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)

Effect of drugs, which are able to elevate the intracellular level of cAMP, on resistance of human umbilical vein endothelial cells (HUVEC) to cholestane-3 beta,5 alpha, 6 beta-triol (Triol)-induced injury was studied. Triol at a concentration of 62 microM caused death of 50% of cells after a 24 hour incubation. Addition of forskolin (10 microM), methylisobutylxantine (100 microM), or 8-Br-cAMP (100 microM) into the incubation medium prevented injury of HUVEC under these conditions. These findings indicate that endothelial resistance to the injury can be regulated by the adenylate cyclase system. A comparative study on Triol-induced injury of adult human aortic endothelial cells isolated separately from zones of low (LP) and high (HP) probability of atherosclerosis was also performed. In 7 cases endothelial cells isolated from the LP zones were more resistant to Triol-induced injury, in 2 cases the differences were not significant. The development of atherosclerotic lesion in HP zones is likely to be associated with a higher sensitivity of endothelial cells from these zones to different injuring agents.
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PMID:[Damage to human endothelial cells by cholestane-3 beta,5 alpha,6 beta-triol and the protective effects of preparations that raise the intracellular level of cAMP]. 137 89

To understand further the antiatherogenic mechanism of probucol, the antioxidant effect of this agent was studied on specific cholesterol oxidation products in plasma and aortic wall in equally hypercholesterolemic New Zealand white rabbits. In order to maintain equal plasma total cholesterol levels, five control rabbits (C group) received a 1% followed by a 0.5% cholesterol enriched diet, while the probucol treated rabbits (C+P group) received a graded increase in the cholesterol supplemented diet from 1% to 3%; probucol supplementation was constant at 1%. After 9 weeks of feeding, the plasma oxysterols, cholest-5-ene-3 beta,7 alpha-diol, cholest-5-ene-3 beta,7 beta-diol, 5,6 beta-epoxy-5 alpha-cholestan-3 beta-ol, 5,6 alpha-epoxy-5 alpha-cholestan-3 alpha-ol and 5 alpha-cholestane-3 beta,5,6 beta-triol significantly increased over baseline levels in both experimental groups. However, the increase in all these products in plasma was 20-60% less in the C+P group than the C group (P < 0.05). Furthermore, the C+P aortic wall cholesterol oxide concentrations were 50-90% less than the C group (P < 0.05). The oxysterol pattern of the aortic wall was similar to plasma. Additionally, the aortic wall cholesterol content in the C+P group was 50% less than the C group (P < 0.05). The plasma cholesterol levels were not significantly different at any time point during the study and the cholesterol oxide content in the diets was the same. These results are consistent with the contention that the antioxidant properties of probucol serve as the basis for its antiatherogenic effects in vivo.
Atherosclerosis 1992 Oct
PMID:Probucol reduces plasma and aortic wall oxysterol levels in cholesterol fed rabbits independently of its plasma cholesterol lowering effect. 146 46

Cholesterol is converted to cholic acid and chenodeoxycholic acid by a series of reactions involving modifications to the steroid nucleus and oxidation of the side chain. These reactions can be affected by a number of inborn errors of metabolism. When this happens unusual bile acids or bile alcohols are synthesized; these can be identified using gas chromatography-mass spectrometry and fast atom bombardment mass spectrometry techniques. Two defects affecting the modifications to the steroid nucleus have been described; both present with cholestatic liver disease of neonatal onset. The better characterized of the two--3 beta-hydroxy-delta 5-C27-steroid dehydrogenase deficiency--leads to excretion of 3 beta-7 alpha-dihydroxy-5-cholenoic acid and 3 beta,7 alpha,12 alpha-trihydroxy-5-cholenoic acid in the urine. The liver disease improves dramatically on treatment with chenodeoxycholic acid. Deficient activity of 3-oxo-delta 4-steroid 5 beta-reductase is thought to be the cause of familial liver disease in some infants who excrete 7 alpha-hydroxy-3-oxo-4-cholenoic acid and 7 alpha,12 alpha-dihydroxy-3-oxo-4-cholenoic acid in the urine. However, diagnosis of this disorder is problematical; a similar pattern of metabolite excretion can occur as a result of liver damage caused by viruses or inborn errors of pathways unrelated to bile acid synthesis. Defective side chain oxidation in patients with cerebrotendinous xanthomatosis (CTX) leads to synthesis of bile alcohols such as 5 beta-cholestane-3 alpha,7 alpha,12 alpha,25-tetrol and 5 beta-cholestane-3 alpha,7 alpha,12 alpha,23,25-pentol. Patients with CTX do not have cholestatic liver disease. Their major problems (neurological disease, atherosclerosis and xanthomata) are caused by accumulation of cholestanol and cholesterol in the tissues. Bile acid precursors are probably diverted into synthesis of cholestanol. Chenodeoxycholic acid suppresses the production of abnormal metabolites from cholesterol (by inhibition of cholesterol 7 alpha-hydroxylase) and leads to improvement in the neurological disease. Defective side chain oxidation also occurs in peroxisomal disorders but this time it leads to accumulation of C27 bile acids such as 3 alpha,7 alpha,12 alpha-trihydroxy-5 beta-cholestanoic acid (trihydroxycoprostanic acid, THCA). This compound is readily detected in the bile and plasma of patients with defects of peroxisome biogenesis. In patients with defects of a single peroxisomal beta-oxidation enzyme (the 3-hydroxyacyl-CoA component of the bifunctional protein or the thiolase), the major C27 bile acid in bile may be 3 alpha,7 alpha,12 alpha,24-tetrahydroxy-5 beta-cholestanoic acid (varanic acid).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Inborn errors of bile acid metabolism. 174 14

To determine the relationship between plasma and arterial wall oxysterols, plasma and aortic tissue from 7 New Zealand White rabbits fed a high cholesterol (1%) diet for 6 weeks was compared to plasma and aortic tissue from 7 normocholesterolemic rabbits fed standard rabbit chow. Cholesterol and cholesterol oxide fractions were isolated and analyzed by gas chromatography. Normocholesterolemic plasma and aortic tissue contained low levels of cholest-5-ene-3 beta, 7 alpha-diol, cholesta-3,5-dien-7-one, 5,6 alpha-epoxy-5 alpha-cholestan-3 alpha-ol, cholest-5-ene-3 beta, 7 beta-diol, and 5 alpha-cholestane-3 beta, 5,6 beta-triol while hypercholesterolemic plasma and atherosclerotic aorta contained significantly higher levels (P less than 0.05) of these products. Furthermore, 5,6 beta-epoxy-5 alpha-cholestan-3 beta-ol not found in normocholesterolemic plasma or aortic tissue was present in substantial amounts in both hypercholesterolemic plasma and atherosclerotic aortic tissue. Cholest-5-ene-3 beta,25-diol and 3 beta-hydroxycholest-5-ene-7- one not present in normocholesterolemic aorta were present in the atherosclerotic aorta. The oxysterol chromatographic patterns of normocholesterolemic plasma and normocholesterolemic aortic tissue were similar to each other as were the oxysterol chromatographic patterns of hypercholesterolemic plasma and atherosclerotic aortic tissue. The chromatographic patterns between the normocholesterolemic and hypercholesterolemic samples differed however. Possible absorption of the low levels of cholesterol oxides present in the cholesterol feed could account for the elevation of only some of the oxysterols. We conclude that cholesterol oxides exist at some basal level in normocholesterolemia and that these levels are increased by cholesterol-feeding which results in hypercholesterolemia. Our findings demonstrate that there is a strong relationship between plasma and aortic arterial wall levels of cholesterol oxides and suggest that in addition to exogenous sources, formation of cholesterol oxides proceeds via free radical oxidation acting upon elevated cholesterol levels resulting in the accumulation of these potentially cytotoxic and atherogenic products.
Atherosclerosis 1991 Aug
PMID:Cholesterol feeding increases plasma and aortic tissue cholesterol oxide levels in parallel: further evidence for the role of cholesterol oxidation in atherosclerosis. 179 39

Cholesterol in the diet can readily autoxidize and be absorbed and transported in plasma lipoproteins. Cholesterol oxides can also be endogenously produced in tissues via free-radical-induced reactions. Some cholesterol oxides, notably cholestane-3 beta, 5 alpha, 6 beta-triol and 25-hydroxycholesterol, have been shown to cause injury to vascular endothelial and smooth muscle cells, to alter LDL receptor function, to enhance cholesteryl ester accumulation, to inhibit prostacyclin production, and to induce experimental atherosclerosis alone or in combination with cholesterol. An epidemiological study examining relationships between atherosclerosis and plasma levels of cholesterol oxides as independent risk factors may provide additional insights regarding the roles of cholesterol oxides in atherogenesis.
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PMID:Angiotoxicity and atherogenicity of cholesterol oxides. 202 60

Cell necrosis and reactive cellular processes in and near the atherosclerotic core region might result from short-range interactions with toxic lipids. To model these interactions in cell culture, focal crystalline deposits of cholestane-3 beta,5 alpha,6 beta-triol, 25-OH cholesterol, and cholesterol were overlaid by a collagen gel, on which canine aortic smooth muscle cells were seeded. Oxysterols, but not cholesterol, caused focally decreased plating efficiency and cell death, leading to the formation of a persistent circular gap in the cell culture. Cholestanetriol was largely removed from the culture dishes over 3 to 4 weeks, whereas cholesterol and 25-OH cholesterol were largely retained. Smooth muscle cells were motile even in proximity to oxysterol crystals, with occasional suicidal migration toward the crystals. Chemoattraction, however, could not be demonstrated. Despite toxicity, cholestanetriol did not appear to alter the fraction of cells exhibiting 3H-thymidine uptake, even in areas close to the crystals. Thus, oxysterols may be toxic to some cells, without causing major impairment of the migration and proliferation of nearby cells. This would allow the simultaneous occurrence of cell death and proliferation evident in atherosclerosis.
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PMID:Focal toxicity of oxysterols in vascular smooth muscle cell culture. A model of the atherosclerotic core region. 220 Dec

The effects of 5 micrograms/ml of 25-hydroxycholesterol; cholestane-3 beta,5 alpha,6 beta-triol; and cholesterol on acyl CoA cholesterol acyltransferase, acid cholesteryl ester hydrolase and neutral cholesteryl ester hydrolase was studied in cultured rabbit aortic smooth muscle cells. After 1 hour incubation, 25-hydroxycholesterol resulted in a fourfold stimulation of acyl CoA cholesterol acyltransferase activity. No stimulation by 25-hydroxycholesterol was noted before 15 minutes or after 5 hours of incubation. Neither cholestane-3 beta,5 alpha,6 beta-triol nor cholesterol influenced acyl CoA cholesterol acyltransferase activity at any time interval. No significant effects of any of the sterols were noted on acid cholesteryl ester hydrolase or neutral cholesteryl ester hydrolase activity. The imbalance between acyl CoA cholesterol acyl transferase and hydrolase activities induced by 25-hydroxycholesterol could result in cholesteryl ester accumulation by arterial smooth muscle cells, which may be associated with atherosclerosis.
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PMID:Effects of cholesterol oxidation derivatives on cholesterol esterifying and cholesteryl ester hydrolytic enzyme activity of cultured rabbit aortic smooth muscle cells. 276 54

Radiolabeled pure [4-14C]cholesterol was kept at 60 degrees C under air to autoxidize for 5 weeks, after which approximately 12% cholesterol oxidation products were formed. The mixture, suspended in gelatin, was given to rabbits by gastric gavage. Rabbits were killed 4, 24, and 48 h after treatment. Cholesterol and its autoxidation products were separated by thin-layer chromatography into 5 fractions and radioactivities of each fraction were measured. Percentages of each fraction of cholesterol oxidation products and cholesterol in the original mixture before administration and in the rabbit sera after administration were similar, suggesting that the rates of absorption of cholesterol oxidation products are not significantly different from that of cholesterol. Lipoproteins were fractionated by ultracentrifugation into VLDL, LDL and HDL. Radioactivities of each fraction in lipoproteins separated by thin layer chromatography showed that fractions containing cholestane-3 beta,5 alpha,6 beta-triol, 7 alpha- and 7 beta-hydroxycholesterol and 7-ketocholesterol were more selectively transported in VLDL, whereas most of the 25-hydroxycholesterol was present in LDL. HDL contained only minute amounts of cholesterol oxidation products.
Atherosclerosis 1987 Mar
PMID:Transport of cholesterol autoxidation products in rabbit lipoproteins. 359 58

Cholestane-3 beta,5 alpha,6 beta-triol, administered orally to rats in different doses and for varying lengths of times, effected toxic cell damage on aortic smooth muscle cells and endothelium. Cholesterol, applied in the same doses, did not lead to appreciable alterations of the aorta. After parenteral application of lipids with simultaneous administration of cholestane-triol there were no demonstrable fat deposits in the damaged aortic wall with angiotensin II (AII) induced hypertension. Thus, there was no recognizable influence of hypertension on increased fat passage in the arterial wall, or any action of lipids to enhance the permeability of vessels. However, the hypertension had an exacerbating effect in so far as in animals with AII-induced blood pressure rise alterations of the media were more pronounced after cholestane-triol, although we were unable to rule out a primary effect of AII. A potentiation of the cholestane-triol action by simultaneous application of cholesterol demonstrated for the rabbit did not occur in rats. Blood content was lowered mostly by cholestane-triol, also by cholesterol. HDL-cholesterol was little affected; almost no influence was observed in triglycerides. The strong cytotoxic action of cholestane-triol underlines its health-damaging role. Due to its action on the aorta of the rat, despite the animal's resistance to arteriosclerosis, involvement of this cholesterol derivative in the pathogenesis of arteriosclerotic alterations can not be excluded.
Atherosclerosis 1987 Feb
PMID:Action of cholestane-3 beta,5 alpha,6 beta-triol on rats with particular reference to the aorta. 382 76

Three groups of New Zealand male while rabbits were given either 2.5 mg/kg of 25-hydroxycholesterol, cholestane-3 beta, 5 alpha, 6 beta-triol or vehicle only, intravenously. 24 h after treatment, the luminal surfaces of aortae of rabbits receiving 25-hydroxycholesterol were examined by scanning electron microscopy (SEM) and showed numerous balloon-like protrusions and crater-like defects as well as circulating, formed elements adhering on the luminal surface. The luminal surface of aortae of rabbits given cholestane-3 beta, 5 alpha, 6 beta-triol had similar but more frequent lesions when compared with those of the 25-hydroxycholesterol group. Microthrombi were occasionally found. The aortae of the control group had significantly fewer lesions. Transmission electron-microscopic studies showed intracytoplasmic vacuoles and diffuse subendothelial edema in the aortae of the two groups receiving the oxidation derivatives of cholesterol. The balloon-like protrusions and crater-like defects observed by SEM appeared to represent the initial sterol-induced endothelial cell injury. Repeated episodes of arterial injury followed by thrombus formation could eventually lead to atherosclerosis.
Atherosclerosis 1985 Feb
PMID:Cholesterol oxidation derivatives and arterial endothelial damage. 398 12

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