Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Type 2 diabetes mellitus is a disease of complex pathogenesis and pleiotropic clinical manifestations. The greatest clinical challenge in this disease is the prevention of the long-term complications, many of which involve cardiovascular outcomes. The peroxisome proliferator-activated receptor (PPAR) alpha and gamma isoforms of the family of nuclear transcription factors are pharmaceutical targets for therapeutic intervention because they can potentially ameliorate not only the hyperglycemia of diabetes, but also the dyslipidemia that is characteristic of this disorder (low high-density lipoprotein cholesterol, high triglycerides, small, dense low-density lipoprotein particles). Novel drugs with dual PPAR alpha and gamma activity have been under clinical development for type 2 diabetes, and they have shown promise in early studies with regard to glucose lowering and improved lipid profile when compared with the PPAR-gamma-specific thiazolidinediones. Unfortunately, the dual PPARs available to date have some of the PPAR-gamma-associated side effect profile, including fluid retention and weight gain, which have limited the further clinical development of higher doses that show improved efficacy. This review will briefly summarize our understanding of the pathogenesis of type 2 diabetes, the role of the PPAR family of receptors, and the potential for clinical use of this novel emerging class of agents that serve as dual activators of both PPAR-alpha and PPAR-gamma.
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PMID:Dual PPAR alpha/gamma agonists: promises and pitfalls in type 2 diabetes. 1730 76

Primary lipodystrophies represent a heterogeneous group of very rare diseases with a prevalence of less than 1 case for 100.000, inherited or acquired, caracterized by a loss of body fat either generalized or localized (lipoatrophy). In some forms, lipoatrophy is associated with a selective hypertrophy of other fat depots. Clinical signs of insulin resistance are often present: acanthosis nigricans, signs of hyperandrogenism. All lipodystrophies are associated with dysmetabolic alterations with insulin resistance, altered glucose tolerance or diabetes and hypertriglyceridemia leading to a risk of acute pancreatitis. Chronic complications are those resulting from diabetes involving the retina, kidney and nerves, cardiovascular complications and steatotic liver lesions that could result in cirrhosis. Genetic forms of generalized lipodystrophy (or Berardinelli-Seip syndrome) result, in most cases, from recessive mutations in one of two genes: either BSCL2 coding seipin or BSCL1 coding AGPAT2, an acyl-transferase involved in triglyceride synthesis. Acquired generalized lipodystrophy (Lawrence syndrome) is of unknown origin but is sometimes associated with signs of autoimmunity. Partial lipodystrophies can be familial with dominant transmission. Heterozygous mutations have been identified in the LMNA gene encoding nuclear lamin A/C belonging to the nuclear lamina, or in PPARG encoding the adipogenic transcription factor PPARgamma. Some less typical lipodystrophies, associated with signs of premature aging, have been linked to mutations in LMNA or in the ZMPSTE24 gene encoding the protease responsible for the maturation of prelamin A into lamin A. Acquired partial lipodystrophy (Barraquer-Simons syndrome) is characterized by cephalothoracic fat loss. Its aetiology is unknown but mutations in LMNB2, encoding the lamina protein lamin B2, could represent susceptibility factors. Highly active antiretroviral treatments for HIV infection are currently the most frequent cause of acquired secondary lipodystrophic syndromes. The genetic diagnosis is performed in specialized laboratories and, in the most severe forms, antenatal diagnosis could be proposed. Treatment of diabetes, dyslipidemia and complications involves the classical intervention strategies. Insulino-sensitizing drugs are useful. Therapeutic trials with recombinant human leptin in patients with very low leptin levels reported good results with respect to the metabolic and liver alterations. The prognosis is linked to the precocity and severity of the diabetic, cardiovascular and liver complications.
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PMID:[Primary lipodystrophies]. 1732 32

Patients with type 2 diabetes face a high risk of cardiovascular morbidity and mortality. In these patients a whole cluster of cardiovascular risk factors is found, with insulin resistance being the most significant. Thiazolidinediones, in activating the peroxisome proliferator-activated receptor gamma, lower the insulin resistance. The two thiazolidinediones available at present, pioglitazone and rosiglitazone, do not differ in their effects on insulin resistance or glucose metabolism. They do, however, reveal very different effects on the dyslipidemia that is characteristic of diabetes, with elevated triglycerides, low high-density lipoprotein (HDL) and atherogenic small dense lipoprotein (LDL) cholesterol. Inter alia, data from a comparative study show that pioglitazone improves diabetic dyslipidemia more efficaciously than rosiglitazone. Despite similar effects on hyperglycemia (HbA1c reduction by 0.6% and 0.7%), both thiazolidinediones differ significantly in their effects on triglycerides (pioglitazone -51.9 mg/dl; rosiglitazone +13.1 mg/dl; p < 0.001), HDL cholesterol (pioglitazone +5.2 mg/dl; rosiglitazone +2.4 mg/dl; p < 0.001) and LDL cholesterol (pioglitazone +12.3 mg/dl; rosiglitazone +21.3 mg/dl; p < 0.001). LDL particle concentration was reduced with pioglitazone (n7.85%) and increased with rosiglitazone (+12%; p > 0.001). Only for pioglitazone the PROactive study, a major outcome trial, documented a significant reduction of cardiovascular outcomes. The principal secondary endpoint of death from any cause, nonfatal myocardial infarction (excluding silent myocardial infarction) or stroke was significantly reduced (16%; p = 0.027). The correlation of improved dyslipidemia, reconfirmed by PROactive, and cardiovascular prevention is yet to be resolved. However, as long as the vascular protective mechanism of pioglitazone is not conclusively resolved, findings may not be transmitted to other thiazolidinediones. For these substances, results from major outcome studies are to be required that prove a reduction of the cardiovascular risk.
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PMID:[Effects of thiazolidinediones on dyslipidemia in patients with type 2 diabetes. Are all equally vasoprotective?]. 1732 35

Because of their wide range of actions on glucose homeostasis, lipid metabolism and vascular inflammation, peroxisome proliferator-activated receptors (PPARs) are promising targets for the development of new drugs for the treatment of metabolic disorders such as diabetes, dyslipidemia and atherosclerosis. In clinical practice, PPARalpha agonists, such as the already available fibrates, improve dyslipidemia, while PPARgamma agonists, such as thiazolidinediones, improve insulin resistance and diabetes. The complementary action of simultaneous activation of each PPAR in patients suffering from metabolic syndrome and type 2 diabetes has led to new pharmacological strategies focused on the development of agonists targeting more than one receptor such as the dual PPARalpha/gamma agonists. However, despite the proven benefits of targeting PPARs, safety concerns have recently led to late stage development failures of various PPAR agonists including novel specific PPARgamma agonists and dual PPARalpha/gamma agonists. These safety concerns include potential carcinogenicity in rodents, signs of myopathy and rhabdomyolysis, increase in plasma creatinine and homocysteine, weight gain, fluid retention, peripheral edema and potential increased risk of cardiac failure. Although the discontinued compounds shared common side effects, the reason for discontinuation was always compound specific and the toxicological or adverse effects which have motivated the discontinuation could be either due to the activation of PPARgamma, PPARalpha or both (class effect) or due to a PPAR unrelated effect. Thus, the risk evaluation of each adverse effect should be viewed on a case by case basis considering both the PPAR profile of the drug, its absorption/distribution profile, the nature of the side effect and the putative PPAR-related mechanism of action. This review mainly focuses on the preclinical and clinical adverse events of PPAR agonists that could be of concern when considering the development of new PPAR agonists. The selective modulation of PPAR activities is a promising approach to develop new drugs with preserved efficacy but diminished adverse effects.
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PMID:Safety issues and prospects for future generations of PPAR modulators. 1742 30

A series of 1,4-benzyloxybenzylsulfanylaryl carboxylic acids were prepared and their activities for PPAR receptor subtypes (alpha, delta, and gamma) with potential indications for the treatment of dyslipidemia were investigated. Analog 13a displayed the greatest binding affinity (IC(50)=10nM) and selectivity (120-fold) for PPARdelta over PPARalpha. Many of the analogs investigated were found to be highly selective for PPARdelta and were dependent on the point of attachment of the substituent. In the 1,4-series, analog 28e was found to be the most potent (IC(50)=1.7 nM) and selective (>1000-fold) compound for PPARdelta. None of the compounds tested showed appreciable binding affinity for PPARgamma.
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PMID:Discovery of highly potent and selective benzyloxybenzyl-based peroxisome proliferator-activator receptor (PPAR) delta agonists. 1749 50

Fibrates and thiazolidinediones are agonists of peroxisome proliferator-activated receptors (PPAR) alpha and gamma, pharmacologically designed to control dyslipidemia and insulin resistance, respectively. Several works have reported the toxicity of some agonists in a number of tissues. In this work we have analyzed the toxicity of two PPARalpha (WY14643 and clofibrate) and two PPARgamma (pioglitazone and ciglitazone) agonists, using three different renal proximal tubular cell lines: Opossum OK, pig LLC-PK1, and murine MCT. Cell death was determined by the activity of intracellular lactate dehydrogenase. WY14643 and ciglitazone increased cell death with LC50 values of 92-124 microM and 8.6-14.8 microM, respectively, depending on the cell line. Clofibrate and pioglitazone were, however, non-cytotoxic even at concentrations of 10 and 100 higher than the corresponding EC50, which suggests that cell death is independent of PPAR activation. Discrimination between apoptosis or necrosis was analyzed by light microscopy and stress fiber morphology, double staining with acridine orange and ethidium bromide, binding of annexin V, caspase-3 activity, and DNA laddering. With these methods, no signs of apoptosis were observed, which suggests a direct necrosis of the compounds on these renal proximal tubular cell lines.
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PMID:Cytotoxicity of peroxisome proliferator-activated receptor alpha and gamma agonists in renal proximal tubular cell lines. 1752 63

Agonists of PPARalpha and PPARgamma are currently approved for use in treating, respectively, dyslipidemia and type 2 diabetes. Agonists of PPARbeta/delta are currently in development by several pharmaceutical companies. Despite their therapeutic importance, there are dose limiting side effects associated with PPAR drug treatments, thus a new generation of safer PPAR drugs are being actively sought after. In this review we will discuss the side effects associated the PPARs, how the current drugs in clinical development were discovered and new concepts in how to screen for PPAR drugs.
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PMID:The next generation of PPAR drugs: do we have the tools to find them? 1760 66

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

Improvements in our understanding of the functions of peroxisome proliferator-activated receptor (PPAR) subtypes as master regulators of many biological functions have made it possible to develop novel PPAR ligands with characteristic subtype selectivity as biochemical tools and/or candidate drugs for the treatment of PPAR-dependent diseases such as metabolic syndrome, which includes type II diabetes, dyslipidemia, obesity, hypertension, and inflammation. Based on the findings that the glitazone-class antidiabetic agents, and fibrate-class antidyslipidemic agents are ligands of PPARgamma and PPARalpha respectively, much research interest has been focused on these two subtypes as therapeutic targets for the treatment of type II diabetes and dyslipidemia. In contrast, research interest in PPARdelta has been limited. However, since 2001, the availability of PPARdelta knockout animals and selective ligands has led to the uncovering of possible roles of PPARdelta in fatty acid metabolism, insulin resistance, reverse cholesterol transport, inflammation, and so on. It has become clear that ligands able to modulate PPARdelta-mediated pathways are candidates for the treatment of altered metabolic function. This review focuses on recent medicinal chemical studies to identify PPARdelta-selective agonists.
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PMID:Design, synthesis, and structure-activity relationship study of peroxisome proliferator-activated receptor (PPAR) delta-selective ligands. 1789 82


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