Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0007222 (cardiovascular disease)
 65,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Few studies have analyzed intraclass differences in angiotensin II receptor blockers (ARBs) with respect to antidiabetic or metabolic effects. We designed a prospective randomized study to compare a peroxisome proliferator-activated receptor-gamma (PPARgamma)-activating ARB with a nonactivating ARB to delineate the effects on metabolic factors associated with cardiovascular disease. Subjects initially comprised 153 hypertensive patients (72 men, 81 women; mean age, 67.9 +/- 7.8 years) with diagnosed glucose intolerance on the glucose loading test. Patients were randomly assigned to receive 6-month administration of telmisartan 47.0 mg/d (TEL) or candesartan 8.4 mg/d (CAN), or to have no change in drug regimen (control group, CTL). Fasting plasma glucose level was significantly reduced in TEL (n = 46) compared with CTL (n = 47) (percentage of change from baseline, -1.7% vs +2.2%; P = .045). Percentage of increase in adiponectin was significantly larger in TEL than in CTL (+10.5% vs +2.2%, P = .025), but not significantly larger in CAN (n = 44) than in CTL (+4.9% vs +2.2%; P = .13). Percentage of decrease in body weight from baseline was significantly enhanced in TEL compared with CTL (-2.2% vs -0.8%, P = .023) and CAN (-2.2% vs -0.3%, P = .007). Telmisartan decreased body weight while increasing serum adiponectin levels in hypertensive patients with glucose intolerance. Candesartan did not achieve similar improvements in these patients. Among ARBs, telmisartan may have a larger impact on obesity-related diseases that can lead to cardiovascular disorders.
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PMID:Effects of telmisartan on adiponectin levels and body weight in hypertensive patients with glucose intolerance. 1880 55

Adiposity-associated inflammation and insulin resistance are strongly implicated in the development of type 2 diabetes and atherosclerotic cardiovascular disease. This article reviews the mechanisms of adipose inflammation, because these may represent therapeutic targets for insulin resistance and for prevention of metabolic and cardiovascular consequences of obesity. The initial insult in adipose inflammation and insulin resistance, mediated by macrophage recruitment and endogenous ligand activation of Toll-like receptors, is perpetuated through chemokine secretion, adipose retention of macrophages, and elaboration of pro-inflammatory adipocytokines. Activation of various kinases modulates adipocyte transcription factors, including peroxisome proliferator-activated receptor-gamma and NFkappaB, attenuating insulin signaling and increasing adipocytokine and free fatty acid secretion. Inflammation retards adipocyte differentiation and further exacerbates adipose dysfunction and inflammation. Paracrine and endocrine adipose inflammatory events induce a local and systemic inflammatory, insulin-resistant state promoting meta-bolic dyslipidemia, type 2 diabetes, and cardiovascular disease. Developing therapeutic strategies that target both adipose inflammation and insulin resistance may help to prevent type 2 diabetes and cardiovascular disease in the emerging epidemic of obesity.
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PMID:Adipose inflammation, insulin resistance, and cardiovascular disease. 1897 44

Despite remarkable progress in diagnosis and understanding of risk factors, cardiovascular disease (CVD) remains still the leading cause of morbidity and mortality in the world's developed countries. The metabolic syndrome, a cluster of risk factors (visceral obesity, insulin resistance, dyslipidaemia, and hypertension), is increasingly being recognized as a new risk factor for type 2 diabetes and atherosclerotic cardiovascular disease. Nevertheless, there is wide variation in both the occurrence of disease and age of onset, even in individuals who display very similar risk profiles. There is now compelling evidence that a complex interplay between genetic determinants and environmental factors (still largely unknown) is the reason for this large inter-individual variation in disease susceptibility. The purpose of the present review is to describe the current status of our knowledge concerning the gene-environment interactions potentially implicated in the pathogenesis of metabolic syndrome, diabetes and cardiovascular disease. It focuses predominantly on studies of genes (peroxisome proliferator-activated receptor-gamma, alcohol dehydrogenase type 1C, apolipoprotein E, glutathione S-transferases T1 and M1) that are known to be modified by dietary and lifestyle habits (fat diet, intake of alcohol and smoking habit). It also describes the limited current understanding of the role of genetic variants of xenobiotic metabolizing enzymes and their interactions with environmental toxicants. Additional studies are needed in order to clarify whether inter-individual differences in detoxification of environmental toxicants may have an essential role in the development of CVD and contribute to the emerging field of "environmental cardiology". Such knowledge may be particularly relevant for improving cardiovascular risk stratification and conceiving the development of "personalized intervention program".
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PMID:Metabolic syndrome, diabetes and atherosclerosis: influence of gene-environment interaction. 1902 10

Clinical guidelines highlight the importance of managing atherogenic mixed dyslipidemia to reduce the risk of premature cardiovascular disease in type 2 diabetes mellitus and metabolic syndrome. The lipid-modifying activity of fenofibrate, as demonstrated in clinical studies, indicates its effectiveness in treating dyslipidemia characteristic of these conditions. Fenofibrate also has a favorable impact on a number of nonlipid residual risk factors associated with type 2 diabetes and metabolic syndrome, mediated by peroxisome proliferator-activated receptor-alpha. In patients with type 2 diabetes, fenofibrate is effective in reducing the progression of coronary artery disease, as demonstrated by the Diabetes Atherosclerosis Intervention Study (DAIS). In the Fenofibrate Intervention and Event Lowering in Diabetes (FIELD) study, the primary end point (major coronary events) was not significantly reduced by fenofibrate treatment. However, other findings from this study suggest that fenofibrate reduces cardiovascular risk. Both DAIS and the FIELD study also indicate that fenofibrate may offer additional vascular benefits, specifically affecting the progression of diabetes-related microvascular disease.
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PMID:Fenofibrate for cardiovascular disease prevention in metabolic syndrome and type 2 diabetes mellitus. 1908 87

The Fenofibrate Intervention and Event Lowering in Diabetes (FIELD) study provides an extensive evidence base for the efficacy and tolerability of fenofibrate treatment in patients with type 2 diabetes mellitus, predominantly in a primary prevention setting. The FIELD study did not show a significant effect with fenofibrate on the primary end point, coronary artery disease death or nonfatal myocardial infarction (p = 0.16). Treatment with fenofibrate did reduce all cardiovascular disease (CVD) events, the secondary end point (by 11%, p = 0.035). The primary end point was reduced by the same percentage. The modest percent reduction in the primary and secondary end points is probably a result of a number of study confounders, notably an excess of statin drop-in therapy and disproportionate treatment with other drugs for CVD prevention in the placebo arm. Estimates of relative risk reduction used by the FIELD investigators to equalize the use of statins in the fenofibrate and placebo groups suggest a true benefit of treatment on reduction of CVD events of 17%-21%. There was no excess of elevated serum liver enzymes and no cases of rhabdomyolysis in patients receiving both fenofibrate and a statin. Prevention of microvascular disease, specifically, reduction in the rate of laser treatment for retinopathy (by 30%, p = 0.0003), progression of albuminuria (p = 0.002), and nontraumatic amputations (by 38%, p = 0.011), may well be the most innovative finding of the FIELD study, especially in view of the current lack of effective preventative treatments for diabetic retinopathy and the need for additional treatments that slow the progression of diabetic nephropathy. These findings also give impetus to investigate mechanisms by which fenofibrate and peroxisome proliferator-activated receptor-alpha activation may protect the endothelium of small blood vessels in patients with type 2 diabetes.
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PMID:After the Fenofibrate Intervention and Event Lowering in Diabetes (FIELD) study: implications for fenofibrate. 1908 88

Plasma homocysteine (Hcy) is an independent risk factor for cardiovascular disease. Hcy is a nonprotein amino acid derivative that is generated from the methionine cycle, which provides the methyl group for essentially all biological methylation reactions. Although plasma Hcy levels are elevated in patients with cardiovascular disease, the mechanisms that regulate Hcy homeostasis remain poorly defined. In this study, we found that the expression of key enzymes involved in Hcy metabolism is induced in the liver in response to fasting. This induction coincides with increased expression of peroxisome proliferator-activated receptor-gamma coactivator (PGC)-1alpha, a transcriptional coactivator that regulates hepatic gluconeogenesis and mitochondrial function. PGC-1alpha stimulates the expression of genes involved in Hcy metabolism in cultured primary hepatocytes as well as in the liver. Adenoviral-mediated expression of PGC-1alpha in vivo leads to elevated plasma Hcy levels. In contrast, mice deficient in PGC-1alpha have lower plasma Hcy concentrations. These results define a novel role for the PGC-1alpha coactivator pathway in the regulation of Hcy homeostasis and suggest a potential pathogenic mechanism that contributes to hyperhomocysteinemia.
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PMID:Regulation of homocysteine homeostasis through the transcriptional coactivator PGC-1alpha. 1915 24

Systemic lupus erythematosus (SLE) is a chronic autoimmune inflammatory disorder that predominantly affects women during their reproductive years. Although SLE can affect any organ system, the kidneys are prominently involved in the form of immune complex glomerulonephritis. In addition, in women with SLE, risk for the development of cardiovascular disease is dramatically increased. Hypertension is a major risk factor for cardiovascular disease and is highly prevalent in women with SLE. Nevertheless, there has been little exploration of the pathophysiological mechanisms that promote SLE hypertension. This review discusses the role of several mechanisms, with an emphasis on the kidney, in SLE hypertension. These mechanisms include the renin-angiotensin system, endothelin, oxidative stress, sex steroids, metabolic changes, peroxisome proliferator-activated receptor-gamma, and, perhaps most importantly, chronic inflammation and cytokines. Growing evidence suggests a link between chronic inflammation and hypertension. Therefore, elucidation of mechanisms that promote SLE hypertension may be of significant value not only for patients with SLE, but also for a better understanding of the basis for essential hypertension.
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PMID:The pathophysiology of hypertension in systemic lupus erythematosus. 1915 8

Lecithin is an essential biological component and widely used as a nutritional supplement for protecting cells from oxidation, increase fat burning and preventing cardiovascular disease. Lecithin contains fatty acids identified as the peroxisome proliferator-activated receptor (PPAR) agonists. However, the role of lecithin in adipogenesis and lipogenesis remains elusive. 3T3-L1 cells and mouse primary preadipocytes were used to characterize the properties of lecithin related to adipogenesis and lipogenesis. We found that lecithin promoted adipocyte differentiation and differentiation-specific gene expression, and increased triglycerides and free fatty acid levels in the adipocytes. These effects are independent of the clonal expansion of 3T3-L1 cells and the upstream PPARgamma regulator, CCAAT-enhancer-binding protein beta. Furthermore, lecithin induced lipid accumulation in human hepatoma HepG2 cells. Our data suggest that lecithin is involved in adipogenesis, lipogenesis and hepatic lipid accumulation and it is implicated in obesity and hepatic steatosis.
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PMID:Lecithin promotes adipocyte differentiation and hepatic lipid accumulation. 1928 19

Recent epidemiologic studies have suggested that serum dehydroepiandrosterone sulfate (DHEAS) levels have a significant inverse correlation with the incidence of cardiovascular diseases. However, direct evidence for the association with DHEAS and vascular disorders has not yet been explored. DHEAS significantly reduced neointima formation 28 days after surgery without altering other serum metabolite levels in a rabbit carotid balloon injury model. Immunohistochemical analyses revealed the reduction of proliferating cell nuclear antigen (PCNA) index and increase of TdT-mediated dUTP-biotin Nick End Labeling (TUNEL) index, expressing differentiated vascular smooth muscle cell (VSMC) markers in the media 7 days after surgery. In vitro, DHEAS exhibited inhibitory effects on VSMC proliferation and migration activities, inducing G1 cell cycle arrest with upregulation of one of the cyclin dependent kinase (CDK) inhibitors p16(INK4a) and apoptosis with activating peroxisome proliferator-activated receptor (PPAR)-alpha in VSMCs. DHEAS inhibits vascular remodeling reducing neointima formation after vascular injury via its effects on VSMC phenotypic modulation, functions and apoptosis upregulating p16(INK4a)/activating PPARalpha. DHEAS may play a pathophysiological role for vascular remodeling in cardiovascular disease.
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PMID:Adrenal androgen dehydroepiandrosterone sulfate inhibits vascular remodeling following arterial injury. 1929 64

PPARgamma agonists are synthetic ligands for the peroxisome proliferator-activated receptor-gamma (PPARgamma). These agents have insulin-sensitizing properties but can cause fluid retention, thereby limiting their usefulness in patients at risk for cardiovascular disease. The side effect etiology is unknown, but the nature of presentation suggests modulation of renal salt and water homeostasis. In a well-characterized cell culture model of the principal cell type [Madin-Darby canine kidney (MDCK)-C7], PPARgamma agonists inhibit vasopressin-stimulated Cl(-) secretion with agonist dose-response relationships that mirror receptor transactivation profiles. Analyses of the components of the vasopressin-stimulated intracellular signaling pathway indicated no PPARgamma agonist-induced changes in basolateral membrane conductances, intracellular cAMP, protein kinase A, or total cellular adenine nucleotides. The PPARgamma agonist-induced decrease in anion secretion is the result of decreased mRNA of the final effector in the pathway, the apically located cystic fibrosis transmembrane regulator (CFTR). These data showing that CFTR is a target for PPARgamma agonists may provide new insights into the physiology of PPARgamma agonist-induced fluid retention.
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PMID:PPARgamma agonists inhibit vasopressin-mediated anion transport in the MDCK-C7 cell line. 1940 48


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