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)

AMPK (AMP-activated protein kinase) is a key regulator of cellular energy because of its capacity to detect changes in the concentration of AMP. Recent evidence, however, indicates the existence of alternative mechanisms of activation of this protein. Mitochondrial ROS (reactive oxygen species), generated as a result of the interaction between nitric oxide and mitochondrial cytochrome c oxidase, activate AMPKalpha1 in HUVECs (human umbilical-vein endothelial cells) at a low oxygen concentration (i.e. 3%). This activation is independent of changes in AMP. In the present study we show, using HUVECs in which AMPKalpha1 has been silenced, that this protein is responsible for the expression of genes involved in antioxidant defence, such as manganese superoxide dismutase, catalase, gamma-glutamylcysteine synthase and thioredoxin. Furthermore, peroxisome proliferator-activated-coactivator-1, cAMP-response-element-binding protein and Foxo3a (forkhead transcription factor 3a) are involved in this signalling pathway. In addition, we show that silencing AMPKalpha1 in cells results in a reduced mitochondrial and eNOS (endothelial NO synthase) content, reduced cell proliferation, increased accumulation of ROS and apoptosis. Thus AMPKalpha1 in HUVECs regulates both their mitochondrial content and their antioxidant defences. Pharmacological activation of AMPKalpha1 in the vascular endothelium may be beneficial in conditions such as metabolic syndrome, Type 2 diabetes and atherosclerosis, not only because of its bioenergetic effects but also because of its ability to counteract oxidative stress.
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PMID:AMPKalpha1 regulates the antioxidant status of vascular endothelial cells. 1944 39

Adiponectin is widely known as an adipocytokine with therapeutic potential for its markedly protective function in the pathogenesis of obesity-related disorders, metabolic syndrome, systemic insulin resistance, cardiovascular disease and more recently carcinogenesis. In the present study, we show that adiponectin inhibits adhesion, invasion and migration of breast cancer cells. Further analysis of the underlying molecular mechanisms revealed that adiponectin treatment increased AMP-activated protein kinase (AMPK) phosphorylation and activity as evident by increased phosphorylation of downstream target of AMPK, acetyl-coenzyme A carboxylase and inhibition of p70S6 kinase (S6K). Intriguingly, we discovered that adiponectin treatment increases the expression of tumor suppressor gene LKB1 in breast cancer cells. Overexpression of LKB1 in breast cancer cells further increased adiponectin-mediated phosphorylation of AMPK. Using isogenic LKB1 knockdown cell line pair, we found that LKB1 is required for adiponectin-mediated modulation of AMPK-S6K axis and more importantly, inhibition of adhesion, migration and invasion of breast cancer cells. Taken together these data present a novel mechanism involving specific upregulation of tumor suppressor gene LKB1 by which adiponectin inhibits adhesion, invasion and migration of breast cancer cells. Our findings indicate the possibility of using adiponectin analogues to inhibit invasion and migration of breast cancer cells.
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PMID:LKB1 is required for adiponectin-mediated modulation of AMPK-S6K axis and inhibition of migration and invasion of breast cancer cells. 1948 24

The AMP-activated protein kinase (AMPK) was initially identified as the kinase that phosphorylates the 3-hydroxy 3-methylglutaryl coenzyme A reductase, the rate-limiting enzyme for cholesterol biosynthesis. As the name suggests, the AMPK is activated by increased intracellular concentrations of AMP, and is generally described as a "metabolite-sensing kinase" and when activated initiates steps to conserve cellular energy. Although there is a strong link between the activity of the AMPK and metabolic control in muscle cells, the activity of the AMPK in endothelial cells can be regulated by stimuli that affect cellular ATP levels, such as hypoxia as well as by fluid shear stress, Ca(2+)-elevating agonists, and hormones such as adiponectin. To date the AMPK in endothelial cells has been implicated in the regulation of fatty acid oxidation, small G protein activity and nitric oxide production as well as inflammation and angiogenesis. Moreover, there is evidence indicating that the activation of the AMPK may help to prevent the vascular complications associated with the metabolic syndrome.
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PMID:Activation and signaling by the AMP-activated protein kinase in endothelial cells. 1960 89

Adipose tissue has a key role in the development of metabolic syndrome (MS), which includes obesity, type 2 diabetes, dyslipidaemia, hypertension and other disorders. Systemic insulin resistance represents a major factor contributing to the development of MS in obesity. The resistance is precipitated by impaired adipose tissue glucose and lipid metabolism, linked to a low-grade inflammation of adipose tissue and secretion of pro-inflammatory adipokines. Development of MS could be delayed by lifestyle modifications, while both dietary and pharmacological interventions are required for the successful therapy of MS. The n-3 long-chain (LC) PUFA, EPA and DHA, which are abundant in marine fish, act as hypolipidaemic factors, reduce cardiac events and decrease the progression of atherosclerosis. Thus, n-3 LC PUFA represent healthy constituents of diets for patients with MS. In rodents n-3 LC PUFA prevent the development of obesity and impaired glucose tolerance. The effects of n-3 LC PUFA are mediated transcriptionally by AMP-activated protein kinase and by other mechanisms. n-3 LC PUFA activate a metabolic switch toward lipid catabolism and suppression of lipogenesis, i.e. in the liver, adipose tissue and small intestine. This metabolic switch improves dyslipidaemia and reduces ectopic deposition of lipids, resulting in improved insulin signalling. Despite a relatively low accumulation of n-3 LC PUFA in adipose tissue lipids, adipose tissue is specifically linked to the beneficial effects of n-3 LC PUFA, as indicated by (1) the prevention of adipose tissue hyperplasia and hypertrophy, (2) the induction of mitochondrial biogenesis in adipocytes, (3) the induction of adiponectin and (4) the amelioration of adipose tissue inflammation by n-3 LC PUFA.
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PMID:n-3 PUFA: bioavailability and modulation of adipose tissue function. 1969 99

The balance of cellular energy levels in response to changes of nutrient availability, stress stimuli or exercise is a critical step in maintaining tissue and whole body homeostasis. Disruption of this balance is associated with various pathologies, including the metabolic syndrome. Recently, accumulating evidence has demonstrated that the AMP-activated protein kinase (AMPK) plays a central role in sensing changes in energy levels. The regulation of AMPK activity is currently the subject of significant investigation since this enzyme is a potential therapeutic target in both metabolic disorders and tumorigenesis. In this review, we present novel evidence of crosstalk between Fyn, one member of the Src kinase family, and AMPK.
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PMID:Fyn kinase function in lipid utilization: a new upstream regulator of AMPK activity? 1972 95

Ectopic accumulation of lipids in peripheral tissues, such as pancreatic beta cells, liver, heart and skeletal muscle, leads to lipotoxicity, a process that contributes substantially to the pathophysiology of insulin resistance, type 2 diabetes, steatotic liver disease and heart failure. Current evidence has demonstrated that hypothalamic sensing of circulating lipids and modulation of hypothalamic endogenous fatty acid and lipid metabolism are two bona fide mechanisms modulating energy homeostasis at the whole body level. Key enzymes, such as AMP-activated protein kinase (AMPK) and fatty acid synthase (FAS), as well as intermediate metabolites, such as malonyl-CoA and long-chain fatty acids-CoA (LCFAs-CoA), play a major role in this neuronal network, integrating peripheral signals with classical neuropeptide-based mechanisms. However, one key question to be addressed is whether impairment of lipid metabolism and accumulation of specific lipid species in the hypothalamus, leading to lipotoxicity, have deleterious effects on hypothalamic neurons. In this review, we summarize what is known about hypothalamic lipid metabolism with focus on the events associated to lipotoxicity, such as endoplasmic reticulum (ER) stress in the hypothalamus. A better understanding of these molecular mechanisms will help to identify new drug targets for the treatment of obesity and metabolic syndrome.
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PMID:Hypothalamic lipotoxicity and the metabolic syndrome. 1979 7

AMP-activated protein kinase (AMPK) is considered an important target for treatment of type II diabetes and the metabolic syndrome. The muscle-specific isoform of the regulatory gamma-subunit, gamma 3, within the context of AMPK alpha 2 beta 2 gamma 3 complex, is involved in glucose and fat metabolism in skeletal muscle. In an effort to identify gamma 3-specific activators of AMPK, we have produced truncated human recombinant AMPK alpha 2 beta 2 gamma 3 (hu alpha 2 beta 2 gamma 3(trunc)) for biochemical characterization. Infection of insect cells with three baculoviral stocks encoding the individual subunits resulted in soluble expression of a stable hu alpha 2 beta 2 gamma 3(trunc) heterotrimeric complex. Co-expression of the three subunits was essential for solubility since the individual protein components, when expressed separately, were almost completely insoluble. The hu alpha 2 beta 2 gamma 3(trunc) heterotrimer was purified to apparent homogeneity from baculovirus-infected insect cells in a 1:1:1 stoichiometric complex. The hu alpha 2 beta 2 gamma 3(trunc) heterotrimer had significant circular dichroism signal that was lost as a function of temperature, implying that the purified protein was folded. The hu alpha 2 beta 2 gamma 3(trunc) complex was capable of binding AMP and ATP, although the heterotrimer showed preference for AMP, in particular, as seen by thermal denaturation circular dichroism analyses. Further experiments showed that the truncated complex bound ZMP (AICAR-monophosphate) albeit with much lower affinity than AMP. To investigate whether there were isoform-specific differences in the nucleotide binding affinities, a well-characterized truncated mammalian alpha 1 beta 2 gamma 1 (m alpha 1 beta 2 gamma 1(trunc)) equivalent of hu alpha 2 beta 2 gamma 3(trunc) was also purified. The gamma 1 and gamma 3 isoforms showed comparable nucleotide binding affinities and solution behavior properties.
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PMID:Purification and characterization of truncated human AMPK alpha 2 beta 2 gamma 3 heterotrimer from baculovirus-infected insect cells. 1983 52

Unfavorable lipid accumulation may occur in the kidneys in the presence of metabolic syndrome and diabetes. The aim of this study was to investigate whether excess lipids would accumulate in the kidneys of Otsuka Long-Evans Tokushima Fatty (OLETF) rats, an animal model of metabolic syndrome. From 34 weeks of age, OLETF rats were treated orally with a calcium channel blocker, benidipine (3 mg kg(-1) per day), or an AT1 receptor blocker, losartan (25 mg kg(-1) per day), for 8 weeks. Blood pressure was slightly but significantly higher in the untreated OLETF rats (149+/-4 mm Hg) than in Long-Evans Tokushima Otsuka (LETO) rats (136+/-2 mm Hg), and both losartan (135+/-3 mm Hg) and benidipine (138+/-3 mm Hg) reduced blood pressure in OLETF rats to a level comparable to that in LETO rats. Tissue content of triglycerides (TG) was greater in OLETF rats than in LETO rats (6.24+/-3.77 and 2.85+/-1.32 microg mg(-1) x tissue, respectively), and both losartan and benidipine reduced these values. Histological analysis showed lipid droplets in tubular cells in which increased dihydroethidium fluorescence was present. Expression of peroxisome proliferator-activated receptor-alpha, PGC-1alpha and uncoupling protein-2 was found to be higher in OLETF rats than in LETO rats; however, the expression of these genes was not altered by treatment with either antihypertensive drug. In contrast, both losartan and benidipine increased the amount of total and phosphorylated forms of AMP kinase and the expression of carnitine palmitoyltransferase-1 (CPT-1). In conclusion, treatment of OLETF rats with losartan and benidipine reduced the tissue content of TG, decreased the production of superoxide and regulated the expression of genes related to fatty acid oxidation such as AMP-activated protein kinase and CPT-1 in the kidneys.
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PMID:Effects of the AT(1) receptor blocker losartan and the calcium channel blocker benidipine on the accumulation of lipids in the kidney of a rat model of metabolic syndrome. 2005 86

Nonalcoholic fatty liver disease (NAFLD) is characterized by hepatic fat accumulation in the absence of significant ethanol consumption, viral infection, or other specific causes of liver disease. Currently the most common chronic liver disease, affecting 30% of the Western world, NAFLD may progress to cirrhosis and end-stage liver disease and may increase the risk of developing diabetes and cardiovascular disease. Although its pathogenesis is unclear, NAFLD is tightly associated with insulin resistance and the metabolic syndrome. No established treatment exists, and current research is targeting new molecular mechanisms that underlie NAFLD and associated cardiometabolic disorders. This review discusses some of these emerging molecular mechanisms and their therapeutic implications for the treatment of NAFLD: microRNAs, incretin analogs/antagonists, liver-specific thyromimetics, AMP-activated protein kinase activators, and nuclear receptors farnesoid X receptor and pregane X receptor.
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PMID:Emerging molecular targets for the treatment of nonalcoholic fatty liver disease. 2005 44

Skeletal muscle phenotype plays a critical role in human performance and health, and skeletal muscle oxidative capacity is a key determinant of exercise tolerance. More recently, defective muscle oxidative metabolism has been implicated in a number of conditions associated with the metabolic syndrome, cardiovascular disease and muscle-wasting disorders. AMPK (AMP-activated protein kinase) is a critical regulator of cellular and organismal energy balance. AMPK has also emerged as a key regulator of skeletal muscle oxidative function, including metabolic enzyme expression, mitochondrial biogenesis and angiogenesis. AMPK mediates these processes primarily through alterations in gene expression. The present review examines the role of AMPK in skeletal muscle transcription and provides an overview of the known transcriptional substrates mediating the effects of AMPK on skeletal muscle phenotype.
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PMID:AMPK-mediated regulation of transcription in skeletal muscle. 2008 30

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