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)

Obestity is associated with a range of metabolic abnormalities including fasting and postprandial dyslipidemia, both of which may contribute to increased atherosclerotic risk. Male obese subjects have a decreased level of low-density lipoprotein (LDL) receptor binding in mononuclear cells, the level of which reflects binding in the liver, compared with lean controls. In this study, we investigated whether the implementation of a weight loss regimen in viscerally obese subjects improves LDL receptor binding level. We examined apolipoprotein B(48) (apo B(48)) and retinyl palmitate (RP) metabolism following an oral fat challenge to determine whether weight loss improves postprandial dyslipidemia in viscerally obese subjects. Male obese, mildly dyslipidemic, and insulin-resistant subjects were randomly assigned to either a weight loss (n = 12) or control weight maintenance (n = 10) group. In response to weight loss of 10 kg, insulin sensitivity improved as evidenced by decreased fasting insulin and homeostatic model assessment (HOMA) score. In addition, LDL receptor binding in mononuclear cells increased significantly by 27.5% and LDL-cholesterol was significantly reduced. However, despite the increased LDL receptor levels, fasting apo B(48) levels did not fall. Postprandially, the area under the curve (AUC) for RP was significantly reduced after weight loss, but the incremental and total AUCs for apo B(48) were not altered. Apo B(48) is an unequivocal marker of chylomicron particle number; hence, the reduction in RP metabolism achieved with weight reduction may reflect decreased lipid incorporation into nascent chylomicrons or improved hydrolysis of triglyceride-rich chylomicrons resulting from a decreased competition with hepatic lipoproteins for lipoprotein lipase. Our findings suggest that the improvement in LDL receptor binding following weight reduction of 10 kg in insulin-resistant male obese subjects is insufficient to reduce the elevated chylomicron remnant levels.
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PMID:Effect of weight loss on postprandial lipemia and low-density lipoprotein receptor binding in overweight men. 1260 21

Aging is a complex process modulated by multiple interactions between environmental and genetic factors. Myotonic dystrophy (DM1) is an autosomal dominant disorder caused by an unstable (CTG)n repeat expansion in the DM1 protein kinase (DMPK) gene. The affected male patients' life expectancy at birth (53.2 years) is more than two decades below that observed in most occidental populations. The DMPK gene expression is pleiotropic and includes the premature expression of several age-related signs, symptoms and metabolic disturbances including hormonal dysfunctions, progressive decrease in muscular mass, presenile cataracts, alopecia, reduced alertness, insulin resistance, dyslipidemia, erectile dysfunction and hypogonadism. The aim of this study was to analyze the relationship between aging covariates and the severity of DM1 expression in 136 DM1 male subjects. DM1 clinical expression was assessed on a validated neuromuscular disability rating scale and was correlated with plasma total testosterone (rs = -0.31, p < 0.001), luteinizing hormone (LH) (rs = 0.52, p < 0.001) and follicle stimulating hormone (FSH) (rs = 0.54, p < 0.001) levels. Following LH releasing hormone stimulation, FSH and LH concentrations increased as a function of DM1 severity (p < 0.05). Muscular disability in DM1 was also positively associated with fasting plasma insulin and triglyceride concentrations (p < 0.05). The association of plasma apolipoprotein B and low-density lipoprotein cholesterol levels with DM1 was not linear across their distribution and tended to reflect cell membrane damage progression. These results suggest that DM1, a simple Mendelian trait, can represent a valuable model to illustrate the complex relationships between variables associated with male aging.
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PMID:The pleiotropic expression of the myotonic dystrophy protein kinase gene illustrates the complex relationships between genetic, biological and clinical covariates of male aging. 1263 69

Elevated concentrations of circulating apolipoprotein B (apoB)-containing lipoproteins, other than low-density lipoprotein (LDL), have been implicated as causative agents for the development of atherosclerosis. A form of dyslipidemia, the atherogenic lipoprotein profile, that consists of elevated intermediate-density lipoprotein (IDL), triglycerides (TGs), dense LDL and dense very low density lipoprotein (VLDL), and low high density lipoprotein-2, occurs in 40% to 50% of patients with coronary artery disease (CAD). The recently released Adult Treatment Panel III guidelines suggest that because elevated TGs are an independent CAD risk factor, some TG-rich lipoproteins, commonly called remnant lipoproteins, must be atherogenic. Relevant to this series on diabetes, a number of studies have shown that in type 2 diabetes, the severity of CAD is positively related to the numbers of TG-rich particles in the plasma. Although less clear, other studies in type 2 diabetes suggest that elevated levels of lipoprotein (a) [Lp(a)] may also be independently associated with CAD. In this article, we summarize evidence for the role of apoB-containing lipoprotein particles other than LDL in the development of atherosclerosis and discuss methods of quantification and possible pharmacologic interventions for lowering their plasma concentrations. The particles reviewed include the TG-rich lipoproteins: VLDL and its remnants, chylomicron remnants and IDL, and the C-rich lipoprotein: Lp(a).
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PMID:The role of non-LDL:non-HDL particles in atherosclerosis. 1264 86

Combined hyperlipidemia predisposes subjects to coronary heart disease. Two lipid abnormalities--increased cholesterol and atherogenic dyslipidemia--are potential targets of lipid-lowering therapy. Successful management of both may require combined drug therapy. Statins are effective low-density lipoprotein (LDL) cholesterol-lowering drugs. For atherogenic dyslipidemia (high triglycerides, small LDL, and low high-density lipoprotein [HDL]), fibrates are potentially beneficial. The present study was designed to examine the safety and efficacy of a combination of low-dose simvastatin and fenofibrate in the treatment of combined hyperlipidemia. It was a randomized, placebo-controlled trial with a crossover design. Three randomized phases were employed (double placebo, simvastatin 10 mg/day and placebo, and simvastatin 10 mg/day plus fenofibrate 200 mg/day). Each phase lasted 3 months, and in the last week of each phase, measurements were made of plasma lipids, lipoprotein cholesterol, plasma apolipoproteins B, C-II, and C-III and LDL speciation on 3 consecutive days. Simvastatin therapy decreased total cholesterol by 27%, non-HDL cholesterol by 30%, total apolipoprotein B by 31%, very low-density lipoprotein (VLDL) + intermediate-density lipoprotein (IDL) cholesterol by 37%, VLDL + IDL apolipoprotein B by 14%, LDL cholesterol by 28%, and LDL apolipoprotein B by 21%. The addition of fenofibrate caused an additional decrease in VLDL + IDL cholesterol and VLDL + IDL apolipoprotein B by 36% and 32%, respectively. Simvastatin alone caused a small increase in the ratio of large-to-small LDL, whereas the addition of fenofibrate to simvastatin therapy caused a marked increase in the ratio of large-to-small LDL species. Simvastatin alone produced a small (6%) and insignificant increase in HDL cholesterol concentrations. When fenofibrate was added to simvastatin therapy, HDL cholesterol increased significantly by 23%. No significant side effects were observed with either simvastatin alone or with combined drug therapy. Therefore, a combination of simvastatin 10 mg/day and fenofibrate 200 mg/day appears to be effective and safe for the treatment of atherogenic dyslipidemia in combined hyperlipidemia.
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PMID:Effects of adding fenofibrate (200 mg/day) to simvastatin (10 mg/day) in patients with combined hyperlipidemia and metabolic syndrome. 1268 35

Microsomal triglyceride transfer protein (MTP) is rate limiting for the assembly and secretion of apolipoprotein B-containing lipoproteins. Elevated hepatic MTP mRNA level, presumably as a result of impaired insulin signaling, has been implicated in the pathophysiology of dyslipidemia associated with insulin resistance/type 2 diabetes. In this study, we showed that insulin decreases MTP mRNA level mainly through transcriptional regulation in HepG2 cells. We further characterized the corresponding signal transduction pathway, using chemical inhibitors and constitutively active and dominant negative forms of regulatory enzymes. We demonstrated that insulin inhibits MTP gene transcription through MAPK(erk) cascade but not through the PI 3-kinase pathway. Activation of ras through farnesylation is not a prerequisite for the inhibition. In addition, cellular MAPK(erk) and MAPK(p38) activities play a counterbalancing role in regulating the MTP gene transcription. These complex regulations may represent a means to fine-tuning MTP gene transcription in response to a diverse set of environmental stimuli and may have important implications for the onset and development of diabetes-associated dyslipidemia.
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PMID:Regulation of microsomal triglyceride transfer protein gene by insulin in HepG2 cells: roles of MAPKerk and MAPKp38. 1271 35

Patients with combined hyperlipidemia and low high-density lipoprotein (HDL) cholesterol levels may benefit from combination therapy with a statin and niacin; therefore, we assessed the efficacy and safety of rosuvastatin and extended-release (ER) niacin alone and in combination in 270 patients with this atherogenic dyslipidemia. Men and women > or =18 years with fasting total cholesterol levels > or =200 mg/dl, triglycerides 200 to 800 mg/dl, apolipoprotein B > or cf=110 mg/dl, and HDL cholesterol <45 mg/dl were randomized to 1 of 4 treatments in this 24-week, open-label, multicenter trial: rosuvastatin 10 to 40 mg; ER niacin 0.5 to 2 g; rosuvastatin 40 mg/ER niacin 0.5 to 1 g; or rosuvastatin 10 mg/ER niacin 0.5 to 2 g. Percent changes from baseline in low-density lipoprotein (LDL) cholesterol, non-HDL cholesterol, and other lipid measurements at week 24 were determined by analysis of variance, with statistical testing performed separately between the rosuvastatin monotherapy group and each remaining treatment group. Daily doses of rosuvastatin 40 mg reduced LDL and non-HDL cholesterol significantly more than either ER niacin 2 g or rosuvastatin 10 mg/ER niacin 2 g (-48% vs -0.1% and -36% for LDL cholesterol and -49% vs -11% and -38% for non-HDL cholesterol, respectively; p <0.01 for all comparisons); no additional reduction in LDL or non-HDL cholesterol was observed with the combination of rosuvastatin 40 mg/ER niacin 1.0 g (-42% and -47%; p = NS). Triglyceride reductions ranged from -21% (ER niacin monotherapy) to -39% (rosuvastatin 40 mg/ER niacin 1 g), but no observed differences were statistically significant. Compared with rosuvastatin alone, rosuvastatin 10 mg/ER niacin 2 g produced significantly greater increases in HDL cholesterol (11% vs 24%, p <0.001) and apolipoprotein A-I (5% vs 11%, p <0.017). Similar increases in HDL cholesterol and apolipoprotein A-I were noted between the monotherapy groups. Over 24 weeks, rosuvastatin alone was better tolerated than either ER niacin alone or the combinations of rosuvastatin and ER niacin.
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PMID:Beneficial effects of rosuvastatin alone and in combination with extended-release niacin in patients with a combined hyperlipidemia and low high-density lipoprotein cholesterol levels. 1276 21

To compare the effects of atorvastatin, gemfibrozil, and their combination on the components of diabetic dyslipidemia, 44 type 2 diabetic patients with low density lipoprotein cholesterol (LDLc) levels greater than 100 mg/dl and triglyceride levels less than 400 mg/dl were included. Twelve-week treatments with atorvastatin (10-20 mg/d) and gemfibrozil (900-1200 mg/d) were given in random order in an open, cross-over study and then combined (10 mg atorvastatin and 900 mg gemfibrozil) for 12 additional wk. Triglyceride, LDLc, high density lipoprotein cholesterol (HDLc), non-HDLc, apolipoprotein B (apoB), and LDL size were measured at baseline and after each treatment. Atorvastatin was more effective (P < 0.001) in lowering LDLc, non-HDLc, and apoB and in achieving treatment goals, whereas gemfibrozil lowered triglyceride levels more effectively (P < 0.001) and increased LDL size (from 25.59 +/- 0.06 to 25.69 +/- 0.06 nm; P < 0.05). Combined treatment with both drugs reduced LDLc, triglyceride, non-HDLc, and apoB by 26.5%, 24.1%, 30.4%, and 21.8%, respectively; increased HDLc by 4.8% and LDL size by 0.1 nm; and was the most effective treatment in reaching the therapeutic targets, especially in patients with triglyceride levels higher than 150 mg/dl. In conclusion, statins are first choice drugs in diabetic patients with low to moderate risk LDLc, although their combination with fibrates might be the most appropriate treatment, especially when triglyceride levels are above the therapeutic goal.
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PMID:Efficacy of atorvastatin and gemfibrozil, alone and in low dose combination, in the treatment of diabetic dyslipidemia. 1284 67

Excessive weight gain in a subset of intensively treated Diabetes Control and Complications Trial (DCCT) subjects was associated with higher waist to hip ratio; higher triglyceride (TG), low-density lipoprotein (LDL) cholesterol, and apolipoprotein B (ApoB) in the presence of small-dense LDL; and decreased high-density lipoprotein 2 cholesterol (HDL2-C), suggesting that weight gain in these subjects resulted in higher intraabdominal fat (IAF), and an atherosclerotic dyslipidemia mediated through hepatic lipase activity (HL). Objectives were to investigate relationships between IAF, HL, and dyslipidemia and to relate IAF to previous body mass index change during the DCCT. Sixty-one subjects were studied approximately 4 yr after DCCT closeout. IAF was positively related to HL (P < 0.001). IAF positively correlated with logTG (P < 0.001) and ApoB (P < 0.001), and negatively with LDL relative flotation rate (P < 0.001) and logHDL2-C (P = 0.001). HL accounted for most of the relationship between IAF with logHDL2-C and LDL relative flotation rate, and none of the relationship between IAF and logTG or ApoB. DCCT-related body mass index change accounted for a significant portion of logIAF variance measured 4 yr later (P < 0.001). Elevated IAF in subjects with type 1 diabetes was related to an atherosclerotic dyslipidemia similar to that seen in individuals without diabetes who have metabolic syndrome. DCCT-related weight gain positively correlated with subsequent IAF.
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PMID:Visceral obesity, hepatic lipase activity, and dyslipidemia in type 1 diabetes. 1284 91

The aim of this study was to identify the first abnormalities of apolipoprotein B (apoB) metabolism in HIV-infected patients treated by antiretroviral therapy (ART) with protease inhibitors (PIs). The influence of ART on the metabolism of apoB in VLDL, IDL, and LDL was investigated in six patients receiving dual nucleoside reverse transcriptase inhibitors (NRTIs) and PI, and in five patients receiving NRTI and nevirapine. None of the patients had lipodystrophy. The study was performed in the fed state. Each subject received an intravenous injection of a 0.7 mg.kg-1 bolus of l-[1-13C]leucine, immediately followed by a 16 h constant infusion at 0.7 mg.kg-1.h-1. The VLDL- and IDL-apoB concentrations were significantly higher in PI-treated patients compared to non-PI-treated patients. The VLDL-apoB and IDL-apoB production rates were markedly higher in PI-treated patients compared to non-PI-treated patients (54.5 +/- 30.1 vs. 30.9 +/- 8.4 mg.kg-1.d-1, P = 0.04; and 43.5 +/- 20.0 vs. 18.7 +/- 7.8 mg.kg-1.d-1, P = 0.04, respectively). In conclusion, our study shows that patients receiving ART with PI present altered metabolism of the VLDL-IDL-LDL chain compared with patients treated without PI. These data confirm that PI therapy is associated with a physiopathological mechanism for dyslipidemia in addition to the effect of lipodystrophy on lipid metabolism.
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PMID:Increased VLDL-apoB and IDL-apoB production rates in nonlipodystrophic HIV-infected patients on a protease inhibitor-containing regimen: a stable isotope kinetic study. 1286 87

Dyslipidemia accelerates vascular complications of diabetes. Nuclear magnetic resonance (NMR) analysis of lipoprotein subclasses is used to evaluate a mouse model of human familial hypercholesterolemia +/- streptozotocin (STZ)-induced diabetes. A double knockout (DKO) mouse (low-density lipoprotein receptor [LDLr] -/-; apolipoprotein B [apoB] mRNA editing catalytic polypeptide-1 [Apobec1] -/-) was studied. Wild-type (WT) and DKO mice received sham or STZ injections at age 7 weeks, yielding control (WT-C, DKO-C) and diabetic (WT-D, DKO-D) groups. Fasting serum was collected when the mice were killed (age 40 weeks) for Cholestech analysis (Cholestech Corp, Hayward, CA) and NMR lipoprotein subclass profile. By Cholestech, fasting triglyceride and total cholesterol increased in DKO-C versus WT-C. Diabetes further increased total cholesterol in DKO. High-density lipoprotein cholesterol (HDL-C) was similar among all groups. NMR revealed that LDL in all groups was present in a subclass the size of large human LDL and was increased 48-fold in DKO-C versus WT-C animals, but was unaffected by diabetes. HDL was found in a subclass equivalent to large human HDL, and was similar among groups. In conclusion, NMR analysis reveals lipoprotein subclass distributions and the effects of genetic modification and diabetes in mice, but lack of particles the size of human small LDL and small HDL may limit the relevance of the present animal model to human disease.
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PMID:Lipoprotein subclass profiles of hyperlipidemic diabetic mice measured by nuclear magnetic resonance spectroscopy. 1287 Jan 70


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