Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of adipocytes as protein secreting cells has been known for almost 15 years. Most of these proteins have known biological activity and are called adipokines. However, only a few of the adipokines have been shown to regulate insulin sensitivity. The latter effects are direct or indirect. The adipokines regulating insulin sensitivity are tumor necrosis factor alpha, adiponectin, interleukin-6, resistin and leptin. This review examines the mechanism how these adipokines influence insulin sensitivity, how the adipocyte production of the adipokines is regulated and if genetic variance in the genes encoding for adipokines is important for the development of type 2 diabetes mellitus.
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PMID:Insulin resistance in type 2 diabetes -- role of the adipokines. 1589 52

Adipose tissue produces and secretes multiple adipokines. Most studies on adipokine production/expression have been performed on whole adipose tissue. In addition, data concerning an overall of adipokine expression are scarce and can be heterogeneous depending on the obesity model studied. Our first aim was to compare the expression of adipokines involved in the interplay between obesity and insulin resistance in isolated adipocytes from different mouse models of obesity displaying different levels of weight gain and insulin sensitivity. The second aim was to determine perigonadal/subcutaneous ratio of each adipokine. Only resistin expression was decreased in obese mice without modifications in glucose and insulin blood levels. In addition to decreased levels of resistin, obesity models associated with hyperglycemia and hyperinsulinemia presented an increased expression of leptin and tumor necrosis factor-alpha (TNFalpha). Obese and diabetic mice were the only animals to exhibit high expression of plasminogen activator inhibitor type-1 and interleukin-6. All adipokines except TNFalpha were more heavily expressed in perigonadal than in subcutaneous adipocytes. Interestingly, fat-enriched diet and overweight on their own did not modify the distribution of adipokines between the two fat depots. However, severe obesity modified the distribution of proinflammatory adipokines. In conclusion, the level and number of adipokines with altered expression increased with obesity and hyperinsulinemia in mice. The physiopathological impact of depot-specific differences of adipokine expression in adipocytes remains to be clarified.
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PMID:Adipokine expression profile in adipocytes of different mouse models of obesity. 1637 31

In the present study, we explore the role of decreased renal function and a genetic polymorphism on the recently discovered protein resistin, apparently able to inhibit hepatic insulin action in mice. We also investigate possible links with inflammation and the insulin resistance present in patients with chronic kidney disease (CKD). This is a post hoc, cross-sectional study comparing 239 prevalent CKD patients with varying degrees of renal function impairment with an age- and gender-matched randomly selected control group of 25 individuals. Glomerular filtration rate (GFR) was estimated by the mean of urea and creatinine clearance (24-h urine samples) (n=204) or by iohexol clearance (n=60). Plasma analysis of blood lipids, insulin, glucose, inflammatory markers (high-sensitivity C-reactive protein, interleukin-6, tumor necrosis factor-alpha, vascular cellular adhesion molecule, intercellular adhesion molecule) and resistin (kit from LINCO Research, St Charles, MS) was performed using commercially available assays or routine methods. Insulin resistance was estimated by quantitative insulin-sensitivity check index (QUICKI) and homeostasis model assessment for insulin resistance (HOMA-IR) and body composition by dual-energy X-ray absorptiometry. Genotyping of a C/G promoter single nucleotide polymorphism (n=168) at position -180 of the resistin gene was performed by PyroSequencing. Serum levels of resistin were markedly elevated in the CKD patients with both advanced (39.9+/-1.3 ng/ml) and mild to moderate (23.2+/-1.0 ng/ml) renal function impairment, as compared to controls (8.5+/-0.7 ng/ml; P<0.001). In a multiple linear regression model in patients (adjusted r(2)=0.60), only GFR (beta=3.4; P<0.0001), lean body mass (beta=2.2; P<0.001) and the inflammatory markers were independently associated with circulating resistin levels. There was a weak but significant impact of -180 C/G genotype on plasma levels of resistin (median 43.0+/-2.4 ng/ml in CC, 37.5+/-2.0 ng/ml in CG, and 41.1+/-4.9 ng/ml in GG; P<0.05). Univariate analysis of non-diabetic patients and controls showed that serum resistin was associated with markers of glucose metabolism. However, in a multiple regression model, resistin, as well as all the measured markers of inflammation, was only associated with insulin resistance if GFR was not taken into account. Circulating resistin levels are strongly associated with both GFR and inflammatory biomarkers in CKD. As the significant relationship between plasma resistin levels and insulin resistance was lost following the correction for GFR, resistin is not a likely mediator of insulin resistance in patients with CKD. Renal function is an important factor to take into account in clinical studies relating insulin sensitivity to inflammatory biomarkers in CKD as well as in patients with diabetes mellitus, who often have an impaired renal function.
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PMID:Elevated resistin levels in chronic kidney disease are associated with decreased glomerular filtration rate and inflammation, but not with insulin resistance. 1698 32

During the last decades, nutritional fat intake has continuously inflated in parallel with an enormous rise in the prevalence of obesity and type-2 diabetes in adults but increasingly also in adolescents and even children. Augmented fat intake is associated with an increased mass of adipose tissue which releases free fatty acids (FFA) but also hormones and cytokines such as leptin, adiponectin, resistin, tumor necrosis factor-a and interleukin-6. In particular, FFA decrease insulin-mediated glucose transport/ phosphorylation in skeletal muscle and impair suppression of glucose production by the liver, indicating insulin resistance. In addition, ectopic lipid storage in both liver and skeletal muscle has recently been related to reduced insulin sensitivity. In conclusion, increased fat intake and expanded body fat are now held responsible for increased FFA availability and hormonal changes which may lead to insulin resistance and type- 2 diabetes.
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PMID:Adipotoxicity and the insulin resistance syndrome. 1643 24

Type 2 diabetes mellitus is a major cause of morbidity and mortality worldwide, and the prevalence is set to increase dramatically over the coming decades. Understanding the metabolic pathways that lead to type 2 diabetes is therefore an important healthcare objective. Novel investigational techniques based on magnetic resonance spectroscopy (MRS) have allowed real-time insight into the molecular defects in patients with type 2 diabetes, revealing that insulin resistance is a product of decreased insulin-stimulated skeletal muscle glycogen synthesis, which can mostly be attributed to decreased insulin-stimulated glucose transport (Glut 4) activity. This defect appears to be a result of intracellular lipid-induced inhibition of insulin-stimulated insulin-receptor substrate (IRS)-1 tyrosine phosphorylation resulting in reduced IRS-1-associated phosphatidyl inositol 3 kinase activity. The hypothesis that insulin resistance is a result of accumulation of intracellular lipid metabolites (e.g., fatty acyl CoAs, diacylglycerol) in skeletal muscle and hepatocytes is supported by observations in patients and mouse models of lipodystrophy. Furthermore, the increase in hepatic insulin sensitivity observed in patients with type 2 diabetes following weight loss is also accompanied by a significant reduction in intrahepatic fat without any changes in circulating adipocytokines (interleukin-6, resistin, leptin). Finally, recent MRS studies in healthy, lean, elderly subjects and lean insulin-resistant offspring of parents with type 2 diabetes have demonstrated that reduced mitochondrial activity may also lead to increased intramyocellular lipid content and insulin resistance in skeletal muscle in these individuals. In summary, in vivo MRS has proved to be an important tool for elucidating the causal chain of events that causes insulin resistance. Understanding the cellular mechanism(s) of insulin resistance in turn offers the prospect of better targeted and more effective therapeutic interventions for treatment and prevention of type 2 diabetes.
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PMID:Etiology of insulin resistance. 1656 42

It now appears that, in most obese patients, obesity is associated with a low-grade inflammation of white adipose tissue (WAT) resulting from chronic activation of the innate immune system and which can subsequently lead to insulin resistance, impaired glucose tolerance and even diabetes. WAT is the physiological site of energy storage as lipids. In addition, it has been more recently recognized as an active participant in numerous physiological and pathophysiological processes. In obesity, WAT is characterized by an increased production and secretion of a wide range of inflammatory molecules including TNF-alpha and interleukin-6 (IL-6), which may have local effects on WAT physiology but also systemic effects on other organs. Recent data indicate that obese WAT is infiltrated by macrophages, which may be a major source of locally-produced pro-inflammatory cytokines. Interestingly, weight loss is associated with a reduction in the macrophage infiltration of WAT and an improvement of the inflammatory profile of gene expression. Several factors derived not only from adipocytes but also from infiltrated macrophages probably contribute to the pathogenesis of insulin resistance. Most of them are overproduced during obesity, including leptin, TNF-alpha, IL-6 and resistin. Conversely, expression and plasma levels of adiponectin, an insulin-sensitising effector, are down-regulated during obesity. Leptin could modulate TNF-alpha production and macrophage activation. TNF-alpha is overproduced in adipose tissue of several rodent models of obesity and has an important role in the pathogenesis of insulin resistance in these species. However, its actual involvement in glucose metabolism disorders in humans remains controversial. IL-6 production by human adipose tissue increases during obesity. It may induce hepatic CRP synthesis and may promote the onset of cardiovascular complications. Both TNF-alpha and IL-6 can alter insulin sensitivity by triggering different key steps in the insulin signalling pathway. In rodents, resistin can induce insulin resistance, while its implication in the control of insulin sensitivity is still a matter of debate in humans. Adiponectin is highly expressed in WAT, and circulating adiponectin levels are decreased in subjects with obesity-related insulin resistance, type 2 diabetes and coronary heart disease. Adiponectin inhibits liver neoglucogenesis and promotes fatty acid oxidation in skeletal muscle. In addition, adiponectin counteracts the pro-inflammatory effects of TNF-alpha on the arterial wall and probably protects against the development of arteriosclerosis. In obesity, the pro-inflammatory effects of cytokines through intracellular signalling pathways involve the NF-kappaB and JNK systems. Genetic or pharmacological manipulations of these effectors of the inflammatory response have been shown to modulate insulin sensitivity in different animal models. In humans, it has been suggested that the improved glucose tolerance observed in the presence of thiazolidinediones or statins is likely related to their anti-inflammatory properties. Thus, it can be considered that obesity corresponds to a sub-clinical inflammatory condition that promotes the production of pro-inflammatory factors involved in the pathogenesis of insulin resistance.
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PMID:Recent advances in the relationship between obesity, inflammation, and insulin resistance. 1661 57

The traditional function attributed to white adipose tissue of energy storage in the form of triglycerides has been challenged by results from recent studies, showing that adipose tissue is, in fact, a highly active metabolic and endocrine organ. A radical change in perspective followed the discovery of a large number of proteins secreted from white adipocytes, such as leptin, resistin, adiponectin, adipsin, acylation-stimulating protein, angiotensinogen, tumour necrosis factor a, interleukin-6, retinol-binding protein, plasminogen activator inhibitor-1, tissue factor, fasting-induced adipose factor, fibrinogen/angiopoetin-related protein, and metallothionein. The effects of specific proteins may be either autocrine or paracrine, meaning that they might act in adipose tissue itself or in more distant target tissues. Some of these proteins induce insulin resistance, some play a role in glucose and lipid metabolism, some are inflammatory cytokines, while others are involved in vascular haemostasis. The key challenges for future investigations of adipose tissue's secretory functions will be to identify all of its secreted proteins, to establish the function of each secreted protein, and to assess the pathophysiological consequences of changes in adipocyte protein production due to problems, such as obesity, fasting, or diabetes mellitus type 2.
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PMID:[Adipose tissue as an endocrine organ]. 1664 Jan 91

Cardiovascular disease remains a major cause of morbidity and mortality in end-stage renal disease patients. As traditional risk factors cannot alone explain the unacceptable high prevalence and incidence of cardiovascular disease in this high-risk population, inflammation (interrelated to insulin resistance, oxidative stress, wasting and endothelial dysfunction) has been suggested to be a significant contributor. Recent studies show that the adipose tissue is a complex organ with functions far beyond the mere storage of energy. Indeed, it has been shown that fat tissue secretes a number of adipokines including leptin, adiponectin and visfatin, as well as a cytokines (here defined as signaling proteins mainly secreted by other cells present in adipose tissue, but sometimes also to a lesser degree by adipocytes per se), such as resistin, tumor-necrosis factor-alpha and interleukin-6. Adipokine serum levels are markedly elevated in chronic kidney disease, probably due to decreased renal excretion. Evidence suggests that they may have pro-inflammatory effects as well as contribute to metabolic derangements. Much research is thus still needed to elucidate the likely complex interactions between different fat tissue depots, muscle tissue and its' effects on inflammation, vascular health and outcome in this high-risk population.
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PMID:Adipose tissue and inflammation in chronic kidney disease. 1692 40

Clinical wasting is an important risk factor for mortality in uremic patients and is reported to have a prevalence of 30-60%. 'Malnutrition' is often inappropriately used to describe a group of nutritional abnormalities in uremic patients, which are characterized by anorexia, increased basal metabolic rate, loss of lean body mass, and declining levels of serum proteins. This syndrome--more accurately described as 'cachexia'--manifests as growth failure in children with uremia. Acidosis and inflammation are important causes of uremic cachexia but the underlying molecular mechanism is not well understood. Concentrations of circulating cytokines, such as leptin, tumor necrosis factor-alpha, interleukin-1, and interleukin-6, are elevated in patients with end-stage renal disease and correlate with the degree of cachexia in these individuals. Other energy-modulating hormones such as ghrelin, and adipokines such as adiponectin and resistin, are also perturbed in uremia and could contribute to nutritional abnormalities. We recently showed that elevated levels of circulating cytokines might be an important contributor to uremia-associated cachexia via signaling through the central melanocortin system. Small-molecule melanocortin antagonists, which are biologically active when administered orally or intraperitoneally, are now available and have been used successfully to ameliorate experimental cachexia. These findings could form the basis of a novel therapeutic strategy for uremic cachexia.
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PMID:Mechanisms of disease: Cytokine and adipokine signaling in uremic cachexia. 1694 Oct 45

The mechanisms by which thiazolidinediones exert beneficial effects on the endothelium are still not clear. We examined the effects of rosiglitazone on the plasma markers of metabolic control (glucose, insulin, adiponectin, resistin, and lipid profiles), markers of inflammation (high-sensitivity C-reactive protein [CRP], interleukin-6, soluble CD40 ligand, intercellular adhesion molecule-1, and vascular cell adhesion molecule-1), and markers of vasoreactivity (asymmetric dimethylarginine [ADMA] and endothelin-1) and analyzed the relations between changes in endothelium-dependent flow-mediated dilation of the brachial artery and changes in these markers to elucidate their roles in mediating the vascular protective effects of rosiglitazone. Of 70 nondiabetic patients who met a modified National Cholesterol Education Program definition of the metabolic syndrome, 35 were randomized to receive rosiglitazone (4 mg/day) and 35 to receive placebo for 8 weeks. At study end, treatment with rosiglitazone had significantly reduced plasma insulin (-25%, p = 0.004) and resistin (-16%, p <0.001), increased adiponectin (164%, p <0.001), low-density lipoprotein cholesterol (16%, p = 0.005), and apolipoprotein-B (14%, p = 0.003), and decreased CRP (-30%, p = 0.005), soluble CD40 ligand (-20%, p = 0.014), ADMA (-16%, p <0.001), and endothelin-1 (-11%, p <0.001) concentrations and systolic and diastolic blood pressures. Rosiglitazone treatment significantly improved flow-mediated dilation (p <0.001) and nitroglycerin-induced vasodilation (p = 0.001) of the right brachial artery. On multivariate analysis, changes in ADMA, endothelin-1, and CRP were independent predictors of improved endothelial reactivity with rosiglitazone. In conclusion, we have, for the first time, demonstrated the independent associations between the improvement in flow-mediated dilation and reductions in ADMA, endothelin-1, and CRP after 8 weeks of treatment with rosiglitazone in nondiabetic patients with the metabolic syndrome. These findings suggest that decreases in ADMA, endothelin-1, and CRP may serve as possible mechanisms for the improvement in endothelial function conferred by rosiglitazone treatment.
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PMID:Relation of improvement in endothelium-dependent flow-mediated vasodilation after rosiglitazone to changes in asymmetric dimethylarginine, endothelin-1, and C-reactive protein in nondiabetic patients with the metabolic syndrome. 1702 71


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