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)

A three-molecular-window approach for (1)H NMR spectroscopy of serum is presented to obtain specific molecular data on lipoproteins, various low-molecular-weight metabolites, and individual lipid molecules together with their degree of (poly)(un)saturation. The multiple data were analysed with self-organising maps, illustrating the strength of the approach as a holistic metabonomics framework in solely data-driven metabolic phenotyping. We studied 180 serum samples of which 30% were related to mild cognitive impairment (MCI), a neuropsychological diagnosis with severely increased risk for Alzheimer's disease (AD). The results underline the association between MCI and the metabolic syndrome (MetS). Additionally, the low relativeamount of omega-3 fatty acids appears more indicative of MCI than low serum omega-3 or polyunsaturated fatty acid concentration as such. The analyses also feature the role of elevated glycoproteins in the risk for AD, supporting the view that coexistence of inflammation and the MetS forms a high risk condition for cognitive decline.
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PMID:A multi-metabolite analysis of serum by 1H NMR spectroscopy: early systemic signs of Alzheimer's disease. 1870 Jan 35

Since the discovery of oxidized phospholipids (OxPL) and their implication as modulators of inflammation in cardiovascular disease, roles for these lipid oxidation products have been suggested in many other disease settings. Lipid oxidation products accumulate in inflamed and oxidatively damaged tissue, where they are derived from oxidative modification of lipoproteins, but also from membranes of cells undergoing apoptosis. Thus, increased oxidative stress as well as decreased clearance of apoptotic cells has been implied to contribute to accumulation of OxPL in chronically inflamed tissues.A central role for OxPL in disease states associated with dyslipedemia, including atherosclerosis, diabetes and its complications, metabolic syndrome, and renal insufficiency, as well as general prothrombotic states, has been proposed. In addition, in organs which are constantly exposed to oxidative stress, including lung, skin, and eyes, increased levels of OxPL are suggested to contribute to inflammatory conditions. Moreover, accumulation of OxPL causes general immunmodulation and may lead to autoimmune diseases. Evidence is accumulating that OxPL play a role in lupus erythematosus, antiphospholipid syndrome, and rheumatoid arthritis. Last but not least, a role for OxPL in neurological disorders including multiple sclerosis (MS), Alzheimer's and Parkinson's disease has been suggested.This chapter will summarize recent findings obtained in animal models and from studies in humans that indicate that formation of OxPL represents a general mechanism that may play a major role in chronic inflammatory and autoimmune diseases.
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PMID:The role of phospholipid oxidation products in inflammatory and autoimmune diseases: evidence from animal models and in humans. 1875 17

At the Sixth Annual Mild Cognitive Impairment Symposium in Miami Beach, Florida, a multidisciplinary group of experts from the Alzheimer's disease (AD) community met to discuss the current status of AD intervention trials and future plans for designing trials of prodromal AD and/or mild cognitive impairment. There is no agreement regarding a single pathogenic mechanism to be targeted, although a consensus seems to be emerging that effective treatment will require attacking multiple targets. These targets include beta amyloid (Ass) aggregates (including different isoforms and different aggregation species), neurofibrillary tangles composed of hyperphosphorylated tau, neuronal and synaptic loss, and mechanisms that contribute to Ass deposition-induced inflammation and immune dysregulation. Vascular disease, which is very common in the elderly, also appears to be a contributor to AD pathogenesis and might be modifiable through pharmacologic and lifestyle interventions to reduce the impact of conditions such as hypertension and metabolic syndrome. Potential disease-modifying approaches that were discussed, including pharmacologic agents that target Abeta, immunotherapy to eliminate plaques in the brain, passive immunotherapy, and secretase inhibitors. Nonpharmacologic approaches included stimulation of endogenous bone marrow cells, which can enter the brain and remove amyloid deposits, and cognitive and exercise training. Innovative trial designs are required that will allow a drug's effectiveness to be determined efficiently in the transition from normal to mild cognitive impairment to probable AD. This might be achieved through the use of various forms of imaging and measurement of biochemical markers in the blood or cerebrospinal fluid, as well as measures that assess very early cognitive and behavioral changes. In the absence of effective treatments for AD, clinicians are faced with a dilemma about why, when, and how to disclose the diagnosis to patients and their family members and/or caregivers. The issues were discussed from multiple perspectives by a panel that included a lay representative, neurologist, psychiatrist, primary care physician, and a psychosocial researcher.
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PMID:The basis for disease-modifying treatments for Alzheimer's disease: the Sixth Annual Mild Cognitive Impairment Symposium. 1911 11

Cognitive dysfunction and dementia have recently been proven to be common (and underrecognized) complications of diabetes mellitus (DM). In fact, several studies have evidenced that phenotypes associated with obesity and/or alterations on insulin homeostasis are at increased risk for developing cognitive decline and dementia, including not only vascular dementia, but also Alzheimer's disease (AD). These phenotypes include prediabetes, diabetes, and the metabolic syndrome. Both types 1 and 2 diabetes are also important risk factors for decreased performance in several neuropsychological functions. Chronic hyperglycemia and hyperinsulinemia primarily stimulates the formation of Advanced Glucose Endproducts (AGEs), which leads to an overproduction of Reactive Oxygen Species (ROS). Protein glycation and increased oxidative stress are the two main mechanisms involved in biological aging, both being also probably related to the etiopathogeny of AD. AD patients were found to have lower than normal cerebrospinal fluid levels of insulin. Besides its traditional glucoregulatory importance, insulin has significant neurothrophic properties in the brain. How can clinical hyperinsulinism be a risk factor for AD whereas lab experiments evidence insulin to be an important neurothrophic factor? These two apparent paradoxal findings may be reconciliated by evoking the concept of insulin resistance. Whereas insulin is clearly neurothrophic at moderate concentrations, too much insulin in the brain may be associated with reduced amyloid-beta (Abeta) clearance due to competition for their common and main depurative mechanism - the Insulin-Degrading Enzyme (IDE). Since IDE is much more selective for insulin than for Abeta, brain hyperinsulinism may deprive Abeta of its main clearance mechanism. Hyperglycemia and hyperinsulinemia seems to accelerate brain aging also by inducing tau hyperphosphorylation and amyloid oligomerization, as well as by leading to widespread brain microangiopathy. In fact, diabetes subjects are more prone to develop extense and earlier-than-usual leukoaraiosis (White Matter High-Intensity Lesions - WMHL). WMHL are usually present at different degrees in brain scans of elderly people. People with more advanced WMHL are at increased risk for executive dysfunction, cognitive impairment and dementia. Clinical phenotypes associated with insulin resistance possibly represent true clinical models for brain and systemic aging.
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PMID:(Pre)diabetes, brain aging, and cognition. 1913 49

G-protein-coupled receptors (GPCRs) comprise the largest family of cell surface receptors and are the major drug targets for the treatment of various human diseases. The lack of sensitive and selective antibodies capable of recognizing endogenous GPCRs, however, hampers the progress of research on this class of receptors. GalR1 through GalR3, GPCRs for the neuropeptide galanin, are potential drug targets for seizure, Alzheimer's disease, depression and anxiety, as well as pain and metabolic syndrome; therefore, determining the cellular and subcellular localization of galanin receptors is of high interest. Several Antibodies raised against galanin receptors are currently available from commercial or academic sources. We have tested several antibodies to GalR1 and GalR2 on tissues from respective knockout mice. Unexpectedly, the immunoreactivity patterns are the same in wild-type and in knockout mice, suggesting that current GalR1 and GalR2 antibodies, under standard immunodetection conditions, might not be suitable for mapping the receptors. These findings argue for taking precaution when using antibodies to galanin receptors.
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PMID:Analyzing the validity of GalR1 and GalR2 antibodies using knockout mice. 1915 18

AMPK (AMP-activated protein kinase) is a phylogenetically conserved fuel-sensing enzyme that is present in all mammalian cells. During exercise, it is activated in skeletal muscle in humans, and at least in rodents, also in adipose tissue, liver and perhaps other organs by events that increase the AMP/ATP ratio. When activated, AMPK stimulates energy-generating processes such as glucose uptake and fatty acid oxidation and decreases energy-consuming processes such as protein and lipid synthesis. Exercise is perhaps the most powerful physiological activator of AMPK and a unique model for studying its many physiological roles. In addition, it improves the metabolic status of rodents with a metabolic syndrome phenotype, as does treatment with AMPK-activating agents; it is therefore tempting to attribute the therapeutic benefits of regular physical activity to activation of AMPK. Here we review the acute and chronic effects of exercise on AMPK activity in skeletal muscle and other tissues. We also discuss the potential role of AMPK activation in mediating the prevention and treatment by exercise of specific disorders associated with the metabolic syndrome, including Type 2 diabetes and Alzheimer's disease.
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PMID:AMPK and the biochemistry of exercise: implications for human health and disease. 1919 46

Metabolic syndrome is a collection of cardiometabolic risk factors that includes obesity, insulin resistance, hypertension and dyslipidemia. Although there has been significant debate regarding the criteria and concept of the syndrome, this clustering of risk factors is unequivocally linked to an increased risk of developing type 2 diabetes and cardiovascular disease. Metabolic syndrome is often characterized by oxidative stress, a condition in which an imbalance results between the production and inactivation of reactive oxygen species. Reactive oxygen species can best be described as double-edged swords; while they play an essential role in multiple physiological systems, under conditions of oxidative stress, they contribute to cellular dysfunction. Oxidative stress is thought to play a major role in the pathogenesis of a variety of human diseases, including atherosclerosis, diabetes, hypertension, aging, Alzheimer's disease, kidney disease and cancer. The purpose of this review is to discuss the role of oxidative stress in metabolic syndrome and its major clinical manifestations (namely coronary artery disease, hypertension and diabetes). It will also highlight the effects of lifestyle modification in ameliorating oxidative stress in metabolic syndrome. Discussion will be limited to human data.
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PMID:Oxidative stress and metabolic syndrome. 1928 26

There is accumulating evidence from animal and epidemiologic studies that physical exercise is neuroprotective in healthy animals and humans and can prevent cognitive decline in chronic neurodegenerative processes like Alzheimer's dementia. However, data from well-designed interventional, randomized non-pharmacologic trials is lacking in contrast to other areas of medicine like prevention of hypertension, diabetes or the antipsychotic-associated metabolic syndrome. The demonstration of a potential positive effect of physical exercise on preventing dementia using a controlled study design would represent a significant progress in the prevention of dementia and public health, especially as long as other treatments for dementia prevention are lacking.
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PMID:[Physical activity and prevention of Alzheimer's dementia: current evidence and feasibility of an interventional trial]. 1928 49

Renin angiotensin aldosterone system (RAAS) in the central nervous system (CNS) and therapeutical effects of angiotensin II receptor blockers (ARBs) have been highlighted. In stroke, clinical trials exhibit to prevent primary onset or recurrence of stroke beyond anti-hypertensive effect, inhibition of atrial fibrillation and diabetes mellitus. ARB could be also expected to prevent cognitive impairment induced by such as Alzheimer disease, stroke and metabolic syndrome; however, clinical evidence has not been revealed to date. Angiotensin II levels in cerebrospinal fluid in patients with neurodegenerative diseases such as multiple sclerosis and amyotrophic lateral sclerosis is reduced, suggesting the role of RAAS in neural intractable diseases. These findings will provide us new therapeutic approaches of ARB in CNS disorder in t hefuture.
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PMID:[New insights of ARB in central nervous system]. 1934 36

The metabolic syndrome (MetS) is more strongly associated with cognitive impairment in the presence of inflammation. This suggests that the association of MetS with mild cognitive impairment (MCI) may vary with the etiology and the subtype of MCI. This study investigated the association between MetS with or without inflammation and MCI [amnestic (a-MCI) and nonamnestic (na-MCI)]. We studied a randomly selected sample of 1969 participants (ages 70 to 89 y) from Olmsted County, MN, using the Clinical Dementia Rating Scale, a neurologic evaluation, and neuropsychologic testing. Data for participants were reviewed for a diagnosis of normal cognition, MCI, or dementia. Clinical components of MetS were ascertained by interview and confirmed from the medical records; biochemical measurements were assayed from a blood draw. We compared 88 na-MCI cases and 241 a-MCI cases with 1640 cognitively normal participants. MetS was not associated with either na-MCI or a-MCI. High C-reactive protein (CRP; highest tertile vs lowest tertile) was associated with na-MCI [odds ratio (OR)=1.85; 95% confidence interval (CI)=1.05, 3.24] but not with a-MCI, after adjusting for sex, age, and years of education. The combination of MetS and high CRP (compared to no MetS and lowest CRP tertile) was associated with na-MCI (OR=2.31; 95% CI=1.07, 5.00), but not with a-MCI (OR=0.96; 95% CI=0.59, 1.54). The combined presence of MetS and high levels of inflammation is associated with na-MCI in this elderly cohort, and suggests etiologic differences in MCI subtypes.
Alzheimer Dis Assoc Disord
PMID:Metabolic syndrome, inflammation, and nonamnestic mild cognitive impairment in older persons: a population-based study. 1956 51


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