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)

The protein moiety of lipoprotein (a) consists of apoB-100 and apolipoprotein (a). Lipoprotein (a) is an independent risk factor for premature atherosclerosis. Apolipoprotein (a) and plasminogen are structurally homologous. Through interference with the fibrinolytic system, lipoprotein (a) may act as a thrombogenic factor. In the present study, we determined lipoprotein (a) concentrations in 84 patients (60 men and 24 women) with retinal vascular occlusion (RVO) and in 2 groups of healthy volunteers (n = 40 and 46). In all, 29% of the patients had Lp (a) levels of above 300 mg/l. In the two reference groups, only 10% and 9% of the subjects exceeded this level. According to the chi-square test, the association between Lp (a) levels and RVO was significant. Lp (a) concentrations did not differ between patients with arterial occlusion and those with venous occlusion. No difference in the total cholesterol, triglyceride, or LDL-cholesterol values was observed between patients and controls. We therefore conclude that Lp (a) represents an independent risk factor for RVO.
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PMID:Lipoprotein (a): a risk factor for retinal vascular occlusion. 147 37

Increased plasma levels of the apoB-100-containing lipoprotein(a) (Lp(a)) are associated with an increased risk for atherosclerosis and myocardial infarction, but the mechanisms by which lipoprotein(a) may accelerate these processes remain obscure. In this study we have investigated the impact of the association of apoprotein(a) with the low density lipoprotein (LDL)-like Lp(a) particle upon specificity of receptor recognition after lipoprotein modification by malondialdehyde or transition metal-induced oxidation. We have determined that radioiodination labels both apoprotein components of Lp(a), that malondialdehyde modification produces an anionic lipoprotein comparable to native Lp(a) in Stokes' radius, and that N,N'-disubstituted 1-amino-3-iminopropene derivatives preferentially cross-link apoprotein(a) to apoB-100 protein. Like LDL, native Lp(a) is recognized in human monocyte-macrophages by the LDL receptor. Like LDL, progressive modification of Lp(a) by malondialdehyde abolishes lipoprotein recognition by the LDL receptor and produces uptake and hydrolysis by the scavenger receptor of human monocyte-macrophages. We propose that intimal retention of Lp(a) by extracellular components of the atherosclerotic reaction places the lipoprotein in a microenvironment favoring subsequent peroxidative modification. The chronic production of lipid peroxide-modified Lp(a) together with unmitigated cellular clearance by scavenger receptors may contribute to the accumulation of lipoprotein-derived lipid in macrophage-derived foam cells of the atherosclerotic reaction.
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PMID:Malondialdehyde modification of lipoprotein(a) produces avid uptake by human monocyte-macrophages. 153 81

Familial defective apolipoprotein B100 (FDB) is a recently identified dominantly inherited genetic disorder, which is characterized by a decreased affinity of low density lipoprotein (LDL) for the LDL receptor. FDB is caused by a G to A mutation at nucleotide 10 708 in exon 26 of the apo B gene creating a substitution of glutamine for arginine in the codon for amino acid 3500. To determine the consequences of the arginine(3500)----glutamine mutation on plasma lipid levels and other clinical features, we have investigated 54 FDB heterozygotes from Germany (24 men, 30 women, mean age 37.2 (4-73) years). The average total cholesterol level in plasma was 308 mg/dl (average LDL-cholesterol 242 mg/dl), which was 116 mg/dl (120 mg/dl) above the 50th percentile of the age and sex-matched controls reported in the LRC population studies (Lipid Research Clinics' Program 1980). Tendon xanthoma and arcus lipoides were present in 25.9% and 22.2% of the patients, respectively. Plaques in the carotid arteries, determined by duplex scanning, were present in 38.9%, and coronary artery disease was present in 22.2%. This study shows that the combination of tendon xanthoma, arcus lipoides and premature atherosclerosis is no longer totally appropriate for the diagnosis of familial hypercholesterolemia (FH). It rather seems that these features are characteristic of a defective LDL receptor pathway, which could be caused by a defective LDL receptor or a defective ligand apo B100. The distinction between FH and FDB may have therapeutic implications, because certain lipid lowering drugs act by stimulation of the LDL receptor, which has a normal function in FDB.
Atherosclerosis 1992 Feb
PMID:Familial defective apolipoprotein B100: clinical characteristics of 54 cases. 163 51

Two proteins that may be important in the hypercholesterolemia and atherosclerosis produced by dietary fat and/or cholesterol are apoB and the LDL-receptor. We evaluated the molecular and genetic regulation of these two proteins by two important components of atherogenic diets: dietary fatty acids and dietary cholesterol. The control diet (C) contained 5% corn oil; the high cholesterol (HC) diets, 5% corn oil plus 0.5% or 2% cholesterol; the high fat diet (HF) 1% corn oil and 20% hydrogenated coconut oil; the fat plus cholesterol diets (HF/C) were the same as HF diet plus either 0.5% or 2% cholesterol. Ten strains of inbred mice were fed the C and HF/C (2% cholesterol) diets. Three strains; C3H, C57BL and SWR, were studied in greater detail. In them the effects of dietary fat and cholesterol were assessed separately and together. These three strains were fed all six diets. Lipoprotein profiles of plasma and indexes of lipoprotein composition were obtained by gel filtration chromatography and in selected strains by gradient ultracentrifugation. Relative rates of transcription of LDL-receptor mRNA and apoB mRNA were measured in purified mouse liver nuclei and levels of LDL-receptor mRNA and apoB mRNA in liver and intestine were quantified by RNA excess solution hybridization assays. The HF/C diet produced rises in plasma total-, VLDL- and LDL-cholesterol and apoB concentrations in the ten strains. VLDL and LDL became cholesterol-enriched and the proportion of total cholesterol transported in VLDL and LDL rose at the expense of HDL. This general pattern of HF/C diet-induced changes was similar in all strains, but there were marked quantitative differences between strains with respect to lipid and lipoprotein concentrations, and compositions and the distribution of cholesterol on both the HC and HF/C diets. The strain-related differences were not due to differences in absorption of dietary cholesterol because, for any given diet, hepatic cholesterol levels increased to the same extent in all strains. Nor were the strain-related differences related to alleles of the apoB gene as determined by RFLP analyses. In the three strains, hepatic LDL-receptor mRNA transcription was suppressed by all diets. But, LDL-receptor mRNA levels in both intestine and liver were suppressed only by the HC and HF/C diets and not by the HF diet. Thus, dietary cholesterol decreased LDL-receptor mRNA levels by mechanisms operating at the transcriptional level, while dietary fatty acids, in addition to inhibiting transcription also appeared to enhance mRNA stability.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In vivo regulation of low-density lipoprotein receptor and apolipoprotein B gene expressions by dietary fat and cholesterol in inbred strains of mice. 168 57

Changes in low density lipoprotein (LDL) lipid composition were shown to alter its interaction with the LDL receptor, thus affecting its cellular uptake. Upon incubation of LDL with 5 units/ml cholesterol esterase (CEase) for 1 h at 37 degrees C, there was a 33% reduction in lipoprotein cholesteryl ester content, paralleled by an increment in its unesterified cholesterol. CEase-LDL, in comparison to native LDL, was smaller in size, possessed fewer free lysine amino groups (by 14%), and demonstrated reduced binding to heparin (by 83%) and reduced immunoreactivity against monoclonal antibodies directed toward epitopes along the LDL apoB-100. Incubation of CEase-LDL with the J-774 macrophage-like cell line resulted in about a 30% reduction in lipoprotein binding and degradation in comparison to native LDL, and this was associated with a 20% reduction in macrophage cholesterol mass. Similarly, CEase-LDL degradation by mouse peritoneal macrophages, human monocyte-derived macrophages, and human skin fibroblasts was reduced by 20-44% in comparison to native LDL. CEase-LDL uptake by macrophages was mediated via the LDL receptor and not the scavenger receptor. CEase activity toward LDL was demonstrated in plasma and in cells of the arterial wall such as macrophages and endothelial cells. Thus, CEase modification of LDL may take place in vivo, and this phenomenon may have a role in atherosclerosis.
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PMID:Reduced uptake of cholesterol esterase-modified low density lipoprotein by macrophages. 171 Oct 36

The relationship of apolipoprotein-B genotype (Lpb) to diet-induced hypercholesterolemia and atherosclerosis was studied in von Willebrand disease (vWD) and normal pigs. Von Willebrand and normal pigs developed comparable levels of hypercholesterolemia (respectively, 757.9 +/- 49.4 versus 772.8 +/- 47.9 mg/dl, P = 0.95). Pigs with Lpb1/5 and Lpb5/8 genotypes, however, developed significantly higher serum cholesterol levels than those with other Lpb genotypes (866.1 +/- 64.0 mg/dl, P = 0.0343). Coronary and aortic atherosclerosis, measured by computer-assisted automated image analyzer, were not significantly different between vWD and normal pigs. Pigs with an Lpb5 allele developed significantly more atherosclerosis than those with the Lpb3/8 or Lpb8/8 genotypes or the rare Lpb1 allele (r greater than or equal to 0.434, P less than or equal to 0.05). Polymorphism in apolipoprotein B100 genotype, then, significantly influenced the severity of diet-induced hypercholesterolemia and atherosclerotic plaque formation in vWD and normal swine without regard to the vWD genotype.
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PMID:Porcine von Willebrand disease and atherosclerosis. Influence of polymorphism in apolipoprotein B100 genotype. 173 33

The protein moiety of lipoprotein (a) consists of apoB-100 and apolipoprotein (a). Lipoprotein (a) is an independent risk factor for premature atherosclerosis. Apolipoprotein (a) and plasminogen are structurally homologous. Through interference with the fibrinolytic system, lipoprotein (a) may act as a thrombogenic factor. Therefore, we have determined apolipoprotein (a) in 203 patients with venous thrombosis and/or embolism below the age of 45 years and in 115 healthy volunteers. The frequency distribution of apolipoprotein (a) in thrombosis patients resembled that in the reference group. It is concluded that there is no clinically relevant association between apolipoprotein (a) concentrations and the risk of venous thrombosis in young subjects.
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PMID:Apolipoprotein (a) concentrations are not related to the risk of venous thrombosis. 178 31

Levels of Lipoprotein(a) [Lp(a)] correlate directly with atherosclerosis risk. The Lp(a) particle is physically and chemically similar to low density lipoprotein (LDL), the main difference being the presence of apolipoprotein(a) [apo(a)] bonded to the apoB-100 moiety of LDL. Genetic variation of apo(a) primarily determines Lp(a) phenotype. However, other genetic factors may also have a role in determining Lp(a) levels. Large families provide a unique opportunity to evaluate the contribution of genetic factors to disease. In several large Utah kindreds with various genetic abnormalities of lipoprotein metabolism we determined that: 1) Lp(a) levels are associated with defects at the apoB gene; 2) Lp(a) levels are not associated with defects at the LDL-receptor gene; 3) high density lipoprotein (HDL) levels are associated with genetic variation at the apo(a) locus; and 4) the DNA sequence of the apoB-100 binding domain does not vary between siblings with high and low Lp(a) levels.
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PMID:The effect of genetic determinants of low density lipoprotein levels on lipoprotein (a). 182 2

Apolipoprotein B (apoB), an apolipoprotein associated with very low density lipoproteins and the atherogenic low density lipoproteins (LDL), directs the metabolism of lipoprotein particles in plasma by interacting with the LDL receptor. Utilizing human intestinal biopsy organ cultures, we have studied the synthesis of intestinal apoB in man. Intestinal organ cultures from normal adults (n = 6) were incubated in the presence of protease inhibitors in media supplemented with [35S]methionine. Media from these cultures were evaluated by sequential NaDodSO4 polyacrylamide gel electrophoresis, radioautography, and Western blot analyses, and intestinal biopsies were studied using immunohistochemistry. The relative abundance of apoB-100 and apoB-48 mRNA was assessed using reverse transcriptase-polymerase chain reaction followed by primer extension. Although apoB-48 was the principal isoprotein that was newly synthesized by intestinal organ cultures, apoB-100 was also synthesized and secreted by human intestinal organ cultures with 16 +/- 3% of the intestinal apoB mRNA coding for apoB-100. These results establish that apoB-100 is produced by the human intestine. The synthesis of the atherogenic apoB-100 by the intestine has pathophysiologic implications for the development of diet-induced atherosclerosis.
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PMID:Both apolipoproteins B-48 and B-100 are synthesized and secreted by the human intestine. 207 1

Ordinarily, HDL1, a fraction of HDL enriched in apoE, is a minor fraction of plasma, but in human subjects and experimental animals eating diets high in fat and cholesterol and in patients with homozygous familial hypercholesterolemia (HFH) or CETP deficiency, HDL1 (or HDLc) concentrations in plasma are increased. However, little is known about the structures, compositions and metabolic sources of HDL1 in HFH patients. To obtain HDL1 for the study, we surveyed several fractions in the HDL density range for apoE by SDS-PAGE. The ratio of apoE to apoAI in the HDL (d = 1.063-1.21 g/ml) of 8 HFH patients was 0.14 +/- 0.03 compared to 0.03 +/- 0.005 in a control group of 8 normolipidemic subjects (P less than 0.001) suggesting that an apoE-rich fraction indeed was present in increased amounts. ApoE/apoAI ratios of lipoproteins of the density range 1.050-1.090 were even higher at 1.5 and 2.0 in 2 patients compared to 0.4 +/- 0.1 in controls, indicating that this density fraction may be particularly enriched with apoE-rich lipoproteins. By contrast, d = 1.020-1.050 g/ml and d greater than 1.090 fractions contained very little apoE. Therefore, we further characterized the d = 1.050-1.090 g/ml lipoproteins of HFH patients and controls. Fractionation of an d = 1.050-1.090 fraction by concanavalin-A chromatography (CONA) yielded an unbound apoE-rich fraction that contained apoE, apoAI and apoC but no apoB, and a bound LDL-like fraction that contained mostly apoB-100, as determined by SDS-PAGE and by solid phase immunoassays, containing monoclonal antibodies directed against apoB, apoE and apoAI. The apoE/apoAI ratio of the CONA unbound fraction of HFH patients was greater, and the fraction also contained more free cholesterol and phospholipids than the fraction of control subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
Atherosclerosis 1990 Oct
PMID:Apolipoprotein E-rich HDL in patients with homozygous familial hypercholesterolemia. 212 36

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