UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Peroxisome proliferator-activated receptor (PPAR) alpha, a transcription factor of the nuclear receptor superfamily, regulates fatty acid oxidation. We evaluated the association of single nucleotide polymorphisms (SNPs) of the PPAR-alpha gene (PPARA) with the conversion from impaired glucose tolerance to type 2 diabetes in 767 subjects of the STOP-NIDDM trial in order to investigate the effect of acarbose in comparison with placebo on the prevention of diabetes. In the placebo group, the G (162V) allele of rs1800206 increased the risk for diabetes by 1.9-fold (95% CI 1.05-3.58) and was associated with elevated levels of plasma glucose and insulin. The effect of this allele on the risk of diabetes in the placebo group was enhanced by the simultaneous presence of the risk alleles of the PPAR-gamma2, PPAR-gamma coactivator 1alpha, and hepatic nuclear factor 4alpha genes (odds ratios 2.2, 2.5, and 3.4, respectively). In the acarbose group, subjects carrying the minor G allele of rs4253776 and the CC genotype of rs4253778 of PPARA had a 1.7- and 2.7-fold increased risk for diabetes. Our data indicate that SNPs of PPARA increase the risk of type 2 diabetes alone and in combination with the SNPs of other genes acting closely with PPAR-alpha.
Diabetes 2007 Apr
PMID:Single nucleotide polymorphisms of the peroxisome proliferator-activated receptor-alpha gene (PPARA) influence the conversion from impaired glucose tolerance to type 2 diabetes: the STOP-NIDDM trial. 1731 62

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

Among individuals with diabetes mellitus, cardiovascular disease remains the leading cause of death, despite the many treatment modalities that have been developed over time. The PPAR family, including PPAR-alpha, play important roles in glucose and lipid metabolism and atherosclerosis and thus are potential therapeutic targets. Fibrates act upon PPAR-alpha and appear to target the typical dyslipidaemia of diabetes. Several large prospective clinical trials have shown both primary prevention and secondary prevention benefit with fibrates, although they only had small subgroups of patients with diabetes. The first large outcome study to exclusively study those with diabetes was the FIELD study, which showed no reduction in the primary cardiovascular end-point and only some benefit in the secondary end-point. There are many potential explanations for these results; however, it would appear that at present, there is no role for fibrates as monotherapy for the reduction of cardiovascular risk among those with diabetes. However, their potential role in combination with statin therapy remains to be further elucidated with ongoing studies.
Diabetes Obes Metab 2008 Sep
PMID:PPAR-alpha: therapeutic role in diabetes-related cardiovascular disease. 1759 34

Peroxisome proliferator-activated receptors (PPARs) as ligand-activated nuclear receptors involved in the transcriptional regulation of lipid metabolism, energy balance, inflammation, and atherosclerosis are at the intersection of key pathways involved in the pathogenesis of diabetes and cardiovascular disease. Synthetic PPAR agonists like fibrates (PPAR-alpha) and thiazolidinediones (PPAR-gamma) are in therapeutic use to treat dyslipidaemia and diabetes. Despite strong encouraging in vitro, animal model, and human surrogate marker studies with these agents, recent prospective clinical cardiovascular trials have yielded mixed results, perhaps explained by concomitant drug use, study design, or a lack of efficacy of these agents on cardiovascular disease (independent of their current metabolic indications). The use of PPAR agents has also been limited by untoward effects. An alternative strategy to PPAR therapeutics is better understanding PPAR biology, the nature of natural PPAR agonists, and how these molecules are generated. Such insight might also provide valuable information about pathways that protect against the metabolic problems for which PPAR agents are currently indicated. This approach underscores the important distinction between the effects of synthetic PPAR agonists and the unequivocal biologic role of PPARs as key transcriptional regulators of metabolic and inflammatory pathways relevant to diabetes and atherosclerosis.
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PMID:PPARs and their metabolic modulation: new mechanisms for transcriptional regulation? 1764 86

Atherosclerosis is a chronic inflammatory condition initiated in the endothelium in response to injury and maintained through the interactions between modified lipoproteins, macrophages, and arterial wall constituents. Risk for macrovascular disease is substantially increased in patients with type 2 diabetes mellitus. Factors underlying the link between insulin resistance/type 2 diabetes and macrovascular disease include reduced adiponectin concentration, increased expression of vascular cell adhesion molecule-1 and consequent adhesion of T-lymphocytes to the coronary endothelium, procoagulability with increased expression of plasminogen activator inhibitor-1 (PAI)-1, and instability of atherosclerotic plaques resulting from increased expression by macrophages of matrix metalloproteinases (MMPs). Thiazolidinediones (TZDs) are agonists of peroxisome proliferator-activated receptor (PPAR)-gamma and increase adiponectin. TZD therapy is associated with decreases in hepatic fat content and glycosylated hemoglobin and an increase in hepatic glucose disposal. TZDs lower circulating free fatty acid concentration and triglyceride content in the liver, but not in skeletal muscle. Effects of PPAR-gamma agonists in vitro and in animal models provide evidence for additional potential antiatherosclerotic benefits in patients with diabetes beyond the treatment of hyperglycemia and dyslipidemia, including the reduction of expression of macrophage MMPs and scavenger receptor-1, and indirect reduction of PAI-1 and inhibition of vascular smooth muscle cell proliferation, via suppression of type 1 angiotensin-2 receptor expression. Dual PPAR-alpha/gamma agonists, retinoid receptor agonists, and, to a lesser extent, TZDs, also stimulate cholesterol efflux from macrophages in vitro.
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PMID:Diabetes mellitus and macrovascular disease: mechanisms and mediators. 1782 41

PPARs are transcription factors belonging to the superfamily of nuclear receptors. PPAR-alpha is involved in the regulation of fatty acid (FA) uptake and oxidation, inflammation and vascular function, while PPAR-gamma participates in FA uptake and storage, glucose homeostasis and inflammation. The PPARs are thus major regulators of lipid and glucose metabolism. Synthetic PPAR-alpha or PPAR-gamma agonists have been widely used in the treatment of dyslipidaemia, hyperglycaemia and their complications. However, they are associated with an incidence of adverse events. Given the favourable metabolic effects of both PPAR-alpha and PPAR-gamma activators, as well as their potential to modulate vascular disease, combined PPAR-alpha/-gamma activation has recently emerged as a promising concept, leading to the development of mixed PPAR-alpha/-gamma activators. However, some major side effects associated with the synthetic dual activators have been reported. It is unclear whether this is a specific effect of the particular synthetic compounds or a class effect. To date, a medication that may combine the beneficial metabolic effects of PPAR-alpha and PPAR-gamma activation with fewer undesirable side effects has not been successfully developed. Pomegranate plant parts are used traditionally for the treatment of various disorders. However, only pomegranate flower has been prescribed in Unani and Ayurvedic medicines for the treatment of diabetes. This review provides a new understanding of the dual PPAR-alpha/-gamma activator properties of pomegranate flower in the potential treatment of diabetes and its associated complications.
Diabetes Obes Metab 2008 Jan
PMID:Pomegranate flower: a unique traditional antidiabetic medicine with dual PPAR-alpha/-gamma activator properties. 1809 47

Recent studies have demonstrated that adipocyte fatty acid binding proteins (FABP) may play a role in the etiopathogenesis of insulin resistance. The aim of our study was to assess serum FABP levels in obese patients with type 2 diabetes mellitus (T2DM) before and after 3 months of treatment with PPAR-alpha agonist fenofibrate (F) and to explore the relationship of FABP to biochemical parameters and measures of insulin sensitivity assessed by hyperinsulinemic-isoglycemic clamp. We measured biochemical parameters by standard laboratory methods, insulin sensitivity by hyperinsulinemic-isoglycemic clamp and serum concentrations of FABP by commercial ELISA kit in 11 obese females with T2DM before and after three months of treatment with PPAR-alpha agonist fenofibrate and in 10 lean healthy control women (C). Serum FABP levels were 2.5-fold higher in T2DM group relative to C and were not affected by fenofibrate treatment (C: 20.6+/-2.1 microg/l, T2DM before F: 55.6+/-5.7 microg/l, T2DM after F: 54.2+/-5.4 microg/l, p 0.0001 for C vs. T2DM before F). Hyperinsulinemia during the clamp significantly suppressed FABP levels in both C and T2DM group. FABP levels positively correlated with BMI, triglyceride levels, blood glucose, glycated hemoglobin, atherogenic index and insulin levels. An inverse relationship was found between FABP and HDL levels, metabolic clearance rate of glucose, M/I and MCR(glc)/I sensitivity indexes. We conclude that FABP levels are closely related to BMI, parameters of insulin sensitivity, HDL levels and measures of diabetes compensation. This combination makes FABP a valuable marker of metabolic disturbances in patients with type 2 diabetes mellitus.
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PMID:Serum adipocyte fatty acid binding protein levels in patients with type 2 diabetes mellitus and obesity: the influence of fenofibrate treatment. 1819 86

Development of obesity-associated insulin resistance and diabetes mellitus type 2 has been linked to activation of proinflammatory pathways in the liver, leading to impaired insulin signal transduction. To further define the role of hepatic NF-kappaB activation in this process, we have analyzed glucose metabolism in mice with liver-specific inactivation of the NF-kappaB essential modulator gene (NEMO(L-KO) mice) exposed to a high-fat diet (HFD). These animals are protected from the development of obesity-associated insulin resistance, highlighting the importance of hepatic NF-kappaB activation in this context. However, hepatic NEMO deficiency synergizes with HFD in the development of liver steatosis as a consequence of decreased peroxisome proliferator-activated receptor (PPAR-alpha) and increased PPAR-gamma expression. Steatosis interacts with increased inflammation, causing elevated apoptosis in the livers of these mice under HFD. These changes result in liver tumorigenesis of NEMO(L-KO) mice under normal diet, a process that is largely aggravated when these mice are exposed to HFD. These data directly demonstrate the interaction of hepatic inflammation, dietary composition, and metabolism in the development of liver tumorigenesis.
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PMID:Hepatic NF-kappa B essential modulator deficiency prevents obesity-induced insulin resistance but synergizes with high-fat feeding in tumorigenesis. 1821 63

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