Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was performed to compare concentrations of pro-inflammatory cytokines, such as interleukin 6 (IL-6), tumor necrosis factor alpha (TNF-alpha) as well as acute-phase protein, such as C-reactive protein (CRP) between subjects with normal glucose tolerance (NGT) and impaired glucose tolerance (IGT). The purpose of this study was to verify whether the pro-inflammatory cytokine-induced acute-phase response is a pathogenic mechanism in type 2 diabetes in elderly Korean women. A total of 1737 elderly subjects aged over 60 years participated in a population based study in Seoul, Korea (SWS Study 1999). Amongst them, a total of 232 non-smoking and non-diabetic female subjects aged 60-89 years was randomly selected and compared with each other. Higher serum high-sensitivity CRP (hs-CRP) concentrations were shown in subjects with IGT than those with normal glucose tolerance (median 1.2 versus 0.9, P < 0.05). Moreover, a relationship between serum hs-CRP concentrations and many components of the metabolic syndrome were detected. Serum pro-inflammatory cytokine IL-6 or TNF-alpha concentrations, however, were neither increased in subjects with IGT nor closely correlated with the components of the metabolic syndrome. In multiple regression analysis with stepwise selection method using hs-CRP as a dependent variable, it was found that white blood cell (WBC) counts, body mass index (BMI), fasting insulin, post-load 2h glucose, hematocrit and LDL cholesterol were significant independent variables. Our study confirms that increased acute-phase reaction is associated with impaired glucose tolerance and the metabolic syndrome in elderly Korean women. However, the hypothesis that pro-inflammatory cytokine-induced systemic inflammation is an early metabolic defect prior to onset of type 2 diabetes, is not supported in our study of elderly Korean women.
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PMID:Comparison of serum concentrations of C-reactive protein, TNF-alpha, and interleukin 6 between elderly Korean women with normal and impaired glucose tolerance. 1506 2

Advances in adipose tissue biology over the past 10 years have led to an improved understanding of the mechanisms linking obesity with the metabolic syndrome and other complications. Obesity is characterized by a chronic, systemic low-grade state of inflammation. Biomarkers of inflammation, such as the leukocyte count, tumor necrosis factor-alpha (TNF-alpha), interleukin 6 (IL-6), and C-reactive protein, are increased in obesity, associated with insulin resistance, and predict the development of type 2 diabetes and cardiovascular disease. It is now clear that the adipocyte is an active participant in the generation of the inflammatory state in obesity. Adipocytes secrete a variety of cytokines, including IL-6 and TNF-alpha, that promote inflammation. Moreover, recent studies suggest that obesity is associated with an increase in adipose tissue macrophages, which also participate in the inflammatory process through the elaboration of cytokines. An improved understanding of the role of adipose tissue in the activation of inflammatory pathways may suggest novel treatment and prevention strategies aimed at reducing obesity-associated morbidities and mortality.
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PMID:The evolving role of inflammation in obesity and the metabolic syndrome. 1566 21

Metformin [2-(N,N-dimethylcarbamimidoyl)guanidine] is a drug used in the treatment of type 2 diabetes. Recent studies have suggested that metformin may have effects in addition to lowering serum glucose concentrations (e.g., anti-inflammatory). The aim of the present study was to determine whether metformin prevents the inflammatory reaction and liver damage in a model of postsurgical sepsis. Accordingly, rats underwent 2/3 partial hepatectomy (PH; or sham surgery); 48 h after surgery, animals were administered endotoxin (LPS; 1.5 mg/kg i.v.). Both PH and LPS alone caused some minor liver damage. However, their combined effect (PH/LPS) was synergistic, leading to robust hepatic damage, as indicated by plasma enzymes and histological assessment. Although metformin treatment did not alter changes caused by PH alone, it almost completely blunted the effects of LPS in the PH/LPS group. Increases in biomarkers of inflammation (e.g., interleukin 6, interferon gamma, and neutrophil number) were also blunted by metformin treatment. Furthermore, PH/LPS caused a >200x increase in hepatic plasminogen activator inhibitor 1 (PAI-1) mRNA expression and plasma PAI-1 protein. These increases were associated with inhibition of hepatic urokinase plasminogen activator activity and an increase in fibrin deposition, indicative of local thrombosis. These effects were markedly reduced by metformin treatment. In conclusion, these data demonstrate that metformin prevents liver damage in a model of postsurgical sepsis in rats by decreasing proinflammatory and hemostatic responses.
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PMID:Metformin prevents endotoxin-induced liver injury after partial hepatectomy. 1632 56

The pathophysiology of insulin resistance and atherosclerosis may share a common inflammatory basis, maintaining endothelial dysfunction, suggesting why patients with T2DM (Type II diabetes mellitus) have an impaired prognosis after an MI (myocardial infarction), but it remains unclear how these parameters are inter-related. Forty patients with an MI (20 patients with and 20 patients without T2DM) took part in this cross-sectional study. Endothelium-dependent [FMD (flow-mediated dilation)] and -independent [NTG (nitroglycerine)] vasodilatation (determined by ultrasound), S(I) (insulin sensitivity index; determined by isoglycaemic-hyperinsulinaemic clamp) and serum levels of CRP (C-reactive protein), TNF-alpha (tumour necrosis factor-alpha), IL-6 (interleukin 6), resistin and adiponectin (determined by ELISA) were measured. Associations between FMD/NTG and S(I), and CRP, TNF-alpha, IL-6, adiponectin, resistin, lipids, blood pressure, BMI (body mass index) and brachial artery diameter were then assessed. FMD (2.1 compared with 4.7%; P<0.05), NTG (14.9 compared with 21.2%; P<0.05) and S(I) [4.3 compared with 6.6 10(-4) dl.kg(-1) of body weight.min(-1).(mu-units/ml)(-1); P<0.05], and adiponectin levels (3.1 compared with 6.4 microg/ml; P<0.01) were all lower in patients with T2DM. TNF-alpha (6.9 compared with 1.8 pg/ml; P<0.01) and IL-6 (2.3 compared with 1.2 pg/ml; P<0.01) levels were higher in patients with T2DM, whereas differences in CRP and resistin levels did not attain statistical significance between the two groups. TNF-alpha concentrations and brachial artery diameter were negatively, whereas S(I) was positively, correlated with FMD. Adjustment for age weakened the association for S(I), whereas TNF-alpha and brachial artery diameter remained significantly associated with FMD after adjustment for group, age and BMI. Endothelial dysfunction and low-grade inflammation co-exist in T2DM after MI. These results suggest that the endothelium is negatively impacted in multiple ways by the diabetic state after an MI.
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PMID:Increased levels of tumour necrosis factor-alpha (TNF-alpha) in patients with Type II diabetes mellitus after myocardial infarction are related to endothelial dysfunction. 1646 46

Normal metabolic balance is maintained by a complex homeostatic system involving multiple tissues and organs. Acquired or inherited defects associated to environmental factors in any part of this system can lead to metabolic disorders such as the syndrome X which is presently a frequent syndrome in industrialized countries. It is characterized by a cluster of risk factors of atherosclerosis including insulin resistance, hyperinsulinemia, impaired glucose tolerance or type 2 diabetes, hypertension, dyslipidemia, and coagulation abnormalities. Its pathophysiology is likely to involve insulin resistance at the level of both skeletal muscle and visceral adipose tissue and altered fluxes of metabolic substrates between these tissues that in turn impair liver metabolism. Therapeutic intervention favours at present diet and exercise prescriptions. In addition, if necessary, specific treatment of the metabolic disorders is required. In the treatment of insulin resistance, new promising drugs are likely to be used in the next future. In this regard, adipose tissue, once thought to function primarily as a passive depot for the storage of excess lipid, is now understood to play a much more active role in metabolic regulation, secreting a variety of metabolic hormones and actively functioning to prevent deleterious lipid accumulation in other tissues and to modulate the insulin resistance. Here, we review new advances in our understanding of mechanisms leading to insulin resistance and type 2 diabetes from the perspective of the role and interactions of recently identified adipocyte-specific chemical messengers, the adipocytokines, such as adiponectin, tumor necrosis factor-alpha, interleukin 6, and resistin.
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PMID:[Adipocytokins, obesity and development of type 2 diabetes]. 1659 99

Inflammation is frequently present in the visceral fat and vasculature in certain patients with cardiovascular disease (CVD) and/or adult onset Diabetes Mellitus Type II (NIDDM). An hypothesis is presented which argues that repeated acute or chronic psychologically stressful states may cause this inflammatory process. The mediators are the major stress hormones norepinephrine (NE) and epinephrine (E) and cortisol together with components of the renin-angiotensin system (RAS), the proinflammatory cytokines (PIC), as well as free fatty acids (ffa), the latter as a result of lipolysis of neutral fat. NE/E commence this process by activation of NF(kappa)B in macrophages, visceral fat, and endothelial cells which induces the production of toll-like receptors which, when engaged, produce a cascade of inflammatory reactions comprising the acute phase response (APR) of the innate immune system (IIS). The inflammatory process is most marked in the visceral fat depot as well as the vasculature, and is involved in the metabolic events which culminate in the insulin resistance/metabolic syndromes (IRS/MS), the components of which precede and comprise the major risk factors for CVD and NIDDM. The visceral fat has both the proclivity and capacity to undergo inflammation. It contains a rich blood and nerve supply as well as proinflammatory molecules such as interleukin 6 (IL-6), tumor necrosis factor alpha (TNFalpha), leptin, and resistin, the adipocytokines, and acute phase proteins (APP) which are activated from adipocytes and/or macrophages by sympathetic signaling. The inflammation is linked to fat accumulation. Cortisol, IL-6, angiotensin II (angio II), the enzyme 11(beta) hydroxysteroid dehydrogenase-1 and positive energy balance, the latter due to increased appetite induced by the major stress hormones, are factors which promote fat accumulation and are linked to obesity. There is also the capacity of the host to limit fat expansion. Sympathetic signaling induces TNF which stimulates the production of IL-6 and leptin from adipocytes; these molecules promote lipolysis and ffa fluxes from adipocytes. Moreover, catecholamines and certain PIC inhibit lipoprotein lipase, a fat synthesizing enzyme. The brain also participates in the regulation of fat cell mass; it is informed of fat depot mass by molecules such as leptin and ffa. Leptin stimulates corticotrophin releasing hormone in the brain which stimulates the SNS and HPA axes, i.e. the stress response. Also, ffa through portal signaling from the liver evoke a similar stress response which, like the response to psychologic stress, evokes an innate immune response (IIR), tending to limit fat expansion, which culminates in inflammatory cascades, the IRS-MS, obesity and disease if prolonged. Thus, the brain also has the capacity to limit fat expansion. A competition apparently exists between fat expansion and fat loss. In "western" cultures, with excessive food ingestion, obesity frequently results. The linkage of inflammation to fat metabolism is apparent since weight loss diminishes the concentration of inflammatory mediators. The linkage of stress to inflammation is all the more apparent since the efferent pathways from the brain in response to fat signals, which results in inflammation to decrease and limit fat cell mass, is the same as the response to psychologic stress, which strengthens the hypothesis presented herein.
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PMID:The inflammatory consequences of psychologic stress: relationship to insulin resistance, obesity, atherosclerosis and diabetes mellitus, type II. 1678 Oct 84

The prevalence of obesity has been increasing dramatically in the last decades in the whole world, not only in industrialized countries but also in developing areas. A major complication of obesity is insulin resistance and type 2 diabetes. Diabetes is also rapidly increasing world-wide--reaching a prevalence in adults of approx. 5-6% in Central Europe and in the US, and more than 50% in specific, genetically prone populations. This article reviews pathogenetic mechanisms linking obesity and type 2 diabetes. Emphasis is placed on the observation that excessive amounts of adipocytes are associated with an impairment of insulin sensitivity, a key feature of the "metabolic syndrome". This is a cluster of metabolic abnormalities such as type 2 diabetes, hypertension and dyslipidemia; all of them are enhanced by the presence of visceral (abdominal) obesity and all contribute to the increased cardiovascular risk observed in these patients. Besides release of free fatty acids, adipocytes secrete substances that contribute to peripheral insulin resistance, including adiponectin, resistin, TNF-alpha and interleukin 6. Increased turnover of free fatty acids interferes with intracellular metabolism of glucose in the muscle, and they exert lipotoxic effect on pancreatic beta-cells. The pre-receptor metabolism of cortisol is enhanced in visceral adipose tissue by activation of 11 beta-hydroxysteroid dehydrogenase type 1. A new class of anti-diabetic drugs (thiazolidinediones, or glitazones) bind to peroxisome proliferator activated receptor (PPAR-gamma) and lower thereby plasma free fatty acids and cytokine production in adipocytes, in addition to a decrease of resistin and an increase in adiponectin observed in animals, resulting in an overall increase in insulin sensitivity and in an improvement of glucose homeostasis. However, the first step to avoid insulin resistance and prevent the development of diabetes should be a reduction in body weight in overweight subjects, and an increase in physical activity. There are now three published randomized controlled trials demonstrating that in high risk individuals, life style changes with modest weight lost, associated with diminished fat intake and an increase in fruit and vegetable consumption result in marked inhibition of the transition from the prediabetic state to manifest type 2 diabetes.
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PMID:From obesity to diabetes. 1724 79

Low adiponectin expression is common in obesity and is tightly linked to insulin resistance and fat mass expansion. Whereas normal adipocytes offer effective metabolic buffering through well-controlled release and uptake of free fatty acids on demand, adipocyte expansion induced by caloric excess and modulated by genetic, regional, and systemic factors elicits major unfavorable changes in fat cell phenotypes. Large, dysfunctional adipocytes show increased lipolysis and enhanced expression and secretion of proinflammatory and pro-oxidative cytokines. Low adiponectin secretion is a hallmark of impaired adipocyte function; its secretion is inhibited by cytokines such as tumor necrosis factor alpha, interleukin 6 and plasminogen activator inhibitor 1 and by high oxidative stress induced by increased fatty acids that activate nicotinamide adenine dinucleotide phosphate-oxidase. The ensuing hypoadiponectinemia may aggravate insulin resistance and facilitate the evolution of type 2 diabetes. Only massive weight loss allows true and sustained recovery of normal fat cell function as reflected by adiponectin secretion.
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PMID:Hypoadiponectinemia as a marker of adipocyte dysfunction--part II: the functional significance of low adiponectin secretion. 1805 13

Chronic inflammation has been linked with an increased risk of type 2 diabetes and cardiovascular disease. As an endocrine and inflammatory organ, adipose tissue is an important source of circulating pro-inflammatory cytokines. Current evidence strongly supports that chronic inflammation is associated with enlarged body fat mass. Moreover, inflammation is independently linked with abdominal, especially visceral fat mass, possibly due to the regional variation in adipose tissue cytokine production. In addition to pharmacological approaches, lifestyle modifications have been advocated for the treatment of chronic inflammation. A number of studies have indicated that either weight loss via energy restriction, or energy restriction plus other strategies (aerobic exercise, behavioral counseling, and liposuction), could reduce chronic inflammation. While the amount of weight loss tends to be important, exercise and other strategies may have additional effects. A few studies have reported weight loss effects on adipose tissue cytokine production. Weight loss reduces subcutaneous adipose tissue production of pro-inflammatory cytokines (i.e. interleukin 6, tumor necrosis factor alpha) and increases adipose expression of anti-inflammatory cytokines (i.e. interleukin 10, interleukin 1 receptor antagonist). More studies are needed to investigate the role of regional adipose tissue cytokine production in regulation of inflammation and the modulating effects of weight loss.
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PMID:Chronic inflammation: role of adipose tissue and modulation by weight loss. 1822 Jun 15

The metabolic syndrome (MetS) is associated with an increased incidence of diabetes and coronary heart disease. Postprandial lipemia is a prominent feature of dyslipidemia in both type 2 diabetes mellitus and MetS and is also associated with coronary heart disease. Oxidative stress and inflammation are pivotal in all stages of atherosclerosis; however, there is a paucity of data on postprandial oxidative stress and inflammation in subjects with MetS. Thus, the primary aim of this study was to compare the postprandial effects of an energy-dense, high-fat, fast-food-style (FFS) meal with an American Heart Association (AHA)-recommended heart-healthy meal on biomarkers of oxidative stress and inflammation in subjects with MetS. A total of 11 subjects with MetS completed the study. Glucose levels were significantly increased 2 hours after both FFS and AHA diets (P < .0001), and high-density lipoprotein cholesterol levels significantly decreased in FFS diet but not in the AHA diet (P for interaction < .05). Total triglyceride levels significantly increased postprandially only in the FFS meal but not in the AHA meal (P for interaction = .03). Plasma thiobarbituric acid reactive substances and malondialdehyde + hydroxynonenal increased significantly with time in both dietary groups, and the postprandial increase was greater in the FFS diet compared to the AHA diet (P < .0005). Serum high-sensitivity C-reactive protein, interleukin 6, and tumor necrosis factor levels did not change with time or dietary treatment. The postprandial increase in interleukin 1b was significantly higher with the FFS meal, thus resulting in significant differences between both treatments (P for interaction = .03). Thus, in subjects with MetS, consumption of an energy-dense, fatty meal (FFS breakfast) results in increased postprandial oxidative stress compared to a heart-healthy meal (AHA).
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PMID:High-fat, energy-dense, fast-food-style breakfast results in an increase in oxidative stress in metabolic syndrome. 1850 72


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