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)

Epidemiological studies have identified elevated low density lipoprotein (LDL) and diminished high density lipoprotein (HDL) cholesterol levels as risk factors for coronary artery disease. The major protein component of HDL is apoprotein A-I (apo A-I), a polypeptide of 243 amino acids of known primary amino acid sequence. This apoprotein serves as a cofactor for the plasma lecithin-cholesterol acyltransferase (LCAT) enzyme responsible for the formation of most cholesteryl esters in plasma, and also promotes cholesterol efflux from cells. The primary translation product of apo A-I contains both a pre and a pro segment, and post-translational processing of apo A-I may be involved in the formation of the functional plasma apo A-I isoproteins. Defective apo A-I processing may be the underlying problem in Tangier disease, in which patients have low plasma HDL and apo A-I levels despite normal apo A-I synthesis. Patients have been reported with conditions distinct from Tangier disease in whom severe deficiency or absence of apo A-I has been associated with very low HDL levels and severe coronary artery disease. We have now examined the apo A-I gene in two such patients and their first degree relatives. These patients have been reported to have skin and tendon xanthomas, corneal clouding and severe premature coronary atherosclerosis associated with very low HDL levels and deficiencies of two apoproteins, apo A-I and apo C-III. We show that both probands are homozygous for a defect in the apo A-I gene locus.
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PMID:An inherited polymorphism in the human apolipoprotein A-I gene locus related to the development of atherosclerosis. 640 11

A 62-year-old man with clinical and biochemical findings consistent with homozygous Tangier disease is presented. Widespread atherosclerosis was present. Bile lipid analysis showed a low molar percentage of cholesterol with a low saturation index. The data suggest that high density lipoprotein cholesterol may act as a preferential precursor of biliary cholesterol. Coagulation and platelet studies indicated that the patient's platelets were hyper-responsive to aggregating agents and produced an increased amount of thromboxane B2. A platelet storage pool deficiency was also found.
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PMID:Bile lipid composition and haemostatic variables in a case of high density lipoprotein deficiency (Tangier disease). 642 98

This review assesses current knowledge of the clinical, genetic, and biochemical features of familial high density lipoprotein (HDL) deficiency syndromes. The focus is on HDL deficiency states occurring in the absence of severe hypertriglyceridemia or lecithin/cholesterol acyltransferase deficiency. Specific entities falling within this category include Tangier disease, familial HDL deficiency with planar xanthomas, familial apolipoprotein A-I and C-III deficiency (formerly known as apolipoprotein A-I absence), familial deficiency of apolipoprotein A-I and C-III, fish-eye disease, familial hypoalphalipoproteinemia, and apolipoprotein A-I variants (apo A-I Milano, apo A-I Marburg, apo A-I Giessen, and apo A-I Munster 1-3). Diffuse corneal opacification and premature coronary artery disease are common features in many of these kindreds. No striking clinical abnormalities have been noted in patients with currently known apolipoprotein A-I variants, possibly because these subjects are heterozygotes for their respective defects. The HDL deficiency in many of these disorders has been associated with abnormalities or deficiencies of apolipoprotein A-I. Further research will undoubtedly define the defects in all the disorders that have been described, uncover new mutations, as well as provide additional insights into the precise relationship between HDL deficiency and atherosclerosis.
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PMID:Clinical, biochemical, and genetic features in familial disorders of high density lipoprotein deficiency. 643 53

We report here a peculiar case with premature corneal opacity and extremely high levels of HDL cholesterol in serum. The patient is a 54-year-old man who was first noticed to have marked corneal opacities at age 19. His serum HDL cholesterol level was elevated to the level of 135-160 mg/dl, while total serum cholesterol and triglyceride concentrations were 254 mg/dl and 56 mg/dl, respectively. Serum apoprotein A-I and E levels analyzed by single radial immunodiffusion method were elevated in the case. Serum lipoprotein fractions isolated by preparative ultracentrifugation revealed that increased levels of HDL cholesterol were accounted for solely by the HDL2 fraction. HDL2 of the patient contained relatively higher amounts of apoprotein E than normal control HDL2. Elution profiles of lipoproteins in high performance liquid chromatography revealed that HDL2 particles from the patient were larger in size than those from normal controls. These characteristics of HDL are in part similar to those of HDLC which appears in experimental animals after cholesterol feeding. Such abnormalities in HDL2 fractions associated with premature corneal opacity have not been reported so far and appear to constitute a new disease entity.
Atherosclerosis 1984 Nov
PMID:Marked hyper-HDL2-cholesterolemia associated with premature corneal opacity. A case report. 651 75

Two siblings with marked reduction of plasma high density lipoprotein (HDL) were found in a Japanese family. Their plasma cholesterol levels were very low (30-60 mg/dl), especially in the HDL fraction (0-1 mg/dl). The concentration of apolipoprotein (Apo) A-I in their plasma was 2-3 mg/dl and that of Apo A-II was 1.5-2.0 mg/dl, determined by means of a single radial immunodiffusion technique. An ultracentrifugally separated HDL fraction contained two different populations of lipoprotein particles, as shown by electron microscopy; a small particle with a diameter of 50-70 A and a relatively large particle at 200 A. Plasma lecithin: cholesterol acyltransferase activity was substantially retained in both cases. Hepatosplenomegaly was present and liver biopsy revealed lipid deposition in reticuloendothelial cells, although the tonsils were apparently normal. No severe atherosclerotic lesions were noticed. The results from these two cases were consistent with the characteristic features of homozygotes of familial HDL deficiency (Tangier disease). HDL cholesterol levels were relatively low in the parents and two children from one patient, which is consistent with the heterozygote state. Two other cases in the kindred were also found to have relatively low HDL cholesterol levels, besides these 4 cases of obligate heterozygotes. Apo A-I and Apo A-II levels in the plasma of the obligate heterozygotes, however, were within the normal range. Plasma low density lipoprotein in the patients moved faster in polyacrylamide gel electrophoresis than those of normal subjects, as did those in the heterozygotes.
Atherosclerosis 1983 Oct
PMID:A Japanese family with high density lipoprotein deficiency. 665 15

The major forks of the renal arteries from 21 rabbits fed a cholesterol-supplemented diet for periods of 1-90 d were examined electron-microscopically to compare the changes in the stem of the renal arteries with those at the first main fork. Lipid accumulated preferentially in the intimal pads or cushions at the fork. Matrix vesicles diminished in number and appeared to be transformed into enlarged membrane-bound vacuoles with electron-translucent contents. Foam cells were observed particularly beneath the endothelium. The lipid in endothelial and smooth muscle cells differed from that in the foam cells, indicating the likelihood of a different metabolic response. Interstitial lipid resembled an infiltration of the matrix with separation of the mural constituents but was not associated with the increased cellular degeneration, the progressive accumulation of matrix vesicles or the augmentation of the dystrophic basement membrane changes prominent in spontaneous atherosclerosis. In the arterial stems of 2 rabbits fed cholesterol for 62 and 90 d respectively, interstitial lipid deposition occurred without intimal proliferation.
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PMID:The susceptibility of renal arterial forks in rabbits to dietary-induced lipid deposition. 667 77

The incidence of fasting HLP in 326 diabetics was 68.4 percent. The common types of HLP were type IV, IIb, IIa and III respectively. There was one case of type V. HDLC was decreased in all three groups of diabetics together with elevated ratio of TC to HDLC comparing with the controls of similar age and sex VLDL and TG were significantly elevated in NIDDM aged 60 and over comparing with IDDM but not significantly different from NIDDM aged below 60. The early detection and treatment of HLP along with optimum control of blood glucose are of utmost importance to prevent further complications caused by atherosclerosis.
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PMID:Lipid disorders in Thai diabetics. 668 May 38

Fish eye disease (FED) is characterized by severe corneal opacities, causing impaired vision, and dyslipoproteinaemia: hypertriglyceridaemia, raised levels of very low density lipoproteins (VLDL), triglyceride enrichment of low density lipoproteins (LDL) and reduction of high density lipoproteins (HDL). The disease is described in two unrelated families. In both there was a high proportion of low HDL in relatives without eye disease. VLDL, LDL and HDL had normal electrophoretic mobilities. The concentrations of VLDL cholesterol and triglycerides were increased fivefold. LDL cholesterol levels were normal but LDL triglycerides markedly increased. HDL cholesterol was reduced by 90% as were the levels of HDL apolipoproteins. The major part of HDL cholesterol was in the HDL3 fraction. FED HDL were smaller than normal with molecular weights of 115,000 daltons. Lecithin: cholesterol acyltransferase activity and amount of cholesterol esters in serum were normal. Postheparin lipoprotein and hepatic lipases showed normal or subnormal values. Clinically FED differs from other familial conditions with deficiency of HDL such as Tangier disease, LCAT-deficiency and Milano-AI-apoprotein disease. In spite of the extremely low HDL cholesterol FED is not characterized by premature atherosclerosis. Mechanisms for the dyslipoproteinaemia are discussed.
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PMID:Fish eye disease: a new familial condition with massive corneal opacities and dyslipoproteinaemia. 680 51

The plasma lipoproteins are a group of macromolecules all of which transport lipids, including cholesterol, triglyceride and phospholipid, and all of which have one or more protein constituents, called apoproteins. It is becoming apparent that the apoproteins play an important role in lipoprotein metabolism. Recently the so called "alpha hypothesis" has been proposed, according to which a protective role for HDL in atherosclerosis has been postulated. Three "experiments of nature", characterized by deficiencies of HDL as genetic disorders, namely Tangier disease, familial hypoalphalipoproteinemia, familial lecithin: cholesterol acetyltransferase deficiency, support the "alpha hypothesis". The first italian cases with the genetic disorders are presented.
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PMID:[Familial alpha lipoprotein deficiency. Tangier disease, familial hypoalphalipoproteinemia and familial deficiency of lecithin cholesterol acyltransferase deficiency]. 683 49

Previous studies from this laboratory have determined that diets containing the usual amounts of fat to which are added 750-1500 mg/day cholesterol elevate the plasma cholesterol concentration by variable amounts, depending upon the ratio of polyunsaturated to saturated fatty acids (P/S ratio) of the diet. Diets with P/S ratios of 0.25-0.4 are accompanied by elevations of low density lipoprotein (LDL) cholesterol, whereas diets with a P/S ratio of 2.5 produce no significant changes in cholesterol levels. On the low P/S ratio diets, the structure, composition, and interaction with cultured fibroblasts of LDL are not significantly changed. Plasma high density lipoprotein (HDL) cholesterol levels remain constant, but HDL2 increase relative to HDL3. In the present study, not only dietary cholesterol but also total dietary fat was altered. Six normal young men were fed a basal diet consisting of 18% protein, 51% carbohydrate, and 30% fat, containing 250 mg/day cholesterol. After 2 weeks, an experimental diet consisting of 18% protein, 42% carbohydrate, and 39% fat, containing 1760 mg/day cholesterol, was fed for 4 weeks. The P/S ratios of both diets were about 0.4. Plasma samples were taken twice during each dietary period from 12- to 14-h-fasted subjects and analyzed for their contents of lipoprotein lipids. Plasma levels of LDL and HDL cholesterol increased by 30 and 13 mg/dl, respectively; total and very low density lipoprotein (VLDL) triglyceride concentrations were unaltered. The plasma concentrations of apoproteins (apo) B, E. and A-I, but not A-II, were elevated. Plasma samples also were studied by zonal ultracentrifugation, gel permeation column chromatography, and Pevikon electrophoresis. Although on zonal ultracentrifugation the total concentrations of LDL were increased, the flotation properties and chemical compositions of LDL were not changed. By contrast, HDL2 and HDL3L concentrations increased, and HDL2 became enriched with cholesteryl esters. On gel permeation chromatography, with the subjects on the basal diet, plasma cholesterol eluted in two peaks, corresponding to LDL and HDL. The sizes of the peaks increased on the experimental diet. ApoE eluted in two peaks: one at the leading edge of LDL (corresponding to VLDL or IDL) and the other in the area between LDL and HDL, corresponding to HDLC. On the experimental diet, the apoE peak between LDL and HDL increased. On Pevikon electrophoresis apoE migrated between the LDL and HDL bands. This apoE peak was increased on the experimental diet. These findings suggest that increasing the concentrations of both dietary cholesterol and total fat can increase the levels of plasma LDL, HDL2, and HDLC in fasting normal subjects. Thus, the concentrations of some putatively atherogenic as well as antiatherogenic lipoproteins increased in plasma, and the apparent paradox between the epidemiological and metabolic behaviors of some lipoproteins remains. Clearly, more work is needed to resolve the roles of various lipoproteins in plasma in atherosclerosis.
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PMID:Increases in dietary cholesterol and fat raise levels of apoprotein E-containing lipoproteins in the plasma of man. 684 53

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