UMLS:C0948265 - FACTA Search

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertriglyceridemia is an independent risk factor for the development of cardiovascular disease and is often associated with diabetes, inflammation and the metabolic syndrome. Recently, apolipoprotein A5 (APOA5) was identified as a novel member of the APOA1/C3/A4 gene cluster. Data from mice over-expressing or lacking APOA5 provide direct evidence that this apolipoprotein plays a role in triglyceride metabolism. Moreover, plasma triglyceride levels were found to be strongly associated with APOA5 polymorphisms. The human APOA5 gene is regulated by transcription factors known to affect triglyceride metabolism such as PPARa, RORa, LXR and SREBP-1c and this supports its function. Insulin and interleukins regulate APOA5 gene expression and provide novel clues for the role of this apolipoprotein. To date, the triglyceride lowering action of apoA-V is attributed to the activation of lipoprotein lipase and an acceleration of very low density lipoprotein catabolism. Recent findings indicate that APOA5 could also influence cholesterol homeostasis and probably play a role in hypertriglyceridemia associated with diabetes and inflammation. This review aims to give a comprehensive summary of the current literature and supports the view that APOA5 plays a relevant role in lipid metabolism.
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PMID:Is apolipoprotein A5 a novel regulator of triglyceride-rich lipoproteins? 1644 83

Thiazolidinediones (TZDs) are peroxisomal proliferator-activated receptor (PPAR)-gamma agonists. They increase insulin action through several mechanisms including: stimulation of the expression of genes that increase fat oxidation and lower plasma free fatty acid levels; increased expression, synthesis and release of adiponectin; and stimulation of adipocyte differentiation resulting in more and smaller fat cells. TZDs lower blood sugar comparably to sulfonylureas and metformin. The clinical use of TZDs is limited due to the long duration of time required before they reach their full blood sugar-lowering action (3-4 months) and adverse effects such as fluid retention, resulting in excessive weight gain and occasionally in peripheral and/or pulmonary oedema and congestive heart failure. Troglitazone, a TZD that has since been removed from the market because of hepatoxicity, has been demonstrated to decrease the progression from normal or impaired glucose tolerance to overt Type 2 diabetes mellitus. Pioglitazone, another TZD, marginally decreased the incidence of cardiovascular complications in patients with Type 2 diabetes mellitus (PROactive trial). Other, as yet, unapproved uses of TZDs include: non-alcoholic fatty liver disease, in which TZDs reduced hepatic fat accumulation and improved liver function tests; polycystic ovary syndrome, where TZDs improved ovulation, hirsutism and endothelial dysfunction; and lipodystrophies, where TZDs increased body fat (marginally) and decrease liver size. Lastly, because PPAR-alpha and -gamma agonists improve atherosclerotic vascular disease and insulin sensitivity, respectively, dual PPAR-alpha/gamma agonists, which are currently undergoing clinical trials, may be useful in treating patients with the metabolic syndrome.
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PMID:Recent findings concerning thiazolidinediones in the treatment of diabetes. 1650 61

The three peroxisome-proliferator-activated receptor (PPAR) subtypes PPAR-alpha, PPAR-gamma, and PPAR-delta are ligand-activated transcription factors of the nuclear receptor family. PPARs form obligate heterodimers with the retinoid X receptor, which bind to peroxisome-proliferator-response elements (PPREs). PPAR-alpha is expressed mainly in liver, brown fat, kidney, heart, and skeletal muscle; PPAR-gamma in intestine and adipose tissue; PPAR-alpha and PPAR-gamma are both expressed in vascular endothelium, smooth muscle cells, macrophages, and foam cells; PPAR-delta in skeletal muscle, human embryonic kidney, intestine, heart, adipose tissue, developing brain, and keratinocytes. Intense interest in the development of drugs with new mechanisms of action for the metabolic syndrome has focused attention on nuclear receptors, such as PPARs that function as regulators of energy homeostasis. Agonists of PPAR-alpha and PPAR-gamma are currently used to treat diabetic dyslipidemia and type 2 diabetes. Dual PPAR-alpha/gamma agonists and PPAR-alpha/gamma/delta pan-agonists are under investigation for treatment of cardiovascular disease and the metabolic syndrome. Selective PPAR modulators (SPPARMs) are PPAR ligands that possess desirable efficacy and improved tolerance. Efforts are being made to identify novel partial agonists or antagonists for PPAR-gamma in order to combine their antidiabetic and antiobesity effects. Glucocorticoids are major mediators of the stress response and could be the link between stress and PPAR activator signaling and thus may affect the downstream metabolic pathways involved in fuel homeostasis.
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PMID:Targeting components of the stress system as potential therapies for the metabolic syndrome: the peroxisome-proliferator-activated receptors. 1714 46

In animal experiments, the potent antioxidant and free radical scavenger alpha-lipoic acid has been shown to cause weight loss, ameliorate insulin resistance and atherogenic dyslipidemia, as well as to lower blood pressure, all of these being components of the metabolic syndrome. Recent investigations on its mechanisms of action indicate that alpha-lipoic acid can affect central and peripheral modulation of 5'-AMP-activated protein kinase, activate PPAR-alpha and PPAR-gamma, modulate PPAR-regulated genes and upregulate the expression of PPAR-gamma mRNA and protein in cardiac tissue and aorta smooth muscle. To a large extent, these findings can explain the observed beneficial metabolic effects of alpha-lipoic acid, supporting its potential application as a therapeutic agent for the treatment of the metabolic syndrome.
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PMID:Alpha-lipoic acid: physiologic mechanisms and indications for the treatment of metabolic syndrome. 1730 24

Patients with type 2 diabetes mellitus and/or the metabolic syndrome have considerable cardiovascular risk. Treatment with 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statins) and with antihypertensive and some antihyperglycemic agents reduces this risk, but residual macrovascular morbidity and mortality persist, even in patients assigned to intensive multifactorial intervention programs. Therapeutic strategies that target inflammation and lipid abnormalities not well addressed by statins may offer additional opportunities for improving the prognosis of these patients. Inflammation, a key mechanism of atherogenesis, appears to have particular relevance to diabetic vascular complications, as well as in the development of diabetes itself. Oxidative stress and hyperglycemia also figure among the pathogenic factors that promote cardiovascular complications in patients with the metabolic syndrome and/or diabetes and may augment the ongoing inflammation. Peroxisome proliferator-activated receptor (PPAR)-alpha and PPAR-gamma, members of the nuclear receptor family, form ligand-activated transcription factors that regulate key important metabolic pathways. PPARs have become therapeutic targets through the use of the fibrate class of antidyslipidemic drugs (PPAR-alpha) and the insulin-sensitizing thiazolidinediones (PPAR-gamma). The activation of these PPARs may also suppress inflammation and atherosclerosis. Recent clinical trials (Fenofibrate Intervention and Event Lowering in Diabetes [FIELD], Prospective Pioglitazone Clinical Trial in Macrovascular Events [PROactive]) have considered the impact of these PPAR agonists on cardiovascular disease, with mixed effects that require careful analysis, especially given ongoing trials and additional PPAR agonists in development.
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PMID:Inflammation in diabetes mellitus: role of peroxisome proliferator-activated receptor-alpha and peroxisome proliferator-activated receptor-gamma agonists. 1730 56

The metabolic syndrome and diabetes are associated with bladder dysfunction in many people. Peroxisome proliferator-activated receptors (PPARs) may play a role in the effects of the metabolic syndrome on bladder smooth muscle (BSM). The purpose of this study was to determine if there are gender and genetic differences in PPAR levels in BSM. We measured PPAR levels using quantitative PCR in BSM from male Yucatan swine and male and female Ossabaw Island swine, which is a model for the metabolic syndrome. Male Ossabaw swine had 0.732 +/- 0.111 the amount of PPAR-alpha mRNA as male Yucatan swine (P < 0.05), suggesting a genetic difference in PPAR-alpha levels. This difference may possibly contribute to the incidence of metabolic syndrome in the Ossabaw model compared to the Yucatan model. PPAR-delta mRNA was 2-fold higher in male Ossabaw swine than in female Ossabaw swine, with no significant differences in PPAR-alpha levels. However, PPAR-gamma mRNA was 4.067 +/- 0.134 times higher in female Ossabaw swine than in their male counterparts (P < 0.001). Changing the percentage of calories derived from fat did not alter any PPAR mRNA levels. Thus, PPAR-delta and PPAR-gamma mRNA levels in male and female Ossabaw swine BSM are not only different, but may also result in gender differences in lipid metabolism in bladder smooth muscle. We conclude that PPAR profiles in BSM may contribute to the susceptibility of BSM to lipotoxicity in the metabolic syndrome.
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PMID:Gender and genetic differences in bladder smooth muscle PPAR mRNA in a porcine model of the metabolic syndrome. 1731 6

Peroxisome proliferator activated receptors (PPARs) are a class of nuclear receptors now actively investigated for their involvement in lipid and glucidic metabolism, immune regulation and cell differentiation. Drugs binding and activating PPARs are therefore attracting attention for their potential therapeutic role in various diseases like type 2 diabetes, dyslipidemias, atherosclerosis, obesity (i.e., metabolic syndrome). Agonists of these receptors have been already used in therapeutic protocols: fibrates (PPAR-alpha ligands) are being used in hyperlipidemias, and thiazolidinediones (mainly PPAR-gamma ligands) are being employed as insulin sensitizers. The latter drugs introduction into therapy, however, showed very soon some unwanted effects (hepatotoxicity at first and myocardiotoxicity later on) which confirmed some contradictory data already suggested by pre-clinical trial-experiments. In this study we show that some PPAR ligands impair mitochondrial oxidative metabolism in human liver cell line mainly by deranging NADH oxidation. Intriguingly, the PPAR-gamma ligand ciglitazone caused a dose-dependent inhibition of NADH-cytochrome c reductase that resulted, at a drug concentration of 50 microM, of about 60% (P<0.001), while other PPAR ligands with different receptor affinity - positive controls like clofibrate (0.7 mM), gemfibrozil (0.23 mM) and bezafibrate (1 mM) - reduced the activity of mitochondrial Complex I by about 20% (P<0.01, P<0.01 and P<0.05, respectively). The induced mitochondrial dysfunction imposed a series of metabolic compensatory adaptations characterized by a significant shift to anaerobic glycolysis. These findings underline the undervalued non-genomic effects of PPAR ligands and can provide a better understanding of the pharmacotoxicological profiles of these drugs and of their roles in the therapy of diabetes mellitus.
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PMID:Mitochondria, ciglitazone and liver: a neglected interaction in biochemical pharmacology. 1749 14

Abdominal obesity is a principal risk factor in the development of metabolic syndrome. Previously, we showed that a palatinose-based liquid formula, Inslow/MHN-01, suppressed postprandial plasma glucose level and reduced visceral fat accumulation better than the standard formula (SF). To elucidate the mechanism of Inslow-mediated anti-obesity effect, expression levels of genes involved in the glucose and lipid metabolism were compared in Inslow- and SF-fed rats. Both fasting plasma insulin level and average islet sizes were reduced in the Inslow group. We also found less abdominal fat accumulation and reduced hepatic triacylglycerol content in the Inslow group. Expression of the beta-oxidation enzymes and uncoupling potein-2 (UCP-2) mRNAs in the liver of the Inslow group were higher than the SF group, which was due to a concomitant higher expression of the peroxisome proliferator-activated receptor (PPAR)-alpha mRNA in the former. Furthermore, expression of the UCP-2 and adiponectin mRNAs in the epididymal fat were higher in the Inslow group than the SF group, and were stimulated by a concomitant increase of the PPAR-gamma gene expression in the former. These results strongly suggested that the anti-obesity effect of Inslow was due to an increase in the hepatic PPAR-alpha and adipocyte PPAR-gamma gene expressions.
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PMID:The Anti-Obesity Effect of the Palatinose-Based Formula Inslow is Likely due to an Increase in the Hepatic PPAR-alpha and Adipocyte PPAR-gamma Gene Expressions. 1839 2

A number of human and animal studies using conjugated linoleic acids (CLA) or diacylglycerol (DAG) oil have shown positive physiological effects on abdominal adiposity, plasma triglycerides, plasma glucose, and insulin sensitivity. A novel DAG composition containing CLA called CLA diacylglyceride (CLA-DAG) may offer potential as a therapeutic agent in reducing some of the symptoms associated with the diabetic phenotype and metabolic syndrome. This study was designed to investigate the effect of CLA-DAG oil on the diabetic phenotype in male Zucker diabetic fatty rats. Animals were assigned to one of four groups: control (C), rosiglitazone (ROS), CLA-DAG, or CLA as free fatty acid (CLA-FFA). After 11 weeks, body weight was higher and kidney weight was lower in the CLA-DAG and ROS groups compared with the C group. The ROS treatment increased the percentage of body fat as compared with all other groups. Final fasting blood glucose was lower in the CLA-DAG and ROS groups than in the C group. Plasma cholesterol was lower in the CLA-DAG group, and plasma triglycerides were lower in the ROS group compared with the C group. We also observed changes in transcript abundance of PPAR-gamma, PPAR-alpha, FAS, LPL, UCP2, UCP3, CPT1, RxR, ObRb, ApoAII, ApoD, and IRS1 in liver, muscle, and adipose tissue, suggesting treatment-induced effects on these genes. Collectively, these data suggest the need for further research on the therapeutic relevance of CLA-DAG oil in obesity and diabetes. Future research should also differentiate between CLA alone and DAG alone compared with the combination.
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PMID:A combination of CLA-DAG oil modifies the diabetic phenotype in male Zucker diabetic fatty rats. 1854 85

Elevated plasma lipids, glucose, insulin, and fatty liver are among components of metabolic syndrome, a phenotypic pattern that typically precedes the development of Type 2 diabetes. Animal studies show that intake of anthocyanins reduces hyperlipidemia, obesity, and atherosclerosis and that anthocyanin-rich extracts may exert these effects in association with altered activity of tissue peroxisome proliferator-activated receptors (PPARs). However, studies are lacking to test this correlation using physiologically relevant, whole food sources of anthocyanins. Tart cherries are a rich source of anthocyanins, and whole cherry fruit intake may also affect hyperlipidemia and/or affect tissue PPARs. This hypothesis was tested in the Dahl Salt-Sensitive rat having insulin resistance and hyperlipidemia. For 90 days, Dahl rats were pair-fed AIN-76a-based diets supplemented with either 1% (wt:wt) freeze-dried whole tart cherry or with 0.85% additional carbohydrate to match macronutrient and calorie provision. After 90 days, the cherry-enriched diet was associated with reduced fasting blood glucose, hyperlipidemia, hyperinsulinemia, and reduced fatty liver. The cherry diet was also associated with significantly enhanced hepatic PPAR-alpha mRNA, enhanced hepatic PPAR-alpha target acyl-coenzyme A oxidase mRNA and activity, and increased plasma antioxidant capacity. In conclusion, physiologically relevant tart cherry consumption reduced several phenotypic risk factors that are associated with risk for metabolic syndrome and Type 2 diabetes. Tart cherries may represent a whole food research model of the health effects of anthocyanin-rich foods and may possess nutraceutical value against risk factors for metabolic syndrome and its clinical sequelae.
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PMID:Altered hyperlipidemia, hepatic steatosis, and hepatic peroxisome proliferator-activated receptors in rats with intake of tart cherry. 1859 66

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