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:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peroxisome proliferator-activated receptor-gamma (PPARgamma) is a nuclear hormone receptor that functions as a transcriptional regulator in a variety of tissues. PPARgamma activation, e.g., through binding of the synthetic glitazones or thiazolidinediones (TZD), results in a marked improvement in type 2 diabetic patients of insulin and glucose parameters resulting from an improvement of whole body insulin sensitivity. The role of different metabolic tissues (fat, skeletal muscle, liver) in mediating PPARgamma function in glucose and insulin homeostasis is still unclear. Recently, the function of PPARgamma in adipose tissue and skeletal muscle has been intensively characterized by using targeted deletion of PPARgamma in those tissues. In those studies, adipose PPARgamma has been identified as an essential mediator for the maintainance of whole body insulin sensitivity. Two major mechanisms have been described. 1) Adipose PPARgamma protects nonadipose tissue against excessive lipid overload and maintains normal organ function (liver, skeletal muscle); and 2) adipose PPARgamma guarantees a balanced and adequate production of secretion from adipose tissue of adipocytokines such as adiponectin and leptin, which are important mediators of insulin action in peripheral tissues. In contrast to studies in adipose-specific PPARgamma-deficient mice, the data in muscle-specific PPARgamma(-/-) mice demonstrate that whole body insulin sensitivity is, at least in part, relying on an intact PPARgamma system in skeletal muscle. Finally, these early and elegant studies using tissue-specific PPARgamma knockout mouse models pinpoint adipose tissue as the major target of TZD-mediated improvement of hyperlipidemia and insulin sensitization.
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PMID:PPARgamma-mediated insulin sensitization: the importance of fat versus muscle. 1563 49

Adiponectin (ADPN), exclusively expressed and secreted from adipocytes, is a recently discovered protein hormone with anti-atherogenic and anti-inflammatory properties in contrast to other well-known adipocytokines. It has independent negative associations with obesity and hyperinsulinemia/insulin resistance. Apart from chronic renal failure, nephrotic syndrome was suggested as the only renal disease condition associated with raised plasma ADPN levels in adults. We aimed to evaluate the effect of nephrotic state on serum adiponectin (ADPN) levels in pediatric patients with steroid-responsive nephrotic syndrome (SRNS) by comparing the levels in relapse and remission as well as in control subjects and documenting possible relationships between ADPN and proteinuria as well as serum protein/lipid parameters. 34 patients with SRNS and 22 healthy age, sex and BMI-matched control subjects were enrolled into the study. 15 of the 34 SRNS patients had active diseases, and these were known as the SRNS-relapse group (ten relapsed and five newly-diagnosed patients), while the remaining 19 were in complete remission (the SRNS-remission group). Serum ADPN levels, blood chemistry (protein/albumin, triglyceride (TG), cholesterol (Cho) and lipoprotein levels) and 24-hour proteinuria were studied. ADPN levels were determined by ELISA. As expectedly, there were significant alterations in serum protein-lipid parameters and 24-hour proteinuria levels in SRNS patients consistent with their disease activity. SRNS-relapse patients had substantially higher ADPN levels (36.77+/-15.06 (5.61-59.41, median 39.84) microg/ml), compared to those in SRNS-remission and control groups (14.17+/-6.02 (3.28-29.40, median 12.80) microg/ml and 11.84+/-7.53 (2.81-31.46, median 10.85) microg/ml, respectively, p=0.001). There were strong positive correlations between serum ADPN levels and Cho (r=0.637, p=0.000), TG (r=0.516, p=0.002), low density lipoprotein (r=0.614, p=0.000) levels and 24-hour proteinuria (r=0.828, p=0.000) levels, whereas protein (r=-0.695, p=0.000) and albumin (r=0.732, p=0.000) levels were inversely correlated with ADPN levels. Regression analysis showed a significant correlation between ADPN and proteinuria (p=0.000). In conclusion, remarkably increased serum ADPN levels were detected in SRNS-relapse compared to those in SRNS-remission. This phenomenon might be the reflection of a compensatory response to nephrotic state characterized by massive proteinuria, hypoalbuminemia and hyperlipidemia.
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PMID:High serum adiponectin levels during steroid-responsive nephrotic syndrome relapse. 1569 Jan 90

Obesity is defined as increased mass of adipose tissue, conferring a higher risk of cardiovascular and metabolic disorders such as diabetes, hyperlipidemia, and coronary heart disease. To investigate the role of transcriptional factors, which are involved in adipocytes differentiation and adiposity, we have generated peroxisome proliferator-activated receptor (PPAR) gamma or CREB-binding protein (CBP)-deficient mice by gene targeting. Heterozygous PPARgamma-deficient mice were protected from the development of insulin resistance due to adipocyte hypertrophy under a high-fat diet. Heterozygous CBP-deficient mice showed increased insulin sensitivity and were completely protected from body weight gain induced by a high-fat diet. PPARgamma or CBP deficiency results in increased effects of hormones such as adiponectin and leptin. Adiponectin was decreased in obesity and lipoatrophy, and replenishment of adiponectin ameliorated insulin resistance. Moreover, adiponectin-deficient mice showed insulin resistance and atherogenic phenotype. Finally, cDNA encoding adiponectin receptors (AdipoR1/R2) have been identified by expression cloning. The expression of AdipoR1/R2 appears to be inversely regulated by insulin in physiological and pathophysiological states such as fasting/refeeding, insulin deficiency, and hyperinsulinemia models, and it is correlated with adiponectin sensitivity. These results facilitate the understanding of molecular mechanisms of adiponectin actions and obesity-linked diseases such as diabetes and atherosclerosis and propose the molecular targets for anti-diabetic and anti-atherogenic drugs.
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PMID:Nuclear receptors as targets for drug development: molecular mechanisms for regulation of obesity and insulin resistance by peroxisome proliferator-activated receptor gamma, CREB-binding protein, and adiponectin. 1572 3

Obesity and its related disorders, glucose intolerance, hypertension and hyperlipidemia, collectively named the metabolic syndrome, result in substantial cardiovascular morbidity and mortality. Recent data point to several underlying regulatory mechanisms through which obesity links these various outcomes. Adipose tissue is now understood to function not merely as a passive energy storage depot but as an active endocrine organ, producing a variety of bioactive substances termed adipocytokines. Adiponectin, an adipocytokine first described as the most abundant protein produced by adipocytes, appears to serve as a central regulatory protein in many of the physiologic pathways controlling lipid and carbohydrate metabolism, and to mediate various vascular processes. Adiponectin displays both anti-inflammatory and antiatherogenic properties. Unlike other adipocytokines, its levels are paradoxically decreased in obesity and insulin-resistance states including metabolic syndrome and diabetes, as well as hypertension and coronary artery disease. This review will detail the relationship of adiponectin to various features of obesity and insulin-resistance syndromes, as well as its relationship to the cardiovascular complications of these disorders.
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PMID:Adiponectin: linking the metabolic syndrome to its cardiovascular consequences. 1588 74

Adiponectin is emerging as an important molecule in obesity, the metabolic syndrome, and cardiovascular disease. On the other hand, smoking habit is well known to be related to cardiovascular disease and hypertension. To examine the association between adiponectin concentration and smoking habit, we performed an epidemiological survey and an acute exposure test in humans and an experiment in adipocytes to elucidate the mechanism underlying the association between adiponectin and smoking. In the epidemiological study, we enrolled a total of 331 male subjects to examine chronic smoking exposure. Plasma adiponectin was significantly lower (P=0.01) in current smokers (5.3+/-0.3 microg/mL) than in never-smokers (6.5+/-0.4 microg/mL). A significant association between smoking and low adiponectin level was also confirmed in multiple regression analysis including age, body mass index, hypertension, diabetes, hyperlipidemia, and creatinine clearance (never-smokers 6.5+/-0.4 microg/mL; past smokers 5.6+/-0.3 microg/mL; current smokers 5.2+/-0.4 microg/mL; F=4.52; P=0.01). To examine the acute effect of smoking on adiponectin concentration for 12 hours, we measured plasma adiponectin level in 5 male never-smokers before smoking and 3, 6, and 12 hours after smoking, with the result that adiponectin showed a significant decrease after smoking (12 hours; -14.5+/-0.6%; P<0.01). In cultured mouse 3T3-L1 adipocytes, H2O2 and nicotine reduced the mRNA expression and secretion of adiponectin in a dose-dependent manner. Smoking habit is associated with adiponectin concentration in men, and its suppressive effect is mediated in part through direct inhibition of smoking on adiponectin expression in adipocytes.
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PMID:Association of hypoadiponectinemia with smoking habit in men. 1589 61

The present study was performed to investigate the relevance of cholesterol levels of plasma lipoproteins [HDL (high-density lipoprotein), LDL (low-density lipoprotein), IDL (immediate-density lipoprotein), VLDL (very-LDL) and chylomicrons] determined by a novel HPLC method, with adiponectin, which is decreased in Type II diabetes and assumed to be involved in dysregulated metabolism and atherogenesis. Type II diabetic patients who were not treated with insulin, statins and fibrates were enrolled. Study subjects included Type II diabetic patients with normolipidaemia (DM-NL; n=15), type 4 hyperlipidaemia (DM-T4HL; n=13), Type IIa hyperlipidaemia (DM-T2aHL; n=15) and Type IIb hyperlipidaemia (DM-T2bHL; n=13). Fasting blood samples were collected. The serum adiponectin level was lower in DM-T2bHL than in any of the other groups. Cholesterol levels of each lipoprotein fraction, serum triacylglycerol (triglyceride), remnant-like particle-cholesterol, fasting plasma glucose, HbA1c (glycated haemoglobin), age, gender difference and BMI (body mass index) were incorporated into a stepwise regression analysis as independent variables. VLDL-cholesterol correlated inversely with adiponectin independently of age, BMI, gender difference and glycaemic control. Although the mechanisms remain to be explored, serum adiponectin was reduced particularly in Type II diabetics with type IIb hyperlipidaemia and correlated inversely with VLDL-cholesterol. Measuring VLDL-cholesterol may be helpful for understanding the pathological features of diabetic dyslipidaemia.
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PMID:Implications of decreased serum adiponectin for type IIb hyperlipidaemia and increased cholesterol levels of very-low-density lipoprotein in type II diabetic patients. 1590 89

It is proposed that metabolic syndrome X is initiated in the perinatal period as a low-grade systemic inflammatory condition. Increased consumption of energy-dense diets by pregnant women and lactating mothers suppresses the activities of Delta-6 and Delta-5 desaturases not only in maternal tissues but also in fetal liver and the placenta, resulting in decreased plasma and tissue concentrations of long-chain polyunsaturated fatty acids omega-6 arachidonic acid (AA), omega-3 eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA). EPA, DHA, and AA have negative feedback control on tumor necrosis factor-alpha and IL-6 synthesis. Hence, EPA, DHA, and AA deficiencies induced by an energy-dense diet increase generation of tumor necrosis factor-alpha and interleukin-6, markers of inflammation that in turn decrease production of endothelial nitric oxide and adiponectin to induce insulin resistance in maternal and fetal tissues. Increased concentrations of tumor necrosis factor-alpha and interleukin-6 enhance expression and activity of 11beta-hydroxysteroid dehydrogenase type 1 enzyme, which produces abdominal obesity, insulin resistance, hyperlipidemia, hyperphagia, and hyperleptinemia, characteristic features of metabolic syndrome X. Continued consumption of an energy-dense diet in childhood aggravates these molecular events. This implies that supplementation of long-chain polyunsaturated fatty acids (especially AA, EPA, and DHA in appropriate ratios) from the perinatal period through adulthood could prevent, arrest, or postpone development of metabolic syndrome X.
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PMID:Pathophysiology of metabolic syndrome X and its links to the perinatal period. 1592 3

The role of resistin in human biology remains uncertain. We measured serum resistin levels in Japanese patients with (n=111) and without (n=98) type 2 diabetes mellitus and investigated the significance of this hormone in the pathophysiology of diabetes. The levels of serum adiponectin and leptin were also measured. Resistin levels were increased significantly in patients with type 2 diabetes compared with non-diabetic subjects (24.7+/-2.6 vs. 15.0+/-1.2 ng/ml, p=0.0013). However, there was no correlation in either patient group between serum resistin levels and markers of insulin resistance, obesity or hyperlipidaemia. These results were in direct contrast to the data of leptin or adiponectin, both of which were closely related to these clinical markers of diabetes. Multivariate regression analysis on the combined data of the two groups demonstrated that the presence of diabetes and HDL cholesterol levels were significant predictors of serum resistin levels (diabetes: beta=0.159, p=0.035; HDL: beta=-0.172, p=0.039). No correlation was observed between C-reactive protein and resistin adjusted for BMI. Taken together, these findings demonstrate that serum resistin levels are increased in patients with type 2 diabetes, but this increase is not linked to markers of insulin resistance or adiposity. Further studies are necessary to elucidate the significance of serum resistin concentration in human pathophysiology.
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PMID:Increased serum resistin levels in patients with type 2 diabetes are not linked with markers of insulin resistance and adiposity. 1594 45

Obese (fa/fa) Zucker rat is a spontaneous genetic obesity model and, by comparison with lean Zucker rat, exhibits hyperphagia, hyperinsulinemia, and hyperlipidemia. The aim of this study was to examine the physiological difference concerning adiponectin between obese (fa/fa) Zucker rats and control lean Zucker rats. We therefore measured plasma adiponectin level and analyzed adiponectin and adiponectin receptor 1 mRNA expression in retroperitoneal white adipose tissue (RT WAT), brown adipose tissue (BAT), liver, and soleus muscle. We also examined the tissue mRNA expression of peroxisome proliferator-activated receptor alpha (PPAR alpha), PPAR delta, and PPAR gamma, which regulate adiponectin expression sensitivity to a PPAR gamma agonist shown by brown adipocytes from obese (fa/fa) Zucker rats and lean Zucker rats, by measuring adiponectin release from these cells. Plasma adiponectin levels of obese (fa/fa) Zucker rats were significantly higher than those of lean Zucker rats. Adiponectin mRNA expression levels in RT WAT were lower in obese (fa/fa) Zucker rats than in lean Zucker rats, but those in BAT were higher. Adiponectin receptor 1 expression levels in RT WAT, BAT, and liver of obese (fa/fa) Zucker rats were lower than in lean Zucker rats. The expression level of PPAR alpha, PPAR delta, and PPAR gamma in BAT was lower in obese (fa/fa) Zucker rats than in lean Zucker rats. Moreover, the PPAR gamma agonist increased adiponectin release only from the brown adipocytes isolated from lean Zucker rats. It is the conclusive difference between obese (fa/fa) Zucker rats and lean Zucker rats that plasma adiponectin levels of obese (fa/fa) Zucker rats are significantly higher than those of lean Zucker rats. Moreover, we clarified that mRNA expression level of adiponectin receptor 1 in RT WAT, BAT, and liver of obese (fa/fa) Zucker rats is low despite high plasma adiponectin level, and low expression of PPARs in BAT leads to less sensibility of adiponectin release from brown adipocytes to a PPAR gamma agonist in obese (fa/fa) Zucker rats.
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PMID:Physiological difference between obese (fa/fa) Zucker rats and lean Zucker rats concerning adiponectin. 1609 47

The metabolic syndrome is strongly associated with insulin resistance and consists of a constellation of factors such as hypertension and hyperlipidemia that raise the risk for cardiovascular diseases and diabetes mellitus. There is a growing body of evidence to show that 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, statins, reduce cardiovascular-related morbidity and mortality in patients with or without coronary artery disease. Recent clinical observations argue for a simple strategy of considering routine statin therapy for patients with type 2 diabetes. Furthermore, statin therapy is also found to be effective in allowing LDL-cholesterol goal achievement in hypercholesterolemic high-risk patients with the metabolic syndrome. However, the effects of statins on the pathogenesis of the metabolic syndrome remain to be elucidated. Several types of statins are commercially available now. Among them, pravastatin is unique because it is the only statin that has been shown to have protective role against the development of diabetes in a large clinical trial. Moreover, a recent clinical study revealed that pravastatin treatment improved insulin sensitivity in 25 women with the metabolic syndrome with impaired glucose intolerance. These observations let us to speculate that pravastatin is a promising strategy for the treatment of hypercholesterolemic patients with the metabolic syndrome. It may improve the insulin sensitivity in these patients and subsequently prevent the development of type 2 diabetes. In this paper, we would like to propose the possible ways of testing our hypothesis as follows. (1) Does pravastatin treatment improve insulin resistance in patients of the metabolic syndrome or in insulin resistant hypertensive or obese patients? If the answers are yes, are these beneficial effects of pravastatin superior to those of other anti-hyperlipidemic statins with equihypolipidemic properties? (2) Does pravastatin treatment actually reduce the development of diabetes in these insulin resistant patients? At that time, does pravastatin treatment increase serum levels of adiponectin, a key adipokine with insulin-sensitizing property? How about the effects of pravastatin treatment on adipokines that could elicit insulin resistance such as tumor necrosis factor-alpha? These clinical studies will provide further information whether pravastatin treatment can improve insulin resistance and subsequently reduce the development of diabetes in insulin resistant patients with the metabolic syndrome.
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PMID:Protective role of pravastatin in the pathogenesis of the metabolic syndrome. 1617 51


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