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:C0242339 (dyslipidemia)
13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal disease is accompanied by characteristic alterations of lipoprotein metabolism, which appear as a consequence of nephrotic syndrome or renal insufficiency and are primarily reflected in an altered apolipoprotein profile rather than elevated plasma lipid levels. Their full characterization requires identification of discrete lipoprotein particles. While nephrotic syndrome results in increased concentrations of both cholesterol- and triglyceride-rich apoB-containing lipoproteins, renal insufficiency is characterized by an accumulation of intact or partially metabolised triglyceride-rich apoB-containing lipoproteins. The dyslipidemia has been discussed as a contributory factor for the progression of renal insufficiency through development of glomerulosclerosis and tubulointerstitial lesions together with accelerated atherosclerosis. Several experimental studies have shown that hyperlipidemia accelerates renal damage. Lipid-lowering treatment can reduce renal lesions and preserve renal function. The documentation in human nondiabetic progressive renal insufficiency is more limited. We have found that increased concentrations of triglyceride-rich, but not cholesterol-rich, apoB-containing lipoproteins are, associated with a more rapid loss of renal function. The underlying pathophysiological mechanisms for the relation between triglyceride-rich apoB-containing lipoproteins and progression of renal insufficiency are not fully understood. Treatment with hypolipemic drugs may attenuate the renal dyslipidemia, but thus far there have been no reports about controlled clinical trials testing the possible effect of such treatment on the progression of renal insufficiency. In summary, there is evidence to suggest that some specific lipoprotein abnormalities are a risk factor for the progression of renal dysfunction, but the final test of such assumptions still rests on the results of urgently needed controlled intervention studies.
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PMID:Lipoprotein abnormalities as a risk factor for progressive nondiabetic renal disease. 1041 28

The association between angiotensin-converting enzyme (ACE) as well as apolipoprotein B polymorphisms and dyslipidemia and coronary artery disease (CAD) is controversial. We assessed the distribution of ACE insertion and/or deletion, apolipoprotein B signal peptide insertion and/or deletion, and apolipoprotein B XbaI restriction fragment length polymorphisms in 388 nondiabetic patients. We studied 112 patients with angiographically defined asymptomatic CAD or with stable functional classes I and II angina and 139 patients with acute myocardial infarction who were age matched to 137 control subjects. Univariate analysis showed higher prevalence of Xba50% reduction of lumen diameter. Overall, multivariable regression disclosed traditional risk factors and elevated levels of apolipoprotein B for men and reduced levels of apolipoprotein AI for women as independent variables for CAD. After adjustment for the most important subset of risk factors (age, hypertension, hypercholesterolemia, and smoking), apolipoprotein B XbaI polymorphism was disclosed as an independent variable for CAD. Apolipoprotein B XbaI was also selected as an independent variable for acute myocardial infarction after adjusting for age, hypertension, hypercholesterolemia, and smoking. Thus, in addition to traditional coronary risk factors, apolipoproteins B and AI, and apolipoprotein B XbaI polymorphism could be considered predictors of CAD.
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PMID:Angiotensin-converting enzyme and apolipoprotein B polymorphisms in coronary artery disease. 1078 57

The epsilon4 allele of the gene coding for apolipoprotein (apo) E is associated with an atherogenic lipid profile that has been linked to increased risk of coronary artery disease (CAD). Apo E genotype may also be associated with peripheral arterial disease (PAD). If present, this association may be modified by diabetes, which is also associated with dyslipidemia that predisposes to macrovascular disease. Observable associations between both ApoE genotype and diabetes with PAD may be confounded by smoking, a potent PAD risk factor that is unrelated to lipids. From 1991 to 1993, apo E genotypes (2/3, 3/3, 3/4), PAD (defined as ankle-brachial index [ABI] <0.9), diabetes (prevalent and newly-diagnosed), and smoking history (ever/never) were determined for 3,161 Japanese-American men aged 71-93. Data on hypertension and other potential confounders were also collected. Logistic regression was used to determine odds ratios (OR) between groups cross-categorized by apo E genotype and diabetes with prevalence of PAD, within strata of smoking. In each smoking stratum, non-diabetic apo epsilon3/3 carriers were considered the reference. Among ever-smokers, there was no association between apo E and PAD, regardless of diabetes status. Among never-smokers there appeared to be both apo E- and diabetes effects on PAD prevalence. Compared to the non-diabetic epsilon3/3 group, the ORS of PAD were 2.3 (1.2-4.4) and 2.0 (1.1-3.4) for epsilon3/3 newly-diagnosed and epsilon3/3 prevalent diabetic subjects, respectively. Associations were stronger among diabetic individuals in the epsilon3/4 group: the ORS were 3.0 (1.1-8.8) and 4.1 (1.9-8.7) for epsilon3/4 newly-diagnosed and epsilon3/4prevalent diabetic subjects, respectively. Despite associations whose pattern and magnitude suggested interaction between apo E genotype and diabetes on PAD prevalence among never-smokers, formal testing of this interaction did not reach statistical significance. Our finding of an apo E-PAD association among never-smokers may result from the effects of an apo epsilon4-related atherogenic lipid profile on peripheral arteries. Further studies are needed to clarify the potential mediating role of diabetes on the apo E-PAD association.
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PMID:Apo E genotype, diabetes, and peripheral arterial disease in older men: the Honolulu Asia-aging study. 1086 96

Cardiovascular disease is the leading cause of death in patients receiving dialysis. This is attributed in part to the shared risk factors of cardiovascular disease and end-stage renal disease. The risk factors for coronary artery disease include the classic cardiac risk factors of diabetes mellitus, hypertension, dyslipidemia, and smoking. Also in this population, hyperparathyroidism, hypoalbuminemia, hyperhomocysteinemia, elevated levels of apolipoprotein (a), and the type of dialysis membrane may play a role. Management begins with risk factor modification and medical therapy including aspirin, beta blockers, angiotensin converting enzyme (ACE) inhibitors, and lipid-lowering agents. Revascularization is often important, and coronary artery bypass grafting appears to be preferable to percutaneous transluminal coronary angioplasty. This is especially true for those with multivessel disease, impaired left ventricular function, severe symptoms, or ischemia. Congestive heart failure is another common problem in dialysis patients. The management includes correction of underlying abnormalities, optimal dialysis, and medical therapy. Data obtained from the general population indicate obvious benefits from ACE inhibitors and beta blockers, and these agents would be considered the therapies of choice. Erythropoetin is also an essential component of therapy, but the ideal hemoglobin concentration has yet to be determined. Peritoneal dialysis may be helpful in severe cases of heart failure. Pericarditis is seen in less than 10% of dialysis patients and is best diagnosed by clinical examination and echocardiography. Intensive dialysis is often the best initial therapy. Pericardiocentesis is reserved for the setting of pericardial tamponade, but a pericardial window is more definitive.
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PMID:Cardiac complications of end-stage renal disease. 1092 9

The extent to which lipid and apolipoprotein (apo) concentrations in tissue fluids are determined by those in plasma in normal humans is not known, as all studies to date have been performed on small numbers of subjects, often with dyslipidemia or lymphedema. Therefore, we quantified lipids, apolipoproteins, high density lipoprotein (HDL) lipids, and non-HDL lipids in prenodal leg lymph from 37 fasted ambulant healthy men. Lymph contained almost no triglycerides, but had higher concentrations of free glycerol than plasma. Unesterified cholesterol (UC), cholesteryl ester (CE), phosphatidylcholine (PC), and sphingomyelin (SPM) concentrations in whole lymph were not significantly correlated with those in plasma. HDL lipids, but not non-HDL lipids, were directly related to those in plasma. Lymph HDLs were enriched in UC. However, as the HDL cholesterol/non-HDL cholesterol ratio in lymph exceeded that in plasma, whole lymph nevertheless had a lower UC/CE ratio than plasma. Lymph also had a significantly higher SPM/PC ratio. The lymph/plasma (L/P) ratios of apolipoproteins were as follows: A-IV > A-I and A-II > C-III and E > B. Comparison with the L/P ratios of seven nonlipoprotein proteins suggested that apoA-IV was predominantly lipid free. Concentrations of apolipoproteins A-II, A-IV, C-III, and E in lymph, but not of apolipoproteins A-I or B, were positively correlated with those in plasma. The L/P ratios of apolipoproteins B, C-III, and E in two subjects with lipoprotein lipase (LPL) deficiency, and of apolipoproteins A-I and A-IV in a subject with lecithin:cholesterol acyltransferase (LCAT) deficiency, were low relative to those in normal subjects. Thus, the concentrations of lipids, apolipoproteins, and lipoproteins in human tissue fluid are determined only in part by their concentrations in plasma. Other factors, including the actions of LPL and LCAT, are at least as important.
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PMID:Lipid and apolipoprotein concentrations in prenodal leg lymph of fasted humans. Associations with plasma concentrations in normal subjects, lipoprotein lipase deficiency, and LCAT deficiency. 1094 20

The high triglyceride (TG) and low high density lipoprotein (HDL) cholesterol dyslipidemia has been associated with increased postprandial lipemia. Although fasting TG is a powerful predictor of postprandial hyperlipidemia, the role of hypoalphalipoproteinemia in postprandial TG metabolism is uncertain. We have studied postprandial lipemia among 63 men with low fasting plasma HDL cholesterol concentrations (<0.9 mmol/L), but with either low (<2.0 mmol/L) or high (>2.0 mmol/L) fasting plasma TG levels. A significant relationship was noted between postprandial TG response and fasting HDL cholesterol concentration (r = -0.43; P: < 0.0005). We also found that men with high TG/low HDL dyslipidemia (high TG and low HDL cholesterol; n = 16) were characterized by abdominal obesity as well as increased visceral adipose tissue accumulation, whereas normolipidemic controls (low TG and high HDL cholesterol; n = 26) and men with isolated low HDL cholesterol concentrations (low TG and low HDL cholesterol; n = 17) were not characterized by features of the insulin resistance syndrome (visceral obesity, hyperinsulinemia, and hypertriglyceridemia). Although controls and men with isolated low HDL cholesterol levels had similar postprandial lipemic responses, men with the high TG/low HDL dyslipidemia had a marked increase in their postprandial TG responses to the fat load compared with the other subgroups (P: < 0. 001). Men with the high TG/low HDL dyslipidemia were also characterized by higher concentrations of apolipoprotein (apo) B-48 and B-100 particles (chylomicron remnants and very low density lipoproteins, respectively) before and during the postprandial period compared with the other subjects. These results suggest that low HDL cholesterol concentration is a heterogeneous metabolic phenotype that it is not associated with postprandial hyperlipidemia unless accompanied by other features of the insulin resistance syndrome.
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PMID:Metabolic heterogeneity underlying postprandial lipemia among men with low fasting high density lipoprotein cholesterol concentrations. 1113 11

The atherogenic dyslipidemia of the insulin resistance syndrome is characterized by hypertriglyceridemia (hyperTG), elevated apolipoprotein (apo) B levels, reduced high-density lipoprotein (HDL) cholesterol concentrations and by an increased proportion of small, dense low-density lipoprotein (LDL) particles. Although the hyperTG-low HDL cholesterol dyslipidemia has been associated with an impaired clearance of dietary fat, the contribution of the small, dense LDL phenotype as an independent predictor of postprandial triglyceride (TG) clearance remains uncertain. We have therefore compared the postprandial TG response among three subgroups of men characterized by small, intermediate or large LDL particles in a total sample of 69 men (mean age +/- SD; 45.1 +/- 10.5 years). To identify men with small versus large LDL particles, the first (LDL peak particle diameter < 251.9 A) and the third (> 257.6 A) tertiles of the distribution of LDL particle diameters were used as cutoff points. Men with small, dense LDL particles had the expected fasting dyslipidemic profile (high TG-low HDL cholesterol levels) compared to men with large, buoyant LDL particles. The oral lipid tolerance test revealed that men with small, dense LDL particles had significantly higher total-, large-, and medium-TG-rich lipoprotein (TRL) responses to a fatty meal than men with large LDL particles (P < 0.03). In addition, within a subgroup of normolipidemic men (TG < 2.3 mmol/l and HDL cholesterol > 0.9 mmol/l), those with small, dense LDL particles had higher levels of total-, medium- and small-TRL responses compared to men with large, buoyant LDL particles (P < 0.05). Moreover, normotriglyceridemic men with small, dense LDL had higher levels of small-TRLs measured 8 h after the ingestion of the fat meal (P < 0.05) compared to normolipidemic men with large, buoyant LDL particles. Results of the present study suggest that the dense LDL phenotype may be an additional fasting marker of an exaggerated postprandial TG response and of an impaired clearance of TRLs.
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PMID:The small, dense LDL phenotype as a correlate of postprandial lipemia in men. 1116 32

We have developed a stable isotope breath test for the assessment of chylomicron remnant metabolism and report the results from the breath test in human subjects selected for disorders of chylomicron or remnant metabolism. In type I hyperlipemia, the phenotype is extreme hypertriglyceridemia due to a lack of lipoprotein lipase activity, which causes the failure of remnant formation. The type III dyslipidemia phenotype is caused by the inefficient removal of chylomicron remnants from plasma, generally because of homozygosity for apolipoprotein E2 alleles. The breath test was predicted to be abnormal in type III hyperlipemia, whereas a priori in type I hyperlipemia defective remnant clearance was not anticipated. Subjects were injected with lipid emulsions prepared with a composition similar to normal chylomicron remnants. The emulsions contained cholesteryl ester incorporating the stable nonradioactive isotope (13)C in the fatty acid moiety. End exhalation breath was collected at intervals after intravenous injection of the remnant-like emulsions and analyzed for (13)C enrichment by isotope-ratio mass spectrometry. Compared with the group of normolipemic men, the fractional catabolic rate of remnants measured by the breath test was significantly decreased (P = 0.006) in subjects with type III dyslipidemia. In the group with type I hyperlipemia, the fractional catabolic rate was not different (P = 0.233) from the control group. Therefore, the underlying capacity for remnant catabolism was normal in this group of markedly hypertriglyceridemic subjects. By short-circuiting the step of lipolysis, the remnant-like emulsion breath test provides direct information about remnant clearance and metabolism, which should assist in investigations of postprandial lipid metabolism.
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PMID:Chylomicron remnant metabolism in familial dyslipidemias studied with a remnant-like emulsion breath test. 1135 77

Coronary artery disease (CAD) is still a major cause of mortality in developed countries, and dyslipidemia is one of its major causes. In an attempt to reduce both mortality and morbidity from CAD, several dietary, pharmacological, and surgical approaches have been used to reduce plasma cholesterol levels. In this brief review, we summarize the evidence for cholesterol-lowering effects and safety of partial ileal bypass (PIB) procedure in both human and animal studies. The results of the Program on the Surgical Control of the Hyperlipidemias (POSCH), which involved a total of 838 subjects with myocardial infarction, are promising. A 5-year follow-up of this study revealed significant reductions of up to 27% in total cholesterol (TC) and up to 42% in low-density lipoprotein (LDL) cholesterol levels along with an increase of up to 8% in high-density lipoprotein (HDL) cholesterol levels as compared to controls. These changes were associated with other benefits such as increased HDL/TC and HDL/LDL ratios, and a significant decrease in apolipoprotein (apo) B100 and increase in apo AI levels. Similar results were also demonstrated by other studies. PIB surgery is one of the most effective methods for reduction of plasma cholesterol levels, particularly in patients with heterozygous familial hypercholesterolemia. This procedure is also applicable to treatment of sitosterolemia, a rare genetic disorder in which the absorption of plant sterols is abnormally high. Although no major complications of this method have been reported, more extensive studies are required to evaluate its long-term effects on renal and hepatic function. Similarly, long-term impact of this procedure on progression/regression of atherosclerotic lesions must be documented. Finally, indications for this procedure should be carefully considered, particularly in view of availability of other treatments of dyslipidemia.
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PMID:Surgical management of dyslipidemia: clinical and experimental evidence. 1139 22

Excess tissue glucocorticoid action may underlie the dyslipidemia, insulin resistance, and impaired glucose tolerance of the metabolic syndrome. 11beta-Hydroxysteroid dehydrogenase type 1 (11beta-HSD-1) catalyzes conversion of circulating inert 11-dehydrocorticosterone into active corticosterone, thus amplifying local intracellular glucocorticoid action, particularly in liver. The importance of 11beta-HSD-1 in glucose homeostasis is suggested by the resistance of 11beta-HSD-1(-/-) mice to hyperglycemia upon stress or obesity, due to attenuated gluconeogenic responses. The present study further investigates the metabolic consequences of 11beta-HSD-1 deficiency, focusing on the lipid and lipoprotein profile. Ad lib fed 11beta-HSD-1(-/-) mice have markedly lower plasma triglyceride levels. This appears to be driven by increased hepatic expression of enzymes of fat catabolism (carnitine palmitoyltransferase-I, acyl-CoA oxidase, and uncoupling protein-2) and their coordinating transcription factor, peroxisome proliferator-activated receptor-alpha (PPARalpha). 11beta-HSD-1(-/-) mice also have increased HDL cholesterol, with elevated liver mRNA and serum levels of apolipoprotein AI. Conversely, liver Aalpha-fibrinogen mRNA levels are decreased. Upon fasting, the normal elevation of peroxisome proliferator-activated receptor-alpha mRNA is lost in 11beta-HSD-1(-/-) mice, consistent with attenuated glucocorticoid induction. Despite this, crucial oxidative responses to fasting are maintained; carnitine palmitoyltransferase-I induction and glucose levels are similar to wild type. Refeeding shows exaggerated induction of genes encoding lipogenic enzymes and a more marked suppression of genes for fat catabolism in 11beta-HSD-1(-/-) mice, implying increased liver insulin sensitivity. Concordant with this, 24-h refed 11beta-HSD-1(-/-) mice have higher triglyceride but lower glucose levels. Further, 11beta-HSD-1(-/-) mice have improved glucose tolerance. These data suggest that 11beta-HSD-1 deficiency produces an improved lipid profile, hepatic insulin sensitization, and a potentially atheroprotective phenotype.
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PMID:Improved lipid and lipoprotein profile, hepatic insulin sensitivity, and glucose tolerance in 11beta-hydroxysteroid dehydrogenase type 1 null mice. 1154 66


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