Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

While the incidence of essential hypertension is not increased in type 1 diabetics, it is about three times as high in type 2 diabetics. Since in 50% of the cases, hypertension is present before the metabolic disorder becomes manifest, an association between the etiologies of the two disturbances was suspected as long as 65 years ago. A new understanding of the significance of insulin resistance and hyperinsulinemia suggests that the two conditions are part of a single metabolic disorder. This is supported by the fact that normal-weight hypertensives can also manifest insulin resistance, and they more often develop a type 2 diabetes mellitus. These facts urge us to re-think our therapeutic approach to hypertension, and to employ, as far as possible, only those substances that have no negative influence on the incidence of the metabolic disorder. With the introduction of ACE-inhibitors capable of improving insulin sensitivity, we now have, for the first time, the possibility of improving the prognosis of the metabolic syndrome. Moreover, their molecular mechanism of action provides initial clues as to the possible etiology of the syndrome.
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PMID:[Essential hypertension and diabetes mellitus]. 218 85

It has been increasingly recognised in recent years that type 2 (non-insulin-dependent) diabetes is part of a cluster of cardiovascular risk factors known as the metabolic syndrome, but also endorsed with such names as the deadly quartet, syndrome X and the insulin resistance syndrome. Atherosclerosis is the most common complication of type 2 diabetes among Europeans, and coronary artery, cerebrovascular and peripheral vascular disease are 2 to 5 times more common in people with this condition than in those without diabetes. These observations indicate that the treatment of type 2 diabetes requires agents that do more than simply lower blood glucose levels, and a therapy with both antihyperglycaemic effects and beneficial effects on dyslipidaemia, hypertension, obesity, hyperinsulinaemia and insulin resistance is likely to be most useful. In this respect, metformin has an important and established role: this drug has been shown to lower blood glucose and triglyceride levels, and to assist with weight reduction and to reduce hyperinsulinaemia and insulin resistance. Studies in the Israeli sand rat, Psammomys obesus, have indicated hyperinsulinaemia/insulin resistance to be the initial and underlying metabolic disorder in obesity and type 2 diabetes. Thus, the well established effect of metformin in reducing insulin resistance makes this drug an excellent candidate for the prevention of progression of impaired glucose tolerance to type 2 diabetes, and for the reduction of mortality associated with cardiovascular disease.
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PMID:Clinical efficacy of metformin against insulin resistance parameters: sinking the iceberg. 1057 21

Authors analysed the cardiovascular risk factors, their relationship to each other, the rate of multiple appearance in 1476 patients (774 men, 702 women) with essential hypertension. They produced a special questionnaire and risk factor analysing program for performing static and dynamic investigations on the base of international and domestic experiences. The data of their investigations verified, that the occurrence of obesity is very frequent and is associated with abnormal cholesterol and triglyceride values. The appearance of glucose metabolism disorder was in 44% of patients. The rate of metabolic syndrome can be estimated on 25-30% in the hypertensive population.
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PMID:[Cardiovascular risk factors in essential hypertension]. 1134 Sep 43

Insulin resistance is a common metabolic disorder. It plays an important role in the metabolic syndrome (or syndrome X), type 2 diabetes, obesity and in the lipodystrophic syndromes recently described, associated with treatments of HIV disease and represent a worrying cardiovascular risk. However, its pathophysiology remains poorly understood in these situations. Syndromes of major insulin resistance, although rare, allow investigations of the mechanisms leading to alterations in the insulin transduction pathways. Mutations of the insulin receptor gene have been discovered in rare patients. Therefore alterations at the post-receptor level are probably causative in other cases. Furthermore, the role of body fat repartition seems determinant in the apparition of insulin resistance, as attested by the clinical characteristics of lipodystrophies, either congenital or acquired. The two lipodystrophic syndromes which molecular defect is identified are the familial partial lipodystrophy of the Dunnigan type, due to mutations of the lamin A/C gene, and the congenital generalized lipodystrophy, linked to alterations in the protein seipin. However, their physiopathology remains mysterious. Lamin A/C is indeed an ubiquitous nuclear protein, which is also mutated in a genetic squelettic and/or cardiac myopathy, and seipin is a protein of unknown function mainly expressed in brain. Progresses in the understanding of these syndromes, in particular lipodystrophies which can be considered as caricatural models of the metabolic syndrome, will probably allow to clarify the physiopathology of the more common forms of insulin resistance.
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PMID:[Major insulin resistance syndromes: clinical and physiopathological aspects]. 1183 62

Type 2 diabetes is a metabolic disorder that, if untreated, can result in macrovascular and microvascular complications. Lowering blood glucose levels primarily reduces microvascular risk; other treatment strategies are necessary to lower the risk for macrovascular disease. Because most patients with diabetes die of macrovascular disease, it is vitally important that patients with diabetes receive aggressive therapies to lessen this risk. It has been found that the risk for macrovascular complications begins even earlier than the risk for microvascular complications. Therefore, patients with insulin resistance (now called prediabetes) should be identified and treated to lower their risk of cardiovascular disease and reduce their risk for progression to diabetes. Two cases are reviewed--a patient with prediabetes and the metabolic syndrome, and a second patient with type 2 diabetes and advanced cardiovascular disease. A review of potential cardiovascular therapies is included.
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PMID:Treating diabetes: cardiovascular benefits of antidiabetes drugs. 1202 37

Obesity is a major contributor to the prevalence of cardiovascular disease in the developed world, and yet has only recently been afforded the same level of attention as other risk factors of coronary artery disease. Obesity is a chronic metabolic disorder associated with cardiovascular disease and increased morbidity and mortality. It is apparent that a variety of adaptations/alterations in cardiac structure and function occur as excessive adipose tissue accumulates, even in the absence of comorbidities. Shifts toward a less physically demanding lifestyle are observed today throughout different populations, and this scourge associated with obesity implicates a corresponding increase in the number of individuals afflicted with the metabolic syndrome, which defines the obese patient as being "at risk." Adipose tissue is not simply a passive storehouse for fat, but an endocrine organ that is capable of synthesizing and releasing into the bloodstream a variety of molecules that may impact unfavorably the risk factor profile of a patient. Indeed, obesity may affect atherosclerosis through unrecognized variables and risk factors for coronary artery disease such as dyslipidemia, hypertension, glucose intolerance, inflammatory markers, and the prothrombotic state. By favorably modifying lipids, decreasing blood pressure, and decreasing levels of glycemia, proinflammatory cytokines, and adhesion molecules, weight loss may prevent the progression of atherosclerosis or the occurrence of acute coronary syndrome events in the obese high-risk population.
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PMID:Obesity and cardiovascular disease. 1236 92

The precise molecular cause of insulin resistance has not yet been elucidated. Resistance to the normal action of insulin contributes to the pathogenesis of a number of common human disorders, including type 1 (insulin-dependent) and type 2 (non-insulin-dependent) diabetes mellitus, hypertension, and the Metabolic Syndrome X, thus constituting a major public health problem. A disease program aimed at combating this disorder should focus on the identification of targets for therapeutic intervention which may overcome insulin resistance and hence the associated metabolic consequences characteristic of the Metabolic Syndrome. Although the primary defect in the pathogenesis of type 2 diabetes is unknown, genetic and environmental factors are likely to contribute to the manifestation of this progressive metabolic disorder, which is usually not clinically apparent until mid-life. Defects at the level of glucose uptake/phosphorylation characterize insulin resistance in skeletal muscle of type 2 diabetic patients. Identification of putative components of the insulin receptor-signaling pathway may offer insights into mechanisms involved in insulin resistance. Enhanced flux of free fatty acids due to impaired lipid metabolism may contribute to impaired insulin secretion and peripheral insulin resistance. Genes regulating lipolysis are prime candidates for susceptibility towards the metabolic syndrome. Here we describe pathways constituting complex interactions that control glucose homeostasis. We will be considering (1) regulation of glucose uptake by the insulin receptor signaling pathway, and (2) control of adipogenesis and insulin sensitivity by the sterol response element binding protein (SREBP) pathway.
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PMID:Analysis of insulin signaling pathways through comparative genomics. Mapping mechanisms for insulin resistance in type 2 (non-insulin-dependent) diabetes mellitus. 1284 56

Cardiovascular disease is a leading cause of death and disability in patients with diabetes or metabolic syndrome (MS). The available data suggest that many patients with diabetes or MS already have vascular abnormalities by the time they are diagnosed with their metabolic disorder. Endothelial dysfunction (ED), which is one of the initial steps in the process of vascular disease, is often present in patients with diabetes or MS. Although the precise mechanism(s) by which diabetes or MS causes ED remains to be elucidated, several possibilities exist. Hyperglycemia, hyperinsulinemia, increased oxidative stress, and diabetic dyslipidemia can all contribute to ED individually or in concert with one another. ED in the setting of diabetes or MS can subsequently result in the activation of a variety of pathways that alter vascular function and participate in the process of vascular remodeling and atherosclerosis. Because insulin resistance is the predominant mechanism responsible for various perturbations seen in MS or diabetes, it is essential to develop a therapeutic strategy that can improve insulin sensitivity with the hope that such interventions would reduce the risk of future cardiovascular events.
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PMID:Mechanisms of endothelial dysfunction in the metabolic syndrome. 1286 90

This year's Metabolic Diseases Drug Discovery World Summit, consisting of a gathering of mostly researchers from pharmaceutical and biotech industry, was held in picturesque San Diego. The diverse programme covered recent advances in drug discovery and development for the treatment of type II diabetes, metabolic syndrome and obesity. The ranges of topics included basic physiology, therapeutic target identification/validation, lead development/optimisation, profiling of development candidates and update on clinical trials. This report will attempt to highlight some of the important developments presented at this symposium.
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PMID:Metabolic Diseases Drug Discovery World Summit. 1466 6

Metabolic syndrome also can be named insulin resistance syndrome. The main clinical manifestations include metabolic disorders of glucose and lipid and some diseases caused by the metabolic disorder, such as impaired glucose tolerance or diabetes, obesity, hyperlipemia, fatty liver, hypertension, coronary heart disease, microalbuminuria, etc. According to the theory of zang-fu organs (viscera) in traditional Chinese medicine, these diseases all result from the deficiency of spleen-qi. They are characterized by deficiency in the Ben (root) and excess in the Biao (branch). The Ben (root) is the failure of the spleen in transportation, and the Biao (branch) is stagnation of qi, blood, phlegm, fire, dampness and food. In the prevention and treatment of metabolic syndrome, it is advocated that the intervention of medicine should be used as early as possible, so as to slow down the occurrence and development of insulin resistance, and that emphasis should be transferred from decreasing blood glucose alone to comprehensive prevention of risk factors, especially to the prevention of cardiovascular events. The effect of traditional Chinese herbs is not as good as the western drugs in decreasing the blood pressure and glucose. However, the traditional Chinese herbs have distinctive superiority in ameliorating the insulin resistance, protecting the injury of vascular endothelial cells, regulating the metabolism of lipid, inhibiting the hypercoagulability, and treating the inflammation. Moreover, they are relatively safe. Therefore, the integration of the traditional Chinese medicine and western medicine is worth further research.
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PMID:[Prevention and treatment of metabolic syndrome with integrated traditional Chinese and western medicine]. 1538 69


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