Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Numerous studies have demonstrated that high blood pressure substantially increases the risk of microvascular and macrovascular complications in patients with type 2 diabetes mellitus (T2DM). Currently, we found that serum resistin, an adipocyte- and monocyte-derived cytokine, was positively correlated with several components of the metabolic syndrome, including hypertension in T2DM. To investigate the association of resistin with an etiologic difference among subjects with hypertension with T2DM, hypertension without T2DM, and normotensive T2DM, we analyzed 210 subjects, including 91 with hypertension with T2DM, 55 with hypertension without T2DM, and 64 with normotensive T2DM. Serum resistin level was higher in subjects with hypertension with T2DM, followed by subjects with normotensive T2DM and hypertension without T2DM, irrespective of antihypertensive treatment status (20.9+/-17.6 and 14.0+/-8.9 versus 11.2+/-7.6 ng/mL, respectively; P<0.01). Simple regression analysis revealed that resistin positively correlated with blood pressure (systolic blood pressure: r=0.29, P<0.01; diastolic blood pressure: r=0.21, P<0.05) and intima-media thickness (r=0.27; P<0.05) in patients with T2DM but not in subjects with hypertension without T2DM. Multiple regression analysis, adjusted for age, gender, body mass index, fasting glucose, high-density lipoprotein cholesterol, white blood cell counts, and glomerular filtration rate, further revealed that resistin was an independent factor for high blood pressure in patients with T2DM (P<0.05). In vitro gene expression analysis in human coronary endothelial cells revealed that resistin induced fatty acid binding protein, a key molecule of insulin resistance, diabetes, and atherosclerosis. These results suggest that hyperresistinemia would contribute to the pathogenesis of hypertension in patients with T2DM, significantly linked to vascular complications and cardiovascular events.
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PMID:Hyperresistinemia is associated with coexistence of hypertension and type 2 diabetes. 1818 Mar 99

Resistin was initially identified as a protein, secreted by adipocytes, which inhibits insulin action and adipose differentiation. The three proteins homologous to resistin were termed resistin-like molecules (RELM) alpha, beta and gamma. Resistin and RELMalpha are abundantly expressed in adipose, but RELMbeta and RELMgamma are secreted mainly from the gut. Recently, resistin and RELMs were reported to be associated with inflammation. For example, RELMalpha, viewed as an inflammation-related protein, was originally identified in broncho-alveolar lavage fluid obtained from animals with experimentally induced pulmonary inflammation. RELMbeta is also related to bacterial colonization, but RELMbeta injection or hepatic overexpression of RELMbeta induced insulin resistance. RELMgamma isolated from rat nasal respiratory epithelium was found to be altered by cigarette smoke. Thus, resistin and RELMs could be useful for assessing the inflammatory condition in vivo. On the other hand, whether the serum resistin or RELM concentration is strongly related to insulin resistance remains unclear. However, taking recent studies showing a close relationship between inflammation and insulin resistance in diabetes into consideration, these proteins may have interactive roles linking inflammation and insulin resistance, both of which major involvement in the progression of atherosclerosis. If so, the serum resistin or RELM concentration may be a good marker of atherosclerotic risk. In addition, these proteins or unidentified receptors are potential therapeutic targets for the treatment of diabetes and prevention of atherosclerosis. These possibilities merit further study.
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PMID:Physiological significance of resistin and resistin-like molecules in the inflammatory process and insulin resistance. 1822 Jun 47

Our view of white adipose tissue (WAT) has changed over the last decade, from an inert triglyceride storage tissue to a highly active metabolic organ. Indeed, WAT secretes proinflammatory cytokines such TNF-a, interleukin-1 (IL-1), interleukin-1 receptor antagonist (IL-1Ra), and interleukin-6 (IL-6), and chemokines such as monocyte chemoattractant protein-1 (MCP-1), interferon gamma inducible protein 10 (IP-10), interleukin-8 (IL-8), RANTES, and peptides with hormone-like actions such as adiponectin, leptin and resistin. Through their paracrine actions these factors contribute to local WAT inflammation, neoangiogenesis and differentiation. On entering the systemic circulation they can contribute to creating or maintaining a systemic inflammatory state, hypertension and insulin resistance, and can also affect central control of food intake. When located around organs such as the kidney, heart and blood vessels, WAT can adversely affect organ function by secreting cytokines and chemokines. For example, perivascular WAT which secretes proatherogenic cytokines and chemokines and which is present around large and medium-sized arteries, could contribute to the development of atherosclerotic lesions by attracting inflammatory cells and stimulating neoangiogenesis, thereby amplifying the chronic vascular inflammation which is the hallmark of atherosclerosis.
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PMID:[White adipose tissue, inflammation and atherosclerosis]. 1822 44

In the present study, we assessed that cilostazol stimulates differentiation of 3T3-L1 fibroblasts into adipocytes, and to improve insulin sensitivity in conjunction with PPARgamma transcriptional activity. Upon treatment of COS-7 cells and human umbilical vein endothelial cells (HUVECs) with cilostazol (10 and 30 microM), endogenous PPARgamma transcriptional activity was significantly elevated in both cells as did rosiglitazone (10 microM), and these effects were suppressed by 5 microM GW9662, an antagonist of PPARgamma activity. Cilostazol-induced 3T3-L1 fibroblast differentiation into adipocytes in concert with increases in expression of PPARgamma responsive genes such as CCAAT enhancer binding protein alpha (C-EBPalpha), aP2, which were accompanied by increased adiponectin and decreased resistin expressions as did rosiglitazone. These variables were strongly suppressed by GW9662, indicative of a PPARgamma-mediated signaling. GLUT4 protein expression and glucose uptake were significantly elevated by cilostazol as was by rosiglitazone, which were also attenuated by GW9662, indicative of improvement of insulin sensitivity. Signaling pathways involved in the cilostazol-stimulated PPARgamma transcription activity in HUVECs included phosphatidylinositol 3-kinase (PI3-kinase)/AKT. Taken together, it is suggested that cilostazol increases differentiation of 3T3-L1 fibroblasts into adipocytes, and improves insulin sensitivity by stimulating PPARgamma transcription.
Atherosclerosis 2008 Dec
PMID:Cilostazol increases 3T3-L1 preadipocyte differentiation with improved glucose uptake associated with activation of peroxisome proliferator-activated receptor-gamma transcription. 1835 28

Adipokines are substances produced by the adipose tissue that may play significant roles in the mechanisms contributing to the development of atherosclerosis. Thiazolidinediones have been shown to improve endothelium-dependent vasodilation and to exert multiple antiatherosclerotic effects. This study tested the hypotheses that nondiabetic patients with cardiovascular risk factors have altered levels of adipokines that can be modified by pioglitazone treatment. Eighty patients with hypertension or hypercholesterolemia were in a double-blinded, placebo-controlled, crossover study. In each treatment phase, patients received pioglitazone 45 mg/day or placebo for 8 weeks. Endothelial function studies and biochemical assays were performed at the end of each 8-week treatment period. Twenty-two normal volunteers, matched with patients for age, gender, and body mass index, were recruited as a control group. Compared with controls, placebo-treated patients had lower adiponectin levels (11,160 +/- 763 vs 6,078 +/- 385 ng/ml, p <0.001) and similar plasma leptin levels (21.5 +/- 3.8 vs 16.2 +/- 1.5 ng/ml, p = 0.128) and resistin levels (5.1 +/- 0.4 vs 4.4 +/- 0.2 ng/ml, p = 0.250). In patients, pioglitazone treatment markedly increased adiponectin (+121%, p <0.001) and decreased resistin (-10.5%, p = 0.03). Leptin was not significantly decreased (-7.1%, p = 0.10). In multivariate analysis, pioglitazone-induced changes in endothelial reactivity to acetylcholine were the only significant predictor of increases in adiponectin. In conclusion, in nondiabetic patients with major cardiovascular risk factors, pioglitazone treatment beneficially influences circulating adipokine levels. The relation between the increase in adiponectin levels and the improvement in endothelial vasodilator activity suggests a mechanistic link between vascular effects and adiponectinemia.
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PMID:Effects of peroxisome proliferator-activated receptor-gamma activation with pioglitazone on plasma adipokines in nondiabetic patients with either hypercholesterolemia or hypertension. 1835 18

An increased amount of adipose tissue or its disproportionate distribution between central and peripheral body regions is related to the development of insulin resistance, type 2 diabetes mellitus, dyslipidemia, atherosclerosis, and coronary artery disease. Until recently, adipose tissue was regarded as a storage depot for lipids. It is now viewed as a hormonally active organ that plays a crucial metabolic role. The most important products of adipose tissue collectively referred to as adipocytokines, include adiponectin, leptin, tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), resistin, plasminogen-activating inhibitor-I (PAI-1), and angiotensinogen. These low and medium molecular weight proteins play an important role in the adipose tissue physiology and are believed to be a link between obesity, insulin resistance and endothelial dysfunction. This review describes the metabolic role of two of these proteins, adiponectin and leptin, in relation to insulin sensitivity.
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PMID:Adiponectin and leptin in relation to insulin sensitivity. 1837 Jun 42

Obesity is associated with low grade inflammation. Whether this is just an adaptive response to excess adiposity to maintain a normal oxygen supply or a chronic activation of the innate immune system is still unknown. Recent research has focused on the origin of the inflammatory markers in obesity and the extent to which adipose tissue has a direct effect. The production of adipokines by visceral adipose tissue is of particular interest since their local secretion by visceral fat depots may provide a novel mechanistic link between obesity and the associated vascular complications. Growing evidences suggest that the epicardial adipose tissue, the visceral fat depot located around the heart, may locally interact with myocardium and coronary arteries. Epicardial fat is a source of adiponectin and adrenomedullin, adipokines with anti-inflammatory properties, and several proinflammatory cytokines as well as Tumor Necrosis Factor-alpha (TNF-alpha), Interleukin 1 (IL1), IL-1 h, Interleukin (IL6), Monocyte Chemoattractive Protein-1 (MCP-1), Nerve Growth Factor (NGF), resistin, Plasminogen Activator Inhibitor-1 (PAI-1), and free fatty acids. Epicardial adipose tissue could locally modulate the heart and vasculature, through paracrine secretion of pro- and anti-inflammatory cytokines, thereby playing a possible role in the adiposity-related inflammation and atherosclerosis. On the other hand, epicardial fat could exert a protective effect through adiponectin and adrenomedullin secretion as response to local or systemic metabolic or mechanical insults. Future studies will continue to provide new and fascinating insights into the double role of epicardial adipose tissue in the development of cardiovascular pathology and/or in protecting the heart and arteries.
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PMID:The double role of epicardial adipose tissue as pro- and anti-inflammatory organ. 1840 33

Liver fibrosis is a dynamic process consisting of the chronic activation of the wound healing reaction in response to reiterated liver damage, leading to the excessive deposition of fibrillar extracellular matrix into the liver and eventually, if the cause of injury is not removed, to liver cirrhosis. The term "adipokines" identifies a group of polypeptide molecules secreted primarily by adipose tissue, which exert local, peripheral and/or central actions. Additionally to their well-established role in controlling adipose tissue physiology, adipokines have been shown to be involved in different obesity-related diseases, such as hypertension, atherosclerosis and type 2 diabetes. Accumulating data demonstrate that obesity and insulin resistance are associated with a more severe and faster progression of the fibrogenic process in different chronic liver diseases. Therefore, numerous recent studies have analyzed the role played by adipokines in the hepatic wound healing process, identifying novel roles as modulators of liver pathophysiology. This review summarizes the more significant and recent findings concerning the role played by adipocyte-derived molecules, such as leptin, adiponectin and resistin, in the liver fibrogenic process. The actions of different adipokines on the biology of liver resident cells, as well as their effects in different animal models of liver injury are discussed. The variations in the circulating levels and in the intrahepatic expression of these molecules occurring in patients with different chronic liver diseases will be also analyzed.
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PMID:The role of adipokines in liver fibrosis. 1860 1

Resistin has been linked to atherosclerosis and inflammatory processes in humans. Some polyphenols have been shown to downregulate resistin expression in adipocytes. The effects of olive oil phenolics on resistin are not known; therefore, we investigated the impact of olive oil consumption on serum resistin as a function of the olive oils' phenolic content. In a randomized, controlled, cross-over study 38 healthy German men aged 38+/-2 years replaced their usual consumption of raw fat during 3 periods of 3 weeks each by 25 ml of virgin, common and refined olive oil varying in phenolic content. Serum resistin, blood lipids and urine biomarkers of subjects' compliance were analysed at baseline and at the end of each intervention period. The integration of olive oil in the subjects' habitual diet led to a decrease in total cholesterol (p=0.025) and triglycerides (p=0.013) independent of the content of phenolic compounds in the oil. Serum resistin concentrations were not affected by the olive oils' phenolic content. After low phenolic olive oil consumption, a decrease in serum resistin level was observed compared to medium and high phenolic olive oil (-0.4+/-0.1 ng/ml; p=0.040). Our results suggest that olive oil consumption has only marginal beneficial effects on serum resistin levels.
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PMID:Effect of olive oil consumption on serum resistin concentrations in healthy men. 1862 95

Recent researches have shown that adipocytokines secreted by adipose tissue play an important role in inflammation which is considered to be a crucial step in the pathogenesis of atherosclerosis. Leptin, one of the earlier adipocytokines, is known to play a major role in cardiovascular disease and recent observations suggest that leptin is an independent risk factor for coronary heart disease. Resistin, another recently discovered adipocytokine, has been related to risk factors of atherosclerosis, and in diabetic individuals serum resistin levels correlate well with inflammatory markers and are predictive for the development of cardiovascular disease. Adiponectin, another adipocytokine of interest in recent years, seems to be the most promising one studied to date. In contrast to leptin and resistin, adiponectin seems to be beneficial for health and it is a protective factor and decreased in obesity. However, many other factors derived from adipose tissue have also been discovered, such as interleukin-6, tumor necrosis factor alpha, monocyte chemoattractant protein 1, apelin, visfatin and probably others awaiting discovery in the near future. In this paper, we discussed the role of adipocytokines in the pathogenesis of atherosclerotic cardiovascular disease.
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PMID:A new frame in thromboembolic cardiovascular disease: Adipocytokine. 1837 21


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