) which plays a role in thrombogenicity in coronary artery disease. This study was conducted to investigate the effect of Rho/Rho-kinase inhibition on the synthesis of TF in cultured human monocytes. 3-Hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors (statins), C3 exoenzyme and Rho-kinase inhibitors were added to isolated peripheral blood monocytes and the synthesis of TF was assessed by reverse transcriptase polymerase chain reaction (RT-PCR), Western blotting and immunohistochemistry. Rho activity was determined by measuring the GTP-bound form of Rho A. Cerivastatin and pravastatin reduced the levels of TF antigen and mRNA. The suppressive effect of statins on TF synthesis was reversed by geranylgeranylpyrophosphate (GGPP) and the restoring effect of GGPP was eliminated by C3 exoenzyme and Y-27632. Pravastatin decreased the activity of Rho A, suggesting that the suppression of TF synthesis by statins is mediated via inhibition of the geranylgeranylation of Rho. Moreover, inhibition of Rho and Rho-kinase downregulated the synthesis of TF. Our results suggest that Rho/Rho-kinase signaling is involved in the synthesis of TF in human monocytes and that inhibition of Rho/Rho-kinase may be useful for treating thrombogenicity in coronary artery disease.
Atherosclerosis 2002 Jul
PMID:Rho/Rho-kinase is involved in the synthesis of tissue factor in human monocytes. 1204 20

Oxidative modification of low-density lipoprotein (oxLDL) plays a pathogenic role in atherogenesis. Classical antioxidants such as L-ascorbic acid can inhibit formation of oxLDL. Alpha-Keto-carboxylates such as pyruvate and congeners also display antioxidant properties in some cell-free and intact cell systems. We tested the hypothesis that pyruvate or alpha-keto-glutarate may function as antioxidants with respect to LDL incubated with 5 or 10 microM Cu2+ alone or in combination with THP-1-derived macrophages. alpha-Hydroxy-carboxylates (L-lactate), linear aliphatic monocarboxylates (acetate/caprylate) and L-ascorbic acid served as controls. The oxLDL formation was ascertained by electrophoretic mobility and oxLDL cytotoxicity was judged by macrophage viability and thiobarbituric acid reactive substances (TBARS) formation. Cu2+ alone was not cytotoxic but increased electrophoretic mobility of cell-free LDL, stimulating TBARS. Millimolar pyruvate, alpha-ketoglutarate, or micromolar L-ascorbic acid partially inhibited oxLDL formation, while alpha-hydroxy-carboxylate or the aliphatic mono-carboxylates had no measurable antioxidant properties in cell-free LDL. Co-culture of LDL with macrophages and Cu2+ augmented TBARS release and resulted in 95% macrophage death. Pyruvate improved macrophage viability with 5 microM Cu2+ up to 60%. L-Ascorbic acid (> or = 100 microM) protected macrophages up to 80%. When > or = 100 microM L-ascorbic acid was combined with pyruvate, oxLDL formation and macrophage death were fully prevented. Thus, alpha-keto-carboxylates, but not physiological alpha-hydroxy-carboxylates or aliphatic monocarboxylates qualify as antioxidants in LDL systems. Since alpha-keto-carboxylates enhanced the antioxidant power of L-ascorbic acid, our findings may have implications for strategies attenuating atherosclerosis.
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PMID:Antioxidant alpha-keto-carboxylate pyruvate protects low-density lipoprotein and atherogenic macrophages. 1242 Jul 49

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