Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholesterol feeding in miniature swine resulted in a hypercholesterolemia with a distinctive hyperlipoproteinemia and the subsequent development of atherosclerosis. Alterations in the type and distribution of plasma lipoproteins induced by cholesterol feeding were as follows: (a) the occurrence of beta-migrating lipoproteins (B-VLDL) as well as very low density lipoproteins in the d less than 1.006 ultracentrifugal fraction; (b) an increased prominence of the intermediate lipoproteins (d = 1.006-1.02); (c) an increased prominence of low density lipoproteins; and (d) the occurrence of a distinctive lipoprotein with alpha mobility which was referred to as HDLc (cholesterol induced). Characterization of the various plasma lipoproteins included chemical composition, size by electron microscopy, and apoprotein content. The B-VLDL resembled the beta-migrating lipoproteins of human Type III hyperlipoproteinemia and contained a prominent protein equivalent to the arginine-rich apoprotein in addition to the B apoprotein, apo-A-I, and the fast-migrating apoproteins (apo-C). The HDLc were rich in cholesterol, ranged in size from 100 to 240 A in diameter, and contained the arginine-rich apoprotein and apo-A0I but lacked the B apoprotein. The arginine-rich apoproteins isolated from B-VLDL and HDLc by gel chromatography were similar in amino acid analyses, with glutamic acid as their amino-terminal residue. The occurrence of a spectrum of cholesterol-rich lipoproteins which contained the arginine-rich apoprotein with the occurrence of accelerated atherosclerosis suggested an interesting, although speculative, association.
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PMID:Swine lipoproteins and atherosclerosis. Changes in the plasma lipoproteins and apoproteins induced by cholesterol feeding. 16 8

VLDL from hypercholesteremic (HC) rabbits display features which are suggestive of inherent atherogenicity. The lipid composition, compared to that of control VLDL, shows an enrichment of cholesterol esters, which have a very high 18:1/18:2 ratio in their fatty acids, and an increased sphingomyelin content, with decreased PC/Sph ratio. This lipid composition is very similar to that of the atherosclerotic plaqua. Apoprotein peptides of HC VLDL show a predominance of arg-rich proteins, similar to human conditions (Type III hyperlipoproteinemia and hypothyroidism) characterized by early and severe atherosclerosis. Turnover of 125I-labelled HC VLDL is significantly slower than that of control VLDL, both when the lipoprotein is injected into the donor animals and into controls. Conversion of HC VLDL into lipoproteins of higher density is also very small, as compared to control VLDL. Uptake of radioactivity into the aortic wall after injection is about doubled, as compared to control VLDL, when HC rabbits receive HC VLDL. This experimental model suggests that structural modifications of the HC VLDL make them poorly metabolizable, and possible more akin to the recently described arterial lipoprotein complexing factor (ALCF). Metformin was selected as the test compound, because it has been shown to decrease aortic and liver lipid accumulation in cholesterol fed rabbits, while only slightly affecting plasma cholesterol levels. VLDL from rabbits fed cholesterol and metformin (HC+Met), while still enriched in cholesterol esters, have a higher protein content, less sphingomyelin and more phosphatidylethanolamine and phosphatidylinositol than HC VLDL, while fatty acid composition of cholesterol esters does not differ. Turnover of HC+Met VLDL is extremely rapid, with a t1/2 even shorter than that of control VLDL.
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PMID:Turnover and aortic uptake of very low density lipoproteins (VLDL) from hypercholesteremic rabbits as a model for testing antiatherosclerotic compounds. 17 94

(1) Male turkey serum contains two major lipoprotein families designated as LP-A and LP-B in its lipoprotein density classes. These two lipoprotein families were separated from each of the lipoprotein density classes by affinity chromatography on concanavalin A-Sepharose 4B. LP-A was present in the unretained and LP-B in the retained fractions. Both lipoprotein families were characterized by determination of their immunological and electrophoretic properties, the flotation coefficient and chemical composition. (2) LPb was distributed over a wider density range than LP-A. Seventy-four percent of LP-B was found in the LDL, 17% IN The VLDL and 8% in the HDL. In contrast, 98% of LP-A was present in the HDL and 2% in the LDL fractions: there were only trace amounts of LP-A in the VLDL. (3)Immunological and electrophoretic studies showed that the protein moiety of LP-A contained only the two non-identical A-I and A-II polypeptides of ApoA. The protein moiety of LP-B consisted only of ApoB. (4) Isolation of LP-A and LP-B from the major lipoprotein density classes provided further experimental evidence to confirm the existence of chemically distinct lipoprotein families as the fundamental physical-chemical entities of the serum lipoprotein system.
Atherosclerosis
PMID:Lipid transport in the avian species. Part 2. Isolation and characterization of lipoprotein A and lipoprotein B, two major lipoprotein families of the male turkey serum lipoprotein system. 18 84

(1) Lipoproteins from the serum of male turkeys maintained on a normal diet were separated by sequential preparative ultracentrifugation into VLDL (d less than 1.006 g/ml), LDL (d = 1.006-1.063 g/ml), HDL (d = 1.063-1.21 g/ml) and VHDL (d greater than 1.21 g/ml). Lipoprotein density classes were characterized by analytical ultracentrifugation, agarose electrophoresis, immunodiffusion and immunoelectrophoresis, and by quantitative determination of protein, lipids and individual phosphatides. (2) HDL were the major density class representing 75% of the total lipoprotein content, LDL accounted for approximately 20% and VLDL for only 3-5% of the total lipoproteins. (3) VLDL were characterized by a relatively low content of glyceride (34%). Cholesterol esters were the major lipid (38%) of LDL, and the phospholipids (26%) of HDL. Glycerides of all major density classes consisted of equal amounts of triglycerides and diglycerides. (4) Phosphatidylcholine was the major phosphatide in all density classes. The composition of phosphatides was very similar in the VLDL and LDL, but it was different in the HDL. The ratio of phosphatidylcholine/sphingomyelin was higher in HDL than in VLDL and LD. (5) Immunological and electrophoretic studies showed that all three major density classes consisted of two lipoprotein families designated, in analogy to the human serum lipoprotein system [1], as LP-A and LP-B. The exception was HDL3 (d = 1.125-1.21 g/ml) which contained only LP-A. (6) ApoB was insoluble in aqueous buffers but could be solubilized after reduction and carboxymethylation. No C- or N-terminal amino acids were released by the usual chemical methods. The carbohydrate moiety of ApoB contained mannose, galactose and galactosamine. (7) ApoA consisted of a non-identical polypeptides designated in analogy to the human polypeptides as A-I and A-II. A-I was the major ApoA polypeptide and had a molecular weight of about 27,000. This polypeptide contained no half cystine, and the aspartic acid as the N-terminal and alanine as the C-terminal amino acids. A-II had a molecular weight of about 10,000, contained no half cystine and had alanine as the C-terminal amino acid. A-II showed no N-terminal amino acid by either dansylation, dinitrophenylation or Edman's procedure. Neither A-I nor A-II contained neutral sugars or hexosamines. (8) Concentrations of polypetides analogous to human ApoC, ApoD and "arginine-rich" polypeptide, if present, were too low for their unequivocal chemical characterization.
Atherosclerosis
PMID:Lipid transport in the avian species. Part I. Isolation and characterization of apolipoproteins and major lipoprotein density classes of male turkey serum. 18 83

The composition of very low density lipoproteins (VLDL: d less than 1.019) of New Zealand male rabbits reciving cholesterol (2 g/day) and metformin (135 mg/kg/day) is investigated. These rabbits, while showing only a slight reduction of plasma cholesterol levels, as compared to cholesterol-fed (h.c.) animals, show a marked decrease of the aortic cholesterol esters and atheromatous process. VLDL from the cholesterol + metformin group (h.c. + met), as compared to the h.c. animals, are homogenous in size and not separable into VLDL-1 and VLDL-2 subfractions by Sepharose 4B chromatography. These findings are confirmed by electron microscopy, which shows homogeneity of particle size, as well a decreased tendency of h.c. + met VLDL to aggregate. Chemical composition of h.c. + met VLDL is characterized by increased triglycerides and phospholipids, while the percentage of cholesterol esters is not significantly decreased. Phospholipid distribution of h.c. + met VLDL shows a significant decrease of sphingomyelin and increased phosphatidylinositol, the latter both as compared to h.c. and control VLDL. Apoprotein pattern of h.c. + met VLDL in polyacrylamide gels shows a relative increase of peptides with C mobility and a decrease of proteins corresponding to the arg-rich peptides. These findings exemplify a case of altered lipoprotein composition and decreased atheromatosis, in the presence of marked hypercholesteremia.
Atherosclerosis 1977 Jan
PMID:Metaformin: an antiatherosclerotic agent modifying very low density lipoproteins in rabbits. 18 80

This report describes the effects of pharmacologic doses (3 g/d) of nicotinic acid on the plasma distribution and chemical composition of the high density lipoprotein (HDL) subfractions HDL(2) and HDL(3) and examines the influence of the drug on the metabolism of the major HDL apoproteins, apolipoproteins A-I (ApoA-I) and A-II (Apo-II). The drug lowered plasma cholesterol (15%, P < 0.05) and triglyceride (27%, P < 0.01); the former effect a result of a fall in the amount of cholesterol associated with very low density lipoproteins (31%, P < 0.02) and low density lipoproteins (36%, P < 0.02). Conversely, it raised plasma HDL cholesterol (23%, P < 0.05) and increased (by 345%) the plasma HDL(2):HDL(3) ratio. The latter derived from an absolute increment (646%) in circulating HDL(2), coupled with a fall (47%) in HDL(3). This change was not associated with major alterations in the overall cholesterol (free and esterified), triglyceride, phospholipid, or protein content of the subfractions; however, it was accompanied by substantial changes in their protein composition. In particular, the molar ratio of ApoA-I:ApoA-II in HDL(3) declined from 2.7:1 to 2.1:1 during nicotinic acid treatment.Significant perturbations of ApoA-I and ApoA-II metabolism accompanied the drug-induced HDL subfraction redistribution. Specifically, the plasma concentration of ApoA-I rose by 7% (P < 0.05) because of a decrease in its fractional catabolic rate. Moreover, whereas before treatment 6 and 94% of the plasma ApoA-I circulated with HDL(2) and HDL(3), after commencement of nicotinic acid therapy this distribution became 49 and 51% in HDL(2) and HDL(3), respectively. ApoA-II was found mainly in HDL(3), both before and during nicotinic acid treatment. Administration of the drug caused a 14% reduction in its plasma concentration (P < 0.05), which derived principally from a fall (22%, P < 0.01) in its synthetic rate. These data suggest that the effects of nicotinic acid on the HDL subfraction distribution may be mediated via (a) net transfer of ApoA-I from HDL(3) to HDL(2) and (b) a reduction in ApoA-II synthesis. Our present understanding of the association between HDL and atherosclerosis indicates that such changes may have prophylactic value in the prevention of coronary artery disease.
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PMID:Effects of nicotinic acid therapy on plasma high density lipoprotein subfraction distribution and composition and on apolipoprotein A metabolism. 22 31

High density lipoprotein (HDL) was fractionated by ion exchange column chromatography using a continuous NaCl gradient of 0.06--0.13 M. It was found that, on the basic C apoprotein content, HDL is comprised of 3 subfractions. All 3 subfractions contain apo A-I and apo A-II but the apo A-I/apo A-II ratio is different in each subfraction and in the case of subfraction c, that fraction which eluted at highest NaCl concentrations, the A-I/A-II ratio varied even within this subfraction. Subfraction a contained no C apoprotein, subfraction b contained apo C-II and apo C-III-1 but no apo C-III-2 while subfraction c contained apo C-III-2 and trace amounts of apo C-II and C-III-1. Analysis of HDL2 and HDL3 shows that both contain all 3 lipoprotein subfractions, but in differing quantities.
Atherosclerosis 1979 Aug
PMID:Protein content and composition of human high density lipoprotein subfractions. 22 80

The progression and regression of aortic lipid deposition was studied in male ExHC rats. Rats in the progression group were fed an atherogenic diet containing 2% cholesterol, 0.4% sodium cholate and 10% olive oil for periods up to 32 weeks. Rats in the regression group were first fed the atherogenic diet for 16 weeks, and then maintained on a basal low cholesterol diet. Half the rats were killed at 4 weeks and the other half at 16 weeks after cessation of the atherogenic diet. Rat aortas of the progression group contained progressively more lipid pari passu with the duration of cholesterol feeding, but connective-tissue proliferation was absent. Deposited lipid in the aorta of cholesterol-fed rats disappeared very slowly after the rats were returned to the basal diet. serum HDL decreased in the hypercholesterolemic ExHC rats fed the atherogenic diet for 4 weeks. By contrast, serum HDL and apo A-I increased in both hypercholesterolemic ExHC rats fed the atherogenic diet for 32 weeks and slightly hypercholesterolemic ExHC rats fed the basal diet for 16 weeks in the regression period.
Atherosclerosis 1979 Nov
PMID:Increase of serum high density lipoprotein with progression and regression of aortic lipid deposition in rats. 22 75

The levels of lipoprotein A-I (LP A-I) containing apolipoprotein A-I (apo A-I) and devoid of apolipoprotein A-II (apo A-II) have been determined in a group of 86 children and adolescents with insulin-dependent diabetes of age between 1.3 and 22 years. The duration of diabetes in the studied group ranged between 0.25 and 15 years. The patients studied were further divided into subgroups taking into account the duration of diabetes as well as the occurrence of complications of diabetes, obesity and predisposition to early development of atherosclerosis in family history. The analysis of the results took into account the relations between the levels of LP A-I and other parameters of lipid metabolism like cholesterol, triglycerides, HDL-cholesterol, apo A-I and apo A-II concentrations as well as the effectiveness of metabolic control of diabetes. LP A-I concentration was the lowest in group of children with diabetes lasting up to one year. This parameter was correlated positively with the levels of HDL-cholesterol and apo A-I, and negatively with HbA1c. It was not related to the coexisting complications, obesity or predisposition to atherosclerosis in family history. The above results indicate that the state of metabolic control of diabetes significantly influences the level of LP A-I. Considering the importance of LP A-I in preventing atherosclerosis it should be stressed that a decrease in its level during the period of prolonged hypoglycemia constitutes still another risk factor for development of atherosclerosis in diabetic children and adolescents.
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PMID:[Lipid metabolism in children and adolescents with insulin dependent diabetes. II. Evaluation of changes in lipoprotein A-I in children and adolescents with insulin dependent diabetes]. 134 32

In previous studies, a restriction fragment length polymorphism (RFLP) has been identified using MspI restriction endonuclease in the 3' region of the apo A-II gene. The rare variant site for this MspI (M2) has been reported to be associated with higher levels of HDL cholesterol and apo A-II. We have studied the frequency and lipid associations of this RFLP in a population of 168 coronary artery disease (CAD) male and female patients, who had more than 50% narrowing of one or more arteries prior to age 60 years, as well as 255 aged-matched males and females from the Framingham Offspring Study. We also studied 31 kindreds in which the proband had premature CAD. The frequency of the M2 allele was higher in CAD cases (0.20) than in the controls (0.13) (P less than 0.05). In general, those subjects carrying the M2 allele had lower HDL cholesterol and apo A-I plasma levels; however, this difference was only significant (P less than 0.02 and 0.002, respectively) in females with CAD. No cosegregation of the M2 allele with hypoalphalipoproteinemia was found in 31 kindreds studied. However, in both generations there was a trend for those subjects carrying the M2 allele to have lower HDL cholesterol levels than those carrying the M1 allele. Sequence analysis of the apo A-II gene of subjects homozygous for either the M1 (n = 1) or the M2 allele (n = 2) revealed that this RFLP is due to a T----C single base mutation 528 bp 3' to the apo A-II gene. In the subjects homozygous for the M2 allele no other mutations were found within the coding region of the apo A-II gene that could result in changes in the primary sequence of the protein. These data indicate that the MspI RFLP 3' to the apo A-II gene is somewhat more frequent in the CAD group. However, there was no significant association between this RFLP and any of the parameters examined. In conclusion, this DNA marker lacks the specificity to be clinically useful for CAD risk assessment in the population studied.
Atherosclerosis 1992 Feb
PMID:The MspI restriction fragment length polymorphism 3' to the apolipoprotein A-II gene: relationships with lipids, apolipoproteins, and premature coronary artery disease. 135 75


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