Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Apolipoprotein A-IV (apo A-IV) is a major component of several lipoprotein particles and may, therefore, play an important role in lipid metabolism. Genetic polymorphism of apo A-IV has been reported in humans and several other animal species. The presence of two common alleles, apo A-IV * 1 and apo A-IV * 2 has been documented in several human populations. In this investigation, we have determined apo A-IV polymorphism by isoelectric focusing-immunoblotting in 82 non-insulin-dependent diabetic and 204 control non-Hispanic Whites from the San Luis Valley, Colorado. We have also estimated the impact of apo A-IV polymorphism on eight quantitative traits: total cholesterol, HDL-cholesterol, HDL3 and HDL2-cholesterol, LDL-cholesterol, triglycerides, fasting glucose and fasting insulin. No statistically significant difference was seen in apo A-IV allele frequencies between the control and diabetics, and these frequencies were comparable with those reported for U.S. White and European populations. Among controls, the impact of the apo A-IV polymorphism was significant on LDL-cholesterol (P = 0.04) in females and on fasting insulin levels (P = 0.06) in males. In diabetics, the effect was significant on insulin (P = 0.03) levels in males only. Furthermore, our data suggest that when making comparison of lipid profiles between the controls and diabetics the presence or absence of common apo A-IV phenotypes should be taken into account as these appear to effect these comparisons.
Atherosclerosis 1991 Nov
PMID:Apolipoprotein A-IV polymorphism, and its role in determining variation in lipoprotein-lipid, glucose and insulin levels in normal and non-insulin-dependent diabetic individuals. 181 53

The beneficial effects of combined estrogen-progestin-containing oral contraceptives (OCs) include prevention of pregnancy (less than 1 failure out of 100 regular users); the prevention of ectopic pregnancy; the reduction of preeclampsia (2.4 times lower risk compared with barrier methods); and reduction of pelvic inflammation to about one-half. The effects on menstruation include the reduction of sideropenic anemia (by lowering the incidence and duration of menstruation, OCs reduce the loss of iron to 50% or to as much as 33%); dysmenorrhea by 40% (symptoms receded in 90% of users); and premenstrual syndrome by 30%. OCs exert a favorable effect on menstrual epilepsy; reduce sports-related accidents in the premenstrual and menstrual periods; and reduce intermenstrual bleeding. The protection from cancer includes the lowering of endometrial cancer risk (every 2 years of use reduces the risk by 38%, 12 years of use by 70%, and the beneficial effects last 3-15 years); reduction of the risk of the ovarian cancer (already 3-6 months of use reduces the risk by 30%, and more than 5 years by 50% in women under 50 years of age with a longterm effect of 10 years or more, which drops sharply in women over 60 who are mostly at risk). Among other beneficial effects, they reduce benign mastopathy by 50-75%; reduce the risk of follicular ovarian cysts to 50% and the risk of corpus luteal ovarian cysts to 1/5; and they lessen bone loss which favorably affects osteoporosis. Low-dose OCs minimize the well-known risks of thrombotic and cerebrovascular accidents, myocardial infarction, hypertension, altered carbohydrate metabolism, gallbladder diseases, and liver cancer. A new OC with 30 mcg of ethinyl estradiol was tested with daily doses of 150 mcg of desogestrel. The high density lipoprotein (HDL) either increased or did not change with desogestrel: the HDL2 subfraction that protects from atherosclerosis did not change, and probably the HDL3 raised the HDL level.
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PMID:[Favorable effects of oral estrogen-progestin contraception]. 181 41

This double-blind cross-over study was performed to investigate whether the lipoproteins in plasma were different on furosemide (Lasix Retard) and thiazide (hydrochlorthiazide) treatment in patients suffering from type II diabetes. Twenty-four patients were randomly allocated to either furosemide-hydrochlorthiazide (LR-HCT) or HCT-LR treatment. The treatment period was 12 months: 6 months on each sequence. After inclusion, the patients were seen every second month. Laboratory data were recorded at each visit. The only significant treatment effect was observed for high-density-lipoprotein3 cholesterol concentration (HDL3 cholesterol concentration), which was higher when patients were on furosemide therapy (p less than 0.05). We conclude from the present study that blood-glucose HbA1c, and the concentration of lipoproteins connected to development of atherosclerosis is unaffected whether type II diabetes patients are treated with HCT or furosemide.
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PMID:Lipoproteins and diuretics in type II diabetes. 183 Mar 13

High-density lipoproteins (HDL) are now currently subdivided according either to density and size-HDL2 and HDL3--or to surface apoprotein composition--lipoprotein A-I (LpA-I) without A-II, and LpA-I:A-II. In samples from blood bank donors (60 women, 47 men), we evaluated HDL subclasses, LpA-I particles, and other classic risk factors for atherosclerosis and compared them with each other. We found a good correlation between HDL2 and LpA-I (r = 0.74, P less than 0.001), the correlation being more marked in women (r = 0.74) than in men (r = 0.67). LpA-I was also strongly correlated with total apolipoprotein A-I (apoA-I) (r = 0.61), which suggests that LpA-I represents a significant portion of the variable pool of apoA-I. By contrast, LpA-I:A-II but not LpA-I was correlated with HDL3, confirming the preferential association of LpA-I with HDL2. The difference between the sexes was more marked for HDL2 (+66% in women) than for LpA-I (+25%). We conclude that in normolipemic subjects the size of the HDL2 pool depends on that of LpA-I. Considering the speed and low cost of the assay, determination of HDL2 cholesterol might be a useful tool for assessing cardiovascular risk.
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PMID:Concentrations of high-density lipoprotein subfraction HDL2 and lipoprotein A-I in a random population of healthy subjects. 183 46

Previous studies have shown that nonenzymatic glycosylation of high-density lipoprotein (HDL) inhibits high-affinity binding to cultured cells and the candidate HDL-receptor protein. Because binding of HDL to its receptor is required for HDL-receptor-mediated cholesterol efflux from cells, we hypothesized that glycosylated HDL3 would have reduced ability to remove cholesterol from cells. HDL3 was glycosylated in vitro to achieve up to 40-50% reductions in free-lysine residues. Glycosylated HDL3 had a slightly greater ability than control HDL3 to sequester cholesterol directly from the plasma membrane, as predicted by changes in lipid composition. This process is independent of HDL-receptor binding and should not be influenced by reduced binding of HDL3. In contrast, efflux of intracellular cholesterol from cells, which is HDL-receptor dependent, was reduced 25-40%. The ability of glycosylated HDL3 to diminish cholesterol esterification was significantly reduced, indicating reduced net cholesterol efflux. Steady-state efflux of LDL-derived cholesterol was also markedly reduced. These findings suggest that nonenzymatically glycosylated HDL is functionally abnormal and might contribute to the accelerated development of atherosclerosis in patients with diabetes mellitus.
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PMID:Nonenzymatic glycosylation of HDL and impaired HDL-receptor-mediated cholesterol efflux. 184 86

In this study, we performed oxidative modification of high density lipoprotein (HDL) in vitro. The amount of lipid peroxide increased when either HDL2 or HDL3 was incubated with phosphate-buffered saline containing 5 microM CuSO4 for 24 h at 37 degrees C, indicating that both fractions of HDL were oxidatively modified. This modification resulted in denaturation of apolipoprotein AI on SDS/PAGE and increased the negative charge on agarose gel electrophoresis. When incubated with macrophage-derived foam cells, native HDL caused a marked efflux of cholesterol from them, leading to a decrease in the amount of cholesteryl ester in the cells. However, oxidized HDL showed a lessened effect on the decrease of cholesteryl ester in foam cells. These data suggest that oxidative modification of HDL may stimulate development of atherosclerosis by limiting efflux of cholesterol from foam cells.
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PMID:High density lipoprotein loses its effect to stimulate efflux of cholesterol from foam cells after oxidative modification. 186 74

Plasma lipids, lipoproteins and apolipoproteins (apo) were analysed in 30 young Arab IDDM and 50 young insulin-requiring NIDDM women. The mean age of IDDM and NIDDM groups was 20.2 and 34.5 years, and mean duration of diabetes was 5.7 and 4.6 years, respectively. Two groups of 40 and 60 healthy women (matched for age and BMI) provided corresponding control groups. In comparison with control subjects, diabetics showed marked increases in the following parameters: total cholesterol (TC), low density lipoprotein (LDL) cholesterol, total triglycerides (TG), very low density lipoprotein (VLDL) triglycerides, phospholipids, apoB, LDL apoB, glucose and glycosylated hemoglobin (HbA1c) as well as the ratios of total cholesterol/high density lipoprotein (HDL) cholesterol, LDL-cholesterol/HDL-cholesterol, LDL cholesterol/high density lipoprotein (HDL) cholesterol, LDL-cholesterol/HDL-cholesterol, LDL cholesterol/high density lipoprotein 2 (HDL2) cholesterol and apoB/apoAI. Plasma LCAT activity, concentrations of HDL3 apoAI and apoAII in plasma and lipoprotein fractions were normal in both the diabetic groups. Levels of C-peptide, HDL, HDL2 and HDL3 cholesterol, plasma apoAI, HDL apoAI and HDL2 apoAI were markedly decreased in the diabetic groups as compared to their corresponding controls. There was no significant correlation between fasting glucose or HbA1c and any of the above parameters. Despite insulin therapy in both the diabetic groups studied, abnormalities in lipids, apoB and apoAI still persisted. Our data suggest a possible higher risk of atherosclerosis in these patients.
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PMID:Plasma lipoproteins and apolipoproteins in insulin-dependent and young non-insulin-dependent Arab women. 186 93

In this cross-sectional study we investigated the role of lifestyle and other factors in determining serum HDL2- and HDL3-cholesterol levels among 82 dyslipidemic (total cholesterol minus HDL-cholesterol greater than or equal to 5.2 mmol/l) middle-aged participants of the Helsinki Heart Study. Alcohol consumption correlated positively with both subfractions of HDL-cholesterol, while leisure time physical activity had a significant correlation with the HDL3-subfraction only. HDL levels were lower in smokers than in non-smokers but the differences were not statistically significant. Using the multiple linear regression model, alcohol consumption emerged as the only significant factor influencing both HDL cholesterol subfraction levels. Leisure time physical activity had an independent contribution to HDL3-level, but lifestyle variables other than alcohol consumption did not contribute significantly to HDL2-cholesterol level. The model incorporating alcohol consumption, physical activity, smoking and relative body weight explained 13.4% of the variation in HDL2 and 17.5% in HDL3-cholesterol.
Atherosclerosis 1991 Mar
PMID:Lifestyle determinants of HDL2- and HDL3-cholesterol levels in a hypercholesterolemic male population. 187 21

The effect of drinking pattern on plasma lipoproteins and body weight was examined in three groups of squirrel monkeys: (1) controls fed isocaloric liquid diet; (2) regular drinkers given liquid diet containing ethanol (EtOH) substituted isocalorically for carbohydrate at 12% of calories daily; and (3) binge drinkers fed 6% EtOH calories daily for a four-day period followed by three days of 20% EtOH to mimic a weekend bout drinking cycle. The number of calories offered per day was the same for all groups, and the average weekly EtOH consumption (12% calories) was identical for the two alcohol treatments. The entire study lasted six months. There were no significant differences in plasma cholesterol, triglyceride or liver function tests. Regular drinkers had the highest high density lipoprotein2/high density lipoprotein3 (HDL2/HDL3) protein and apolipoprotein A-I/B ratios of any group and exhibited a significant elevation in the molar plasma lecithin:cholesterol acyltransferase (LCAT) rate (nmol/min/ml). Binge drinking produced a selective increase in low density lipoprotein (LDL) cholesterol and apolipoprotein B, and a depression in the fractional LCAT rate (% esterified/min). During the course of the study, controls ate 92% of their diet while the alcohol groups each consumed 95% of the liquid diet. Despite this difference, body weight and Quetelet index (weight/height2) decreased progressively in the order controls greater than regular drinkers greater than binge drinkers. Results from our study indicate that moderate, regular daily consumption of EtOH at 12% of calories causes a modest reduction in body weight and produces a coronary protective lipoprotein profile (increases HDL2/HDL3, increases apolipoprotein A-I/B, low LDL cholesterol). By contrast, when this same average weekly dose is concentrated in a binge cycle, unfavorable alterations in lipoprotein composition (increases LDL cholesterol, increases apolipoprotein B) and metabolism (decreases LCAT activity) occur along with weight loss and depletion of body fat. These studies point to the value of the squirrel monkey model in evaluating both favorable and pathophysiological effects of chronic EtOH intake.
Atherosclerosis 1991 May
PMID:Effect of drinking pattern on plasma lipoproteins and body weight. 187 9

The effects of 12 weeks treatment with probucol on plasma lipoprotein subfraction levels and on LPL and HTGL activities were investigated. Plasma VLDL-C, VLDL-TG, VLDL-apo B levels were not changed. Probucol significantly reduced plasma IDL-C and IDL-apo B levels by 26.7% and 23.8%, respectively. Plasma cholesterol and apo B levels of large light LDL (LDL1) were decreased significantly by 27.8% and 23.2% by probucol treatment. Plasma cholesterol and apo B levels of small heavy LDL (LDL2) remained unchanged. Probucol markedly reduced plasma HDL2 levels. The reduction rates of plasma TC, TG and apo A-I levels of HDL2 were 43.0%, 43.6% and 47.0%. Probucol significantly decreased HDL3-C and HDL3-apo A-I levels by 18.0% and 19.2%. LPL activities in the post-heparin plasma were decreased significantly from 2.53 +/- 0.71 mumol free fatty acids (FFA)/ml/h to 1.71 +/- 0.71 mumol FFA/ml/h by probucol while HTGL activities remained unchanged. We conclude that probucol suppresses LPL activity and decreases plasma IDL, LDL1 and HDL2 levels due to disturbances of VLDL conversion to LDL1 via IDL and of HDL3 conversion to HDL2.
Atherosclerosis 1991 Jun
PMID:Effects of probucol on plasma lipoprotein subfractions and activities of lipoprotein lipase and hepatic triglyceride lipase. 189 84


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