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)

Growing evidence indicates that oxidized low-density lipoprotein (LDL) may promote atherogenesis. Therefore, inhibition of LDL oxidation may impede this process. Carvedilol is a vasodilating, beta-adrenoceptor blocking agent. As a new antihypertensive drug, carvedilol is unique by virtue of its potent antioxidant activity. Therefore, we tested the ability of carvedilol to inhibit the oxidation of LDL by either macrophages or Cu2+. Carvedilol inhibited LDL oxidation by macrophages in a dose-dependent manner, with an IC50 value of 3.8 microM, as assessed by a thiobarbituric acid reactive substance (TBARS) assay. Under the same conditions, propranolol showed only a mild inhibitory effect (IC50 > 100 microM), while pindolol, atenolol and labetalol had almost no effect. Carvedilol, at 10 microM, almost completely inhibited the macrophage-induced increase in electrophoretic mobility of LDL, while other beta-blockers at 50-300 microM had no significant effect. Carvedilol inhibited superoxide release from mouse macrophages, which correlated well with its inhibition of LDL oxidation. Carvedilol also inhibited Cu(2+)-induced LDL oxidation with an IC50 value of 17 microM, while all other beta-blockers were inactive up to 300 microM. These observations suggest that carvedilol might not only be an effective antihypertensive drug, but might also be effective in prevention of atherosclerosis.
Atherosclerosis 1992 Dec
PMID:Carvedilol, a new antihypertensive, prevents oxidation of human low density lipoprotein by macrophages and copper. 136 24

The exposure of mouse peritoneal macrophages to cholesterol linoleate-containing artificial lipoproteins can lead to intracellular ceroid accumulation. This can be used as a model to study the role of oxidation in macrophage uptake of lipoproteins containing unsaturated fatty acids, considered by many as a primary event in atherosclerotic plaque formation. Our studies show that ascorbic acid can both inhibit and promote the formation of ceroid in such a model system. The transition metal copper (Cu(II)) further elevates ceroid accumulation and EDTA, a metal chelator, inhibits it. When trace levels of transition metals are present, low concentrations of ascorbic acid can elevate ceroid formation. This pro- and antioxidant characteristic of ascorbic acid was confirmed by monitoring the generation of oxidants by various concentrations of ascorbic acid, assessed by benzoic acid hydroxylation or the fragmentation of BSA. We discuss these observations in the context of an apparent increase in ascorbic acid oxidation and elevated severity of atherosclerosis in diabetes mellitus.
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PMID:Ascorbic acid oxidation: a potential cause of the elevated severity of atherosclerosis in diabetes mellitus? 139 4

Remnants, resulting from the lipolysis of triglyceride-rich lipoproteins, injured cultured endothelial cells and resulted in decreased barrier function of the vascular endothelium. Endothelial cells were cultured on micropore filters. Albumin transfer across endothelial cell monolayers was measured after a 24-h exposure to media enriched with control or in vitro-lipolyzed samples of various hypertriglyceridemic (HTG) sera and its isolated lipoprotein (VLDL, LDL and HDL) and serum free protein (d greater than 1.21 g/ml) fractions. Compared with control cultures, neither control HTG serum nor its isolated lipoprotein and serum-free protein fractions had any effect on albumin transfer. In contrast, lipolyzed HTG (L-HTG) serum and all of its isolated lipoprotein fractions (L-VLDL, L-IDL, L-LDL and L-HDL) caused a marked decrease in endothelial barrier function, evidenced by a significant increase in albumin transfer across endothelial monolayers. The L-IDL and L-HDL fractions were more effective in increasing albumin transfer than the L-VLDL and L-LDL fractions. The extent of the L-IDL and L-HDL mediated increases in albumin transfer was concentration dependent. An exposure of 12 h was required for L-HDL to increase albumin transfer. The L-HDL mediated increase in albumin transfer was reversible only after a 12-h exposure at low concentrations. The free protein fraction from L-HTG serum had no significant effect on the barrier function of endothelial cells. The presence of normolipidemic HDL in culture medium prevented disruption of the endothelial barrier induced by L-IDL but not by L-HDL. The decrease in endothelial barrier function induced by lipolyzed samples of HTG serum or lipoproteins appeared to be correlated with the level of free fatty acids contained in lipolytic remnants. Enrichment of LDL, and in particular HDL, with fatty acid significantly increased albumin transfer. Compared with lipolyzed samples, sera/lipoproteins oxidized in vitro by Cu2+ ions had little effect on endothelial barrier function, which did not correlate with their respective thiobarbituric acid-reacting substance (TBARS) values. TBARS remained within normal range after L-HDL incubation with endothelial cells for up to 48 h. At most concentrations tested, exposure to lipolyzed but not oxidized lipoproteins resulted in morphological perturbations of cell monolayers. These data suggest that lipolytic remnants of triglyceride-rich lipoproteins may play an important role in the development of atherosclerosis by decreasing the barrier function of the vascular endothelium. The remnant-induced injury of the arterial wall may permit the entry of cholesterol-rich lipolytic remnants as well as LDL into the arterial wall.
Atherosclerosis 1992 Aug
PMID:Disruption of endothelial barrier function by lipolytic remnants of triglyceride-rich lipoproteins. 141 97

The effect of 4 months of low-dose probucol treatment (250 mg/day) on LDL oxidation and on plasma-HDL cholesterol was studied in a prospective, double-blind, randomized, placebo-controlled trial involving 26 male volunteers. LDL samples isolated at baseline and at 4 months were subjected to in vitro tests of LDL oxidation, involving copper-catalyzed, time-course experiments. For the placebo group, LDL oxidation did not significantly change over the 4-month period. However, in the probucol group, LDL oxidation was significantly inhibited at 4 months, as evidenced by assays measuring conjugated diene formation, lipid peroxide production and altered electrophoretic mobility of oxidized LDL. In fact, in the probucol group the 'lag-phase' of oxidation was prolonged 2.7-fold. Neither probucol nor placebo had a significant effect on plasma HDL-cholesterol: in the probucol group HDL-cholesterol fell from 37.7 +/- 7.4 mg/dl to 34.2 +/- 8.3 mg/dl (percentage decrease -8.9), while in the placebo group plasma HDL-cholesterol levels were 42.4 +/- 8.3 mg/dl and 40.9 +/- 7.0 mg/dl at baseline and 4 months (percentage decrease -2.7). Therefore, a low dose of probucol (250 mg/day) given daily seems to afford protection against the oxidative modification of LDL, and does not appear to exert any substantial effect on the plasma lipoprotein profile.
Atherosclerosis 1992 Nov
PMID:Effect of low-dose probucol therapy on LDL oxidation and the plasma lipoprotein profile in male volunteers. 144 90

Aminoguanidine decreases the formation of advanced glycosylation end products that occurs during chronic hyperglycemia. Presumably this occurs because early glycosylation products preferentially bind to aminoguanidine rather than to lysine groups of adjacent proteins. Because oxidative modification of low density lipoprotein (LDL) also involves derivatization of lysine residues of apolipoprotein (apo) B by reactive aldehydes formed during the decomposition of oxidized fatty acids, we postulated that aminoguanidine might also inhibit the oxidatively induced modification of LDL protein. To test this hypothesis we oxidized LDL by incubation with Cu2+ or with endothelial cells in the absence or presence of aminoguanidine. Aminoguanidine prevented apo B lysine modification, as measured by fluorescence spectroscopy, and inhibited in a dose-dependent manner the oxidatively induced increase in subsequent macrophage uptake. At concentrations that inhibited apo B modification (5-10 mM), aminoguanidine increased the lag time in diene conjugation but did not affect the plateau value reached. These data indicate that aminoguanidine inhibits oxidative modification of LDL protein in large part by binding reactive aldehydes formed during lipid peroxidation and preventing their subsequent conjugation to apo B. Thus, aminoguanidine (and related compounds) may be of dual benefit in inhibiting atherosclerosis, both by inhibiting formation of advanced glycosylation end products and by inhibiting the modification of LDL apo B that makes it a ligand for scavenger receptors.
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PMID:Aminoguanidine inhibits oxidative modification of low density lipoprotein protein and the subsequent increase in uptake by macrophage scavenger receptors. 149 78

The oxidative modification of low-density lipoprotein (LDL) is suggested to play an important role in the pathogenesis of atherosclerosis. The present study examined the role of the formation of LDL-copper (Cu) complex in the peroxidation of LDL. The amount of copper bound to LDL increased during incubation performed with increasing concentrations of CuSO4. More than 80% of the copper bound to the LDL particle was observed in the protein phase of LDL, suggesting that most of the copper ions formed complexes with the ligand-binding sites of apoprotein. The addition of histidine (1 mM), known to form a high affinity complex with copper, and EDTA (1 mM), a metal chelator, during the incubation of LDL with CuSO4 prevented the formation of both thiobarbituric acid-reactive substances (TBARS) and LDL-Cu complexes. EDTA inhibited the copper-catalyzed ascorbate oxidation whereas histidine had no effect, suggesting that the copper within the complex with histidine is available to catalyze the reaction, in contrast to EDTA. These observations indicate that the preventive effect of histidine on the copper-catalyzed peroxidation of LDL is not simply mediated by chelating free copper ions in aqueous phase. Evidence that copper bound to LDL particle still has a redox potential was provided by the observed increase in TBARS content during incubation of LDL-Cu complexes in the absence of free copper ions. The addition of either histidine or EDTA to LDL-Cu complexes inhibited the formation of TBARS by removing copper ions from the LDL forming the corresponding complexes. However, there still remained small amounts of copper in the LDL particles following the treatment of LDL-Cu complexes with histidine or EDTA. The copper ions remaining in the LDL particle lacked the ability to catalyze LDL peroxidation, suggesting that there may be two types of copper binding sites in LDL: tight-binding sites, from which the copper ions are not removed by chelation, and weak-binding sites, from which copper ions are easily removed by chelators. The formation of TBARS in the LDL preparation during incubation with CuSO4 was comparable to the incubation with FeSO4. In contrast, the formation of TBARS in the LDL-lipid micelles by CuSO4 was nearly eliminated even in the presence of ascorbate to promote metal-catalyzed lipid peroxidation, although a marked increase in TBARS content was observed in the LDL-lipid micelles with FeSO4, and with FeCl3 in the presence of ascorbate.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of lipoprotein-copper complex in copper catalyzed-peroxidation of low-density lipoprotein. 153 73

The internal mammary artery (IMA) is the graft of choice for coronary artery bypass surgery because of its resistance to atherosclerosis. Studies to elucidate the mechanism of this phenomenon have focused on vasoactive properties of the vessel wall; however, low thrombogenicity might also contribute to the protection of the IMA against atherosclerosis. To test this hypothesis, copper coils 3 mm long were introduced in 14 heparinized dogs into both the IMA and the left anterior descending coronary artery (LAD) (n = 7) or into both the IMA and the popliteal artery (POP) (n = 7). Arterial patency was monitored angiographically at 15-minute intervals for 4 hours. Occlusion occurred in all LADs and POPs and in 10 of the 14 IMAs. Spontaneous reflow after occlusion occurred in all IMAs and was followed by cyclic reocclusion and reflow in two animals. Short periods of reflow followed by reocclusion occurred in two of the seven LADs and three of the seven POPs. The patency status, categorized as persistent occlusion, reflow followed by reocclusion, reflow without reocclusion, or persistent patency, was significantly different between IMA and LAD (p less than 0.02) and between IMA and POP (p less than 0.04) but not between LAD and POP. Patent arteries at the end of the 4-hour period were observed in all of the 14 IMAs versus none of the seven LADs and two of the seven POPs (p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparative copper coil-induced thrombogenicity of the internal mammary, left anterior descending coronary, and popliteal arteries in dogs. 157 25

The effects of oxidized human plasma low density lipoproteins (Ox-LDL) on the proliferation of cultured aortic smooth muscle cells was studied, employing viable cell counting, [3H] thymidine incorporation into DNA, and the release of lactate dehydrogenase (LDH) into the medium. Oxidized LDL (prepared by incubation of LDL with copper sulfate) exerted a concentration-dependent stimulation (2 fold, compared to control) of aortic smooth muscle cell proliferation at low concentrations (0.1 micrograms-10 micrograms/ml medium). On the other hand, at high concentrations (25-200 micrograms/ml), Ox-LDL produced a pronounced decrease in viable cells, a decrease in the incorporation of [3H] thymidine into DNA, and an increase in the release of LDH in the medium. In this report, the previously postulated biological roles of oxidized-LDL in atherosclerosis are discussed in view of these findings.
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PMID:Role of oxidized human plasma low density lipoproteins in atherosclerosis: effects on smooth muscle cell proliferation. 158 38

Oxidative modification of low density lipoproteins (LDL) has been implicated in the sequence of events leading to fatty streak formation in the arterial intima. Increased oxidative modifications of dense versus buoyant LDL particles could contribute to increased atherosclerosis associated with lipoprotein profiles enriched in small, dense LDL. In the present studies, we compared rates of copper-induced oxidative changes for six LDL subfractions ranging in density from 1.023 to 1.053 g/ml and mean particle diameter from 282 +/- 10 to 245 +/- 3. Rates of formation of thiobarbituric acid-reactive substances (TBARS), as indicated by the time required for half-maximal TBARS formation (T1/2max), decreased with increasing density and decreasing particle diameter to a minimum in fraction 5 (d = 1.046 g/ml, diameter = 250 +/- 5) (P = 0.007). In parallel studies using unfractionated LDL (d = 1.019-1.063 g/ml), T1/2max values were inversely correlated with the predominant LDL species diameter as determined by 2-16% gradient gel electrophoresis (P less than 0.05), consistent with the involvement of subclass composition in determining oxidative behavior. In separate experiments, subfraction differences in oxidation rates as assessed by TBARS formation were verified by the finding of similarly dispartate changes in fluorescence intensity and anionic electrophoretic mobility. T1/2max values were not related to LDL contents of alpha-tocopherol, beta-carotene, protein, triglycerides or phospholipids, but were significantly correlated with unesterified cholesterol content (r = 0.46; P less than 0.001) and were inversely associated with cholesteryl ester content (r = 0.28; P less than 0.05). The positive association of T1/2max with unesterified cholesterol suggests that this constituent may impart resistance to oxidative modification, possibly by altering properties of the surface monolayer where it resides.
Atherosclerosis 1992 Apr
PMID:Variations in oxidative susceptibility among six low density lipoprotein subfractions of differing density and particle size. 159 Aug 24

Increased incidence of atherosclerosis has been noted in hypertension, but prevention of ischemic heart disease has not been achieved. We studied the propensity to oxidation of LDL obtained from 15 nonsmoking hypertensives (mean age 51 +/- 10) before drug therapy, and compared the results with those of LDL obtained from a similar group of normotensive controls. After oxidation with copper ions (10 microM) there was substantially increased oxidation of LDL derived from the hypertensives in comparison to that of the controls. The mean values (nmol/mg protein +/- SD; n = 15) were: malondialdehyde 55 +/- 11, peroxides 224 +/- 52, and conjugated dienes 250 +/- 56, compared to values of 26 +/- 5, 123 +/- 31 and 175 +/- 44, respectively, in the control group (p less than 0.01). It is concluded that the increased propensity of LDL to oxidation in hypertension may be the link to atherosclerosis.
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PMID:[Increased propensity to oxidation of LDL of hypertensives]. 159 95

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